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17551 lines
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17551 lines
2.6 MiB
197 6ApJS. . .31. .517K
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The Astrophysical Journal Supplement Series, 31:517-688, 1976 August
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© 1976. The American Astronomical Society. All rights reserved. Printed in U.S.A.
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A CATALOG OF RELATIVE EMISSION LINE INTENSITIES OBSERVED
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IN PLANETARY AND DIFFUSE NEBULAE
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James B. Kaler*
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University of Illinois Observatory
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Received 1975 September 2
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ABSTRACT
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A catalog of emission lines in the spectra of galactic and extragalactic planetary and diffuse
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nebulae is presented. The catalog gives relative emission line strengths for over 600 objects as
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observed by various workers over the past 35 years, and contains, as far as is known, all the
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significant data in the literature. In addition to giving individual relative line intensities, the
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catalog gives mean values of the intensities of a given line for each nebula, the individual in-
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tensities corrected for interstellar extinction, and the mean intensities also so corrected. For
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nebulae for which a large number of lines have been observed, a separate table gives information
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on the atomic transition responsible for each line.
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Subject headings: nebulae: general — nebulae: planetary
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I. INTRODUCTION (plus Herbig-Haro and related objects). Supernova
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Gaseous nebulae have been observed spectro- remnants, nova shells, Seyfert galaxies, most galactic
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scopically for over 100 years, since Huggins’s (1864) nuclei, quasars, and emission fine stars are not
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observations. Quantitative measurements of line included.
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strengths were begun in the early part of this century, 3. Only optical and infrared emission fines are
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and as of now, line intensities have been observed for included; radio fine data are not presented.
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more than 600 planetary and diffuse nebulae. The 4. The catalog does include observations made of
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data, however, are widely scattered in the literature. individual points or regions within a nebula. However,
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Perek and Kohoutek (1967; hereafter designated PK) extensive point-by-point surveys of fine ratios are not
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give a bibliography of spectroscopic data for planetary presented completely. If more than about 10 regions
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nebulae up to 1967 and Johnson (1968) gives one for are observed by a worker, the catalog usually gives an
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diffuse nebulae through 1965, but it is often a laborious extreme value, with an indication that other values
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exist.
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procedure to locate and examine each of the references
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fisted in order to find the intensities of spectral fines, Where possible, the catalog gives fine intensities
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especially if a large number of nebulae are involved. scaled to /(Hß) [or I(Hß + He n Pickering 8)] = 100.
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In addition, a great deal of new work has been In cases where more than one region of a nebula is
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produced since these bibliographies were published. measured, each region is so scaled. Not infrequently,
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This catalog presents all the relative fine intensities Hß is not observed for a given nebula or region, in
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(with qualifications as fisted below) that have been which case the intensities are on an arbitrary scale.
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In addition to presenting the individual fine in-
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measured for planetary and both galactic and extra-
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galactic diffuse nebulae. The survey is complete tensities, the catalog gives, where possible, mean values
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of the fine intensities for each fine observed, and also
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through 1975 November, and in addition contains
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data in press that were known to the author at that fine intensities corrected for interstellar extinction.
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time.
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Observations were chosen for inclusion according to II. ARRANGEMENT AND USE
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the following guidelines : a) Presentation of Nebulae
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1. The observations should consist of quantitative
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measurements of relative fine intensities. However, The main catalog is given in Table 8. A supple-
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eye estimates are included where no quantitative mentary fist to identify weak fines for selected nebulae
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is given in Table 9, p. 677, and Will be discussed in
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measurements are available. Graphical presentations
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of data are generally not used. Because the catalog § III. In Table 8 the planetary nebulae are presented
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fists relative intensities, a nebula has to have been first, on p. 529, followed by galactic diffuse nebulae
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(including Herbig-Haro and related objects) on p. 636
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observed in at least two fines to be included. Absolute
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fine fluxes are not presented; for these see PK, Cahn and extragalactic diffuse nebulae on p. 658. Two pages
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and Kaler (1971), Higgs (1971), or Perek (1971). of the original catalog (or two sets of columns) are
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2. Only planetary and diffuse nebulae are considered printed on each journal page.
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Each nebula is introduced or headed by its common
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* 1972-1973 John Simon Guggenheim Memorial Founda- or catalog name. The headings for each planetary
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tion Fellow. nebula also contain the PK catalog number. For
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517
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© American Astronomical Society • Provided by the NASA Astrophysics Data System
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197 6ApJS. . .31. .517K
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518 KALER Vol. 31
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newly discovered planetaries, new PK numbers have TABLE IB
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been assumed. The headings for each galactic diffuse List of Catalog Names for Galactic Diffuse Nebulae,
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nebula contain the galactic longitude and latitude with References
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(/ and b) in parentheses following the name of the
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nebula. For the extragalactic diffuse nebulae the name Abbr. Catalog/Name (Reference)
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of the galaxy in which the nebula is found is in
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NGC
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parentheses following the name of the nebula. Head- IC
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ings are repeated at the top and bottom of each set of AN Anonymous (with right ascension, hr-min)
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columns. C Cygnus (Courtès, Louise, and Monnet
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For the planetary and galactic diffuse nebulae the 1969)
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CE Cederblad 1946
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NGC objects are placed first, followed by the nebulae DG Dorschner and Gürtler 1963
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with IC numbers. (Where a nebula has a double El 7] Carinae
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NGC number, only one is given.) All the other nebulae G Gum 1955
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are then ordered alphabetically according to the HH Herbig-Haro object (see catalog reference)
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K Kohoutek (see PK)
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abbreviations of their common catalog names. These RCW Rogers, Campbell, and Whiteoak 1960
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abbreviations and the catalog names used are given S Sharpless 1959
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for planetary nebulae in Table 1A in order of their SE Struve and Elvey 1939
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appearance in Table 8. With only a few exceptions the SH Shain and Haze (Atlas of Diffuse Galactic
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Nebulae 1953; see catalog reference)
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names and the abbreviations used are the same as used T T Tauri nebula (see catalog reference)
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by PK. If PK’s abbreviations differ from those adopted
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here, theirs are placed in parentheses. For further
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bibliographical information see PK. TABLE 1C
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The catalog names and abbreviations for galactic Galaxies with Observed Diffuse Nebulae, and List of
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diffuse nebulae are presented in Table IB, again in Catalog Names, with References
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order of their appearance in Table 8. Where appro-
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Galaxy Abbr. Catalog/Name (Reference)
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TABLE 1A LMC. D30 30 Doradus (NGC 2070)
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List of Catalog Names for Planetary Nebulae N Number from Henize 1956
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SMC. NS Number from Henize 1956
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Abbr. Catalog M33.. NGC
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IC
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AN Anonymous (right ascension, hr,
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NGC NGC min)
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IC IC BC Boulesteix et al. 1974
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A Abell (2d list) CC Courtès and Cruvellier 1965
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AN Anonymous (with right ascension, hr-min) M33 Large sections, interarm
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B* BD number (with degree only) SR3 Number from Searle 1971 for M33
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BA Baade M51. M51 Large sections of galaxy
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BL Blanco SR5 Number from Searle 1971 for M51
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CM Cannon-Mayall (CnMy) M64..
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CN Cannon M81..
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FG Fleming M82..
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HA Haro(H) M101. NGC
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HB Hubble SRI Number from Searle 1971 for
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HE Henize M101
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HF Hoffleit NGC 4151
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HU Humason NGC 4214
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J Jonkheere NGC 4449
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K Kohoutek NGC 6822 HU Hubble 1925
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M Minkowski NGC 7679
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MC Mayall-Cannon (MyCn) ZW 18.... Zwicky 1971
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ME Merrill ZW 40.... Zwicky 1971
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MZ Menzel
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PB Peimbert-Bátiz
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PC Peimbert-Costero priate, references are given. Many of the diffuse
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PE Perek
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PS Pease nebulae have multiple names. In general the most
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S Sharpless (Sh 2) common one is used; NGC or IC numbers are
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SP Shapley preferred, then Sharpless (1959) numbers, then the
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SS Swings-Struve (Sw St)
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VE Velghe others. There are some exceptions; for example, when
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W Vorontsov-Velyaminov only one author has studied a nebula the name referred
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VY Vyssotsky to in that reference is often used. See the remarks
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NSt Small Magellanic Cloud column in Table 3A for further information.
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PÎ Large Magellanic Cloud
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YM Johnson The cataloging of the extragalactic diffuse nebulae
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is more complex than that of the galactic, because we
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* BD + 30°3639 is designated B30. have nebulae inside of other various objects. The
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t Numbers from Henize 1956. galaxies are given in the following order: Large
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Î Numbers from Westerlund and Smith 1964. Magellanic Cloud (LMC), Small Magellanic Cloud
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© American Astronomical Society • Provided by the NASA Astrophysics Data System
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197 6ApJS. . .31. .517K
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No. 4, 1976 CATALOG OF EMISSION LINE INTENSITIES 519
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(SMC), Messier numbers, NGC numbers, Zwicky several entries. In some cases the different entries come
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numbers. Within each galaxy, the nebulae’s catalog from different reference sources, while in others they
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names are ordered in the usual manner: NGC, IC, refer to different regions, or positions, within a nebula
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then others alphabetically. as observed by a given author. The entries for a given
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NGC and IC numbers are not used for the LMC and fine are first ordered alphabetically by reference code
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SMC; the Henize (1956) numbers (N) give a better and (see below). The only exception to this rule is in the
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more complete accounting and are used instead. The case where a reference contains detailed information on
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Henize numbers in the SMC are called here NS precise wavelength and the atomic transition respons-
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instead of N to avoid confusion (the same for planetary ible for the line; that reference will be placed first, and
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nebulae). The subdivisions of the Henize numbers (A, details of the transition will be placed in Table 9. For
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B, etc.) are identified by placing the subdivision letter a given reference, the entries are then ordered alpha-
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in the column headed “RG.” NGC and IC numbers betically by the “region” code (again, see below). In
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are cross-referenced to the N (or NS) numbers at general, the catalog presents data as nearly as possible
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the end of each nebula’s entry. For further discussion in the way in which they were given by the original
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see the explanation of columns which follows. reference, except that the intensities may have been
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In all cases of extragalactic nebulae, the galaxy scaled to Hß.
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within which a nebula is observed is listed in the The meanings of the column headings of Table 8 are
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headings. If the name of the nebula is the same as the given in Table 4A. Detailed comments on the columns
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name of the galaxy, it means that the galaxy as a whole, are given below :
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or a large section of it, was observed. The emphasis Col 7, WAVE.—Wavelength in angstroms or, for
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here is on individually recognizable diffuse nebulae. far-infrared lines, in microns, so designated by MU.
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Line-intensity data on galactic nuclei, or on the general The wavelengths are usually truncated to unit ang-
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central regions, is not presented completely, and is only stroms. In cases where the reference source includes a
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sampled in Table 8. large number of lines and where a line is identified, the
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The listing of the extragalactic diffuse nebulae is wavelength is given to one or more decimal places.
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summarized in Table 1C. Column (1) lists the galaxies Where only one decimal is given by the original
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included in order of their presentation in Table 8. reference, the second decimal is always zero. The
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Column (2) gives the abbreviations for the catalog presence of two decimals usually implies that the
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names used in each galaxy, again in order of presenta- wavelength was precisely measured. The reader should
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tion, and column (3) gives the name, and reference consult the reference for details, and for precise
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where appropriate. If column (2) is blank it means that wavelengths of unidentified lines.
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only large sections of the galaxy were observed. The wavelength given may not be exactly faithful to
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Listings of the cataloged planetary and galactic the wavelength given by an original reference if there
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diffuse nebulae in order of both increasing galactic is more than one reference per line. The processing
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longitude and increasing right ascension are presented program prints the lowest wavelength of the group of
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in Tables 2 and 3. In Table 2A the galactic planetaries entries for a given fine, or the one with the precise
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are given in order of increasing /, starting with wavelength. For example, if reference A calls a fine
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/ = 180°, as in PK. The columns give, in order, the A4471 He i, and reference B calls it A4472 He i, the
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nebula’s name, the PK number (/ and b truncated to catalog will list the lower wavelength, A4471.
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the whole number), and the right ascension and Col. 2, IDENT.—Identification of the observed line,
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declination for 1950. The coordinates were all taken as given by the original reference. Obvious errors are
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from PK except for AN 1, 2, and 3 (Vorontsov- corrected. Forbidden lines are denoted by parentheses,
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Velyaminov et al 1973) and He 2-113 (Henize 1967), instead of by the usual square brackets. For a small
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which may not be a planetary nebula. In Table 2B the number of nebulae, a very large number of lines have
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planetaries are again listed, this time in order of been observed. To aid in the identification of these
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increasing right ascension. lines, these nebulae are also included in a separate
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Tables 3A and 3B give the same information for table called the Identification Supplement, Table 9.
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galactic diffuse nebulae. In Table 3A the columns give This table includes information on the atomic transi-
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the name, galactic latitude and longitude (to tenths of a tion corresponding to the line, and will be discussed
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degree), right ascension and declination for 1950, and later. The nebulae presented in Table 9 are those for
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remarks. The nebulae are ordered according to in- which the wavelength has been measured to 0.01 Â,
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creasing /, starting at / = 0°. The remarks column and includes NGC 6543, 6572, 7009, 7027, 7662;
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gives proper names, cross listings between catalogs, IC 4997; and the Orion Nebula, NGC 1976.
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and occasionally the star with which the nebula is Col. 5, N.—Number of identifications for a given
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associated. The coordinates were taken from Becváf observed line, which accounts for blends. If there are
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(1959), Sulentic and Tifft (1973), Dreyer (1953), the n identifications for a line, each identification is given
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references presented in Table IB, and the references an entry or a line in the catalog, N = n, and the
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given to the observations in Table 8. reference and the intensity information is printed for
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each entry. For example, a line measured at A3889 is
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b) Presentation of the Observations actually a blend of H and He i. The catalog listing
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For a given nebula, lines are ordered according to would appear as shown in Table 5, with two entries
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increasing wavelength. For a given line there may be for the one line.
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© American Astronomical Society • Provided by the NASA Astrophysics Data System
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197 6ApJS. . .31. .517K
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TABLE 2A
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List of Planetary Nebulae in Order of Increasing Galactic Longitude
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FK No. FK No. cy (1950)6 FK No. y(1950)$
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Nebula m o Nebula Nebula
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NGC 2371 189+19 1 7 22.4 +29 35 NGC 3195 296-20 1 10 10.1 -80 37 MZ 2 329- 2 2 16 10.5 -54 50
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Ml 7 189+ 716 34.3 +24 03 HE2 78 297+ 3-1 12 06.6 -58 26 CN1 1 330+ 4 1 15 47.7 -48 36
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J 320 190-17 1 5 02.8 +10 38 NGC 4071 298- 4 1 12 01.6 -67 02 HE2 153 330- 2 1 16 13.3 -53 25
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J 900 194+ 216 23.0 +17 49 HE2 84 300- 0 1 12 26.0 -63 27 HE2 159 330- 3 1 16 20.3 -54 29
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me 2022 196-10 1 5 39.4 + 9 04 HE2 86 300- 2 1 12 27.6 -64 35 NGC 5873 331+16 1 15 09.7 -37 55
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NGC 2392 197+17 1 7 26.2 +21 01 IC 4191 304- 4 1 13 05.3 -67 22 HE2 145 331+ 0 1 16 05.2 -50 54
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W1 4 197- 2 1 6 12.4 +12 23 NGC 5189 307- 3 1 13 30.2 -65 44 MZ 3 331- 1 1 16 13.5 -51 52
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YM 29 205+14 1 7 26.2 +13 2 MC 18 307- 4 1 13 35.9 -67 08 HE2 157 331- 2 1 16 18.3 -53 34
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NGC 1535 206-40 1 4 11.9 -12 52 HE2 97 307- 9 1 13 41.4 -71 14 HE2 161 331- 2 2 16 20.7 -53 16
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NGC 2346 215+ 317 06.8 - 0 44 HE2 99 309- 4 1 13 48.7 -66 08 HE2 162 331- 3 1 16 23.9 -53 55
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IC 418 215-24 1 5 25.2 -12 44 NGC 5315 309- 4 2 13 50.9 -66 18 HE2 165 331- 3 2 16 26.0 -54 03
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NGC 1360 220-53 1 3 31.2 -26 01 HE2 103 310- 2 1 14 01.8 -64 27 PC 11 331- 5 1 16 33.9 -55 39
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IC 2165 221-12 1 6 19.4 -12 58 NGC 5307 312+10 1 13 47.9 -50 58 HE2 164 332- 3 1 16 25.9 -53 17
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NGC 2438 231+ 427 39.6 -14 37 HE2 107 312- 1 1 14 14.9 -62 53 HE2 170 332- 4 1 16 31.4 -53 44
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NGC 2440 234+ 217 39.7 -18 05 HE2 106 312- 2 1 14 10.4 -63 12 HE2 152 333+ 1 1 16 11.6 -49 06
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A 33 238+34 1 9 36.6 - 2 34 HE2 111 315- 0 1 14 29.5 -60 37 IC 4642 334- 9 1 17 07.6 -55 20
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NGC 2610 239+13 1 8 31.1 -15 59 HE2 131 315-13 1 15 31.9 -71 45 HE2 169 335- 1 1 16 30.5 -49 15
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NGC 2452 243- 117 45.4 -27 13 HE2 108 316+ 8 1 14 14.8 -51 57 FE1 6 336+ 1 1 16 20.3 -46 35
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NGC 3242 261+32 1 10 22.4 -18 23 HE2 119 317- 5 1 15 06.4 -64 29 NGC 6164 336- 0 1 16 30.2 -48 00
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NGC 2818 261+ 819 14.0 -36 24 A 36 318+41 1 13 37.9 -19 38 HE2 186 336- 5 1 16 55.7 -51 38
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HE2 7 264- 818 10.0 -48 34 HE2 114 318- 2 1 15 00.1 -60 41 PC 14 336- 6 1 17 02.3 -52 23
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NGC 2792 265+ 419 10.6 -42 14 IC 4406 319+15 1 14 19.3 -43 55 PEI 7 337+ 1 1 16 26.9 -45 56
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VE 26 265- 218 41.9 -45 55 HE2 134 319- 9 1 15 42.5 -66 20 HE2 187 337- 5 1 16 57.8 -50 19
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PB 5 268+ 2 1 9 14.3 -45 17 HE2 113 32G+- 4 1 14 52.6 -53 54 HE2 155 338+ 5 1 16 15.9 -42 09
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PB 3 269- 318 52.5 -50 21 HE2 138 320- 9 1 15 51.3 -66 01 HE2 156 338+ 5 2 16 17.7 -42 16
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NGC 3132 272+12 1 10 04.9 -40 12 HE2 434 320-28 1 19 27.5 -74 39 NGC 6326 338- 8 1 17 16.8 -51 42
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HE2 18 273- 319 07.2 -53 07 HE2 115 321+ 2 1 15 01.6 -54 59 NGC 6153 341+ 5 1 16 28.0 -40 08
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HE2 28 275- 219 20.5 -53 56 HE2 117 321+ 2 2 15 02.3 -55 48 ME2 1 342+27 1 15 19.4 -23 27
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HE2 29 275- 229 23.2 -54 23 HE2 185 321-16 1 16 55.8 -70 02 NGC 6072 342+ 0 1 16 09.7 -36 06
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PB 4 275- 41 9 13.4 -54 40 PE2 8 322- 0 1 15 19.8 -56 58 HE2 175 345+ 6 1 16 36.1 -36 29
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NGC 2899 277- 319 25.5 -55 54 MZ 1 322- 2 1 15 30.2 -58 59 HA1 7 345- 1 1 17 06.9 -41 49
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PB 6 278+ 5 1 10 11.3 -50 05 NGC 5979 322- 5 1 15 42.5 -61 03 M2 4 349+ 4 1 16 57.8 -34 45
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NGC 2867 278- 51 9 20.1 -58 06 HE2 136 322- 6 1 15 48.0 -62 22 NGC 6302 349+ 1 1 17 10.4 -37 03
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HE2 26 278- 619 18.2 -58 59 HE2 123 323+ 2 1 15 18.6 -53 58 HA2 1 350+ 4 1 17 01.3 -33 55
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HE2 36 279- 319 41.9 -57 03 HE2 132 323- 2 1 15 34.0 -58 35 M3 14 355- 2 1 17 41.0 -34 05
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IC 2501 281- 5 9 37.3 -59 51 HE2 125 324+ 2 1 15 19.9 -53 41 HA1 35 355- 3 3 17 45.9 -34 22
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HE 2 50 283+ 3 10 32¿3 -53 25 HE2 133 324- 1 1 15 38.0 -56 27 HF2 1 355- 4 1 17 47.9 -34 55
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HE2 39 283- 4 10 02.3 -60 30 HE 2 128 325+ 4 1 15 21.5 -51 09 Ml 30 355- 4 2 17 49.7 -34 38
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HE2 52 285+ 1 10 36.6 -56 31 HE 2 127 325+ 4 2 15 21.2 -51 39 M3 21 355- 6 1 17 59.1 -36 39
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HE2 47 285- 2 10 21.4 -60 18 HE 2 129 325+ 3 1 15 21.9 -52 40 M2 11 356+ 4 1 17 17.4 -28 58
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IC 2553 285- 5 1 10 07.7 -62 20 HE2 141 325- 4 1 15 55.0 -58 15 Ml 27 356- 2 2 17 43.5 -33 07
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IC 2448 285-14 1 9 06.6 -69 44 HE2 182 325- 356- 3 3 17 50.0 -33 55 1
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NGC 3211 286- 4 1 10 16.2 -62 26 IC 972 326+42 1 14 01.7 -17 01 CN2 1 356- 4 1 17 51.2 -34 22
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PEI 3 288- 2 1 10 42.6 -61 24 HE2 151 326- 6 1 16 11.4 -59 46 HA1 41 356- 4 2 17 54.0 -34 10
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HE2 51 288- 5 1 10 34.0 -64 04 CN1 2 326-10 1 16 40.0 -62 31 HA2 35 356- 5 1 17 57.0 -34 28
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EG 1 290+ 7 1 11 26.2 -52 39 HE2 118 327+13 1 15 02.9 -42 49 M2 24 356- 5 2 17 58.7 -34 28
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HE2 64 291+ 3 1 11 25.1 -57 01 NGC 5882 327+10 1 15 13.5 -45 27 M2 16 357- 3 2 17 49.3 -32 45
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IC 2621 291- 4 1 10 58.4 -64 59 HE2 143 327- 1 1 15 57.1 -54 57 M2 18 357- 3 4 17 50.3 -32 58
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NGC 3699 292+ 1 1 11 25.7 -59 41 HE2 140 327- 1 2 15 54.2 -55 33 HA1 42 357- 4 1 17 54.1 -33 35
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HE2 67 292+ 1 2 11 26.5 -59 50 HE2 142 327- 2 1 15 56.0 -55 47 M2 22 357- 4 2 17 55.2 -33 28
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NGC 4361 294+43 1 12 21.9 -18 31 HE2 158 327- 6 1 16 19.3 -58 12 Ml 34 357- 5 1 17 58.1 -33 18
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NGC 3918 294+ 4 1 11 47.8 -56 54 HE2 163 327- 7 1 16 25.3 -59 03 M3 39 358+ 5 1 17 18.1 -27 09
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HE2 68 294- 4 1 11 29.5 -65 42 HE2 146 328- 2 1 16 06.7 -54 49 M3 10 358+ 3 1 17 24.2 -28 25
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HE2 73 296- 3 1 11 46.2 -64 51 SP 1 329+ 2 1 15 47.4 -51 21 Ml 26 358- 0 2 17 42.7 -30 11
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HE2 71 296- 6 1 11 36.9 -68 35 HE2 149 329- 2 1 16 10.4 -54 40 HA1 44 358- 3 1 17 54.9 -31 43
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520
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||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 2A—Continued
|
||
|
||
PK No. ai (1950)6 PK No. q»(1950)6 PK No. gQ.?50)s
|
||
Nebula o o h m O' Nebula o o h m o Nebula o o h in o
|
||
HA1 46 358- 4 1 17 55.8 -32 22 NGC 6578 10- 1 1 18 13.3 -20 28 HE2 467 63-12 1 20 33.8 +20 00
|
||
HA1 49 358- 5 2 18 00.1 -32 42 IC 4732 10- 6 1 18 31.0 -22 40 NGC 6058 64+48 1 16 02.7 +40 49
|
||
NGC 6563 358- 7 1 18 08.7 -33 53 M2 15 11+ 6 1 17 44.0 -16 16 Ml 64 64+15 1 18 48.2 +35 11
|
||
M2 12 359+ 5 1 17 20.9 -25 57 NGC 6439 11+5 1 17 45.4 -16 28 B 30 64+ 5 1 19 32.8 +30 24
|
||
HB 5 359- 0 1 17 44.7 -29 59 Ml 32 11+ 4 1 17 53.4 -16 29 NGC 6842 65+ 0 1 19 53.0 +29 09
|
||
Ml 29 359- 1 1 17 47.1 -30 34 NGC 6567 11- 0 2 18 10.8 -19 05 PS 1 65-27 1 21 27.6 +11 57
|
||
M3 17 359- 3 1 17 53.2 -31 04 HA2 48 11- 9 1 18 43.5 -23 30 NGC 7094 66-28 1 21 34.5 +12 34
|
||
M2 27 359- 4 2 18 00.6 -31 18 Ml 33 13+ 4 1 17 56.1 -15 32 NGC 6894 69- 2 1 20 14.4 +30 25
|
||
IC 4634 0+12 1 16 58.6 -21 44 Ml 48 13-3 1 18 26.6 r-19 08 NGC 6857 704- 1 2 19 59.9 +33 23
|
||
HA1 16 0+4 2 17 26.3 -26 24 AN 1 13- 4 2 18 27.6 -19 16 NGC 6881 74+ 2 1 20 09.0 +37 16
|
||
Ml 50 14- 4 1 18 30.4 -18 19
|
||
BL3 13 0-2 1 17 52.8 -29 11 AN 2 14- 5 1 18 33.3 -19 24 NGC 6833 82+11 1 19 48.3 +48 50
|
||
M2 21 0-24 17 55.0 -29 44 AN 3 14-5 2 18 34.4 -19 10 NGC 6884 82+ 7 1 20 08.8 +46 19
|
||
BL3 11 1-0 1 17 45.1 -28 00 Ml 53 15- 4 1 18 32.9 -17 39 NGC 6826 83+12 1 19 43.5 +50 24
|
||
HA1 47 1-31 17 57.4 -29 22 Ml 46 16- 1 1 18 25.1 -15 35 NGC 7027 84- 3 1 21 05.2 +42 02
|
||
HA1 55 1-41 18 04.0 -29 42 Ml 54 16- 4 1 18 33.2 -17 02 A 71 85+4 1 20 30.8 447 11
|
||
Ml 56 16- 4 2 18 34.9 -17 08
|
||
CM 17 1-6 1 18 12.2 -30 33 Ml 60 19- 4 1 18 40.8 -13 48 HU1 2 86- 8 1 21 31.1 +39 25
|
||
SS 1 1-6 2 18 13.0 -30 53 Ml 61 19- 5 1 18 43.1 -14 31 NGC 7048 88-1 1 21 12.4 +46 04
|
||
NGC 6369 2+ 5 1 17 26.3 -23 43 Ml 63 21- 5 1 18 48.7 -13 14 NGC 7026 89+ 0 1 21 04.6 447 39
|
||
M3 20 2-22 17 56.2 -28 14 Ml 57 22- 2 1 18 37.6 -10 43 IC 5117 89- 5 1 21 30.6 444 22
|
||
M2 23 2-24 17 58.5 -28 26 Ml 58 22- 3 1 18 40.2 -11 10 NGC 7008 93+ 5 2 20 59.1 +54 21
|
||
Ml 59 23- 2 1 18 40.6 - 9 08
|
||
HA2 38 2-34 18 02.9 -28 17 IC 4593 25+40 1 16 09.9 +12 12 K3 62 95+ 0 1 21 30.2 +52 21
|
||
Ml 38 2-35 18 02.9 -28 41 NGC 6818 25-17 1 19 41.1 -14 16 NGC 6543 96+29 1 17 58.6 +66 38
|
||
HA1 54 2-41 18 03.9 -29 14 VY1 4 27- 3 2 18 51.3 - 6 30 A 77 97+ 3 1 21 30.6 +55 40
|
||
Ml 42 2-42 18 07.9 -29 00 IC 4846 27-9 1 19 13.0 - 9 05 IC 5217 100- 5 1 22 21.9 +50 43
|
||
M2 33 2-61 18 11.9 -30 17 M2 44 28+1 1 18 35.0 - 3 09 ME2 2 100- 8 1 22 29.6 +47 33
|
||
NGC 6751 29- 5 1 19 03.2 - 6 04
|
||
HA1 63 2-62 18 13.1 -30 09 NGC 6741 33-2 1 19 00.0 - 0 31 NGC 7139 104+ 7 1 21 44.6 +63 25
|
||
M2 41 2-71 18 19.4 -30 45 NGC 6772 33- 6 1 19 12.0 - 2 47 NGC 7662 106-17 1 23 23.5 +42. 16
|
||
CN1 5 2-91 18 26.0 -31 32 NGC 6572 34+11 1 18 09.7 + 6 50 NGC 7354 107+ 2 1 22 38.5 +61 01
|
||
IC 4776 2-13 1 18 42.6 -33 24 NGC 6778 34- 6 1 19 15.8 - 1 40 Ml 80 107- 2 1 22 54.2 +56 53
|
||
HB 4 3+2 1 17 38.8 -24 41 S 71 36- 1 1 18 59.5 + 2 05 VY2 3 107-13 1 23 20.6 +46 38
|
||
NGC 7293 36-57 1 22 26.9 -21 03
|
||
Ml 35 3-21 18 00.5 -26 44 NGC 6790 37- 6 1 19 20.7 + 1 25 HB 12 111- 2 1 23 24.0 +57 54
|
||
IC 4673 3- 2 3 18 00.2 -27 06 NGC 7009 37-34 1 21 01.5 -11 34 IC 1454 117+18 1 22 42.2 +80 11
|
||
NGC 6565 3- 4 5 18 08.7 -28 11 CN3 1 38+12 1 18 15.2 +10 08 VY1 1 118- 8 1 0 16.0 +53 36
|
||
M2 30 3-48 18 09.4 -27 59 NGC 6781 41-2 1 19 16.0 + 6 27 NGC 246 118-74 1 0 44.5 -12 09
|
||
M2 36 3-61 18 14.5 -29 10 NGC 6807 42- 6 1 19 32.1 + 5 34 HUI 1 119- 6 1 0 25.5 +55 41
|
||
HB 7 3-14 1 18 52.0 -32 20 NGC 6210 43+37 1 16 42.4 +23 54 NGC 40 120+ 9 1 0 10.3 +72 15
|
||
Ml 25 4+41 17 35.5 -22 07 M3 27 43+11 1 18 25.5 +14 27 IC 3568 123+34 1 12 31.6 +82 50
|
||
Ml 44 4- 4 2 18 13.2 -27 06 VY2 2 45- 2 1 19 22.0 + 9 48 IC 1747 130+ 1 1 1 54.0 +63 05
|
||
M3 26 4-51 18 13.1 -27 16 NGC 6804 45-4 1 19 29.2 + 9 07 NGC 650 1 130-10 1 1 39.2 +51 19
|
||
M3 12 5+5 1 17 33.4 -21 29 NGC 6803 46-4 1 19 28.9 + 9 57 Ml 1 130-11 1 1 34.2 +50 13
|
||
HE2 390 5- 5 2 18 17.9 -26 50 A 39 47+42 1 16 25.5 +28 01 A 3 131+ 2 1 2 08.4 +63 55
|
||
NGC 6620 5-61 18 19.8 -26 51 HA4 1 49+88 1 12 57.0 +27 54 Ml 2 133- 8 1 1 55.5 +52 39
|
||
M3 15 6+4 2 17 42.5 -20 57 HU2 1 51+ 9 1 18 47.6 +20 47 IC 289 138+ 2 1 3 06.3 +61 08
|
||
HB 6 7+11 17 52.1 -21 44 Ml 73 51- 3 1 19 38.9 +14 50 NGC 1501 144+ 6 1 4 02.7 +60 47
|
||
M3 18 7+12 17 54.3 -21 41 ME1 1 52- 2 2 19 36.9 +15 50 Ml 4 147-2 1 3 38.0 +52 07
|
||
VY2 1 7-62 18 24.9 -26 09 Ml 74 52- 4 1 19 40.0 +15 02 NGC 3587 148+57 1 11 11.9 +55 17
|
||
NGC 6445 8+31 17 46.3 -20 00 VY1 2 53+24 1 17 52.4 +28 00 W1 2 151+ 2 1 4 15.9 +52 59
|
||
Ml 40 8-11 18 05.2 -22 17 NGC 6891 54-12 1 20 12.8 +12 33 IC 351 159-15 1 3 44.3 +34 54
|
||
M2 39 8-41 18 19.0 -24 12 NGC 6879 57- 8 1 20 08.2 +16 46 IC 2003 161-14 1 3 53.2 +33 43
|
||
M2 42 8-42 18 19.5 -24 11 IC 4997 58-10 1 20 17.9 +16 35 NGC 2474 164+31 1 7 53.9 +53 33
|
||
NGC 6644 8-72 18 29.5 -25 10 NGC 6853 60-3 1 19 57.4 +22 35 NGC 1514 165-15 1 4 06.1 +30 39
|
||
NGC 6309 9+14 1 17 11.3 -12 51 HE1 5 60- 7 1 20 09.7 +20 11 IC 2149 166+10 1 5 52.6 +46 07
|
||
NGC 6629 9-51 18 22.7 -23 14 NGC 6886 60- 7 2 20 10.5 +19 50 IC 2120 169- 0 1 5 14.8 +37 33
|
||
M2 17 10+ 4 1 17 49.2 -17 35 NGC 6905 61- 9 1 20 20.2 +19 57 BA I 171-25 1 3 50.6 +19 19
|
||
NGC 6537 10+ 0 1 18 02.3 -19 51 NGC 6720 63+13 1 18 51.7 +32 58
|
||
|
||
|
||
521
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 2B
|
||
List of Planetary Nebulae in Order of Increasing Right Ascension
|
||
|
||
ga950)S a(1950)6 at (1950)fi <*(1950)6
|
||
Nebula Nebula h m o ' Nebula h m Nebula h m
|
||
NGC 40 0 10.3 +72 15 HE2 29 9 23.2 -54 23 HE2 114 15 00.1 -60 41 HE2 165 16 26.0 -54 03
|
||
VY1 1 0 16.0 +53 36 NGC 2899 9 25.5 -55 54 HE2 115 15 01.6 -54 59 PEI 7 16 26.9 -45 56
|
||
HUI 1 0 25.5 +55 41 A 33 9 36.6 -2 34 HE2 117 15 02.3 -55 48 NGC 6153 16 28.0 -40 08
|
||
NGC 246 0 44.5 -12 09 IC 2501 9 37.3 -59 51 HE2 118 15 02.9 -42 49 NGC 6164 16 30.2 -48 00
|
||
Ml 1 1 34.2 +50 13 HE2 36 9 41.9 -57 03 HE2 119 15 06.4 -64 29 HE2 169 16 30.5 -49 15
|
||
|
||
NGC 650 1 39.2 +51 19 HE2 39 10 02.3 -60 30 NGC 5873 15 09.7 -37 55 HE2 170 16 31.4 -53 44
|
||
IC 1747 1 54.0 +63 05 NGC 3132 10 04.9 -40 12 NGC 5882 15 13.5 -45 27 PC 11 16 33.9 -55 39
|
||
Ml 2 1 55.5 +52 39 IC 2553 10 07.7 -62 20 HE2 123 15 18.6 -53 58 HE2 175 16 36.1 -36 29
|
||
A3 2 08.4 +63 55 NGC 3195 10 10.1 -80 37 ME2 1 15 19.4 -23 27 CN1 2 16 40.0 -62 31
|
||
IC 289 3 06.3 +61 08 PB 6 10 11.3 -50 05 PE2 8 15 19.8 -56 58 NGC 6210 16 42.4 +23 54
|
||
|
||
NGC 1360 3 31.2 -26 01 NGC 3211 10 16.2 -62 26 HE2 125 15 19.9 -53 41 HE2 182 16 49.8 -64 09
|
||
Ml 4 3 38.0 +52 07 HE2 47 10 21.4 -60 18 HE2 127 15 21.2 -51 39 HE2 186 16 55.7 -51 38
|
||
IC 351 3 44.3 +34 54 NGC 3242 10 22.4 -18 23 HE2 128 15 21.5 -51 09 HE2 185 16 55.8 -70 02
|
||
BA 1 3 50.6 +19 19 HE2 50 10 32.3 -53 25 HE2 129 15 21.9 -52 40 M2 4 16 57.8 -34 45
|
||
IC 2003 3 53.2 +33 43 HE2 51 10 34.0 -64 04 MZ 1 15 30.2 -58 59 HE2 187 16 57.8 -50 19
|
||
NGC 1501 4 02.7 +60 47 HE2 52 10 36.6 -56 31 HE2 131 15 31.9 -71 45 IC 4634 16 58.6 -21 44
|
||
NGC 1514 4 06.1 +30 39 PEI 3 10 42.6 -61 24 HE2 132 15 34.0 -58 35 HA2 1 17 01.3 -33 55
|
||
NGC 1535 4 11.9 -12 52 IC 2621 10 58.4 -64 59 HE2 133 15 38.0 -56 27 PC 14 17 02.3 -52 23
|
||
W1 2 4 15.9 +52 59 NGC 3587 11 11.9 +55 17 NGC 5979 15 42.5 -61 03 HA1 7 17 06.9 -41 49
|
||
J 320 5 02.8 +10 38 HE2 64 11 25.1 -57 01 HE2 134 15 42.5 -66 20 IC 4642 17 07.6 -55 20
|
||
IC 2120 5 14.8 +37 30 NGC 3699 11 25.7 -59 41 SP 1 15 47.4 -51 21 NGC 6302 17 10.4 -37 03
|
||
IC 418 5 25.2 -12 44 EG 1 11 26.2 -52 39 CN1 1 15 47.7 -48 36 NGC 6309 17 11.3 -12 51
|
||
NGC 2022 5 39.4 +9 04 HE2 67 11 26.5 -59 50 HE2 136 15 48.0 -62 22 NGC 6326 17 16.8 -51 42
|
||
IC 2149 5 52.6 +46 07 HE2 68 11 29.5 -65 42 HE2 138 15 51.3 -66 01 M2 11 17 17.4 -28 58
|
||
W1 4 6 12.4 +12 23 HE2 71 11 36.9 -68 35 HE2 140 15 54.2 -55 33 M3 39 17 18.1 -27 09
|
||
IC 2165 6 19.4 -12 58 HE2 73 11 46.2 -64 51 HE2 141 15 55.0 -58 15 M2 12 17 20.9 -25 57
|
||
J 900 6 23.0 +17 49 NGC 3918 11 47.8 -56 54 HE2 142 15 56.0 -55 47 M3 10 17 24.2 -28 25
|
||
Ml 7 6 34.3 +24 03 NGC 4071 12 01.6 -67 02 HE2 143 15 57.1 -54 57 NGC 6369 17 26.3 -23 43
|
||
NGC 2346 7 06.8 -0 44 HE2 78 12 06.6 -58 26 NGC 6058 16 02.7 +40 49 HA1 16 17 26.3 -26 24
|
||
NGC 2371 7 22.4 +29 35 NGC 4361 12 21.9 -18 31 HE2 145 16 05.2 -50 54 M3 12 17 33.4 -21 29
|
||
NGC 2392 7 26.2 +21 01 HE2 84 12 26.0 -63 27 HE2 146 16 06.7 -54 49 Ml 25 17 35.5 -22 07
|
||
YM 29 7 26.2 +13 21 HE2 86 12 27.6 -64 35 NGC 6072 16 09.7 -36 06 HB 4 17 38.8 -24 41
|
||
IC 3568 12 31.6 +82 50 IC 4593 16 09.9 +12 12 M3 14 17 41.0 -34 05
|
||
NGC 2438 7 39.6 -14 37 HA4 1 12 57.0 +27 54 HE2 149 16 10.4 -54 40 M3 15 17 42.5 -20 57
|
||
NGC 2440 7 39.7 -18 05 IC 4191 13 05.3 -67 22 MZ 2 16 10.5 -54 50 Ml 26 17 42.7 -30 11
|
||
NGC 2452 7 45.4 -27 13 NGC 5189 13 30.2 -65 44 HE2 151 16 11.4 -59 46 Ml 27 17 43.5 -33 07
|
||
NGC 2474 7 53.9 +53 33 MC 18 13 35.9 -67 08 HE2 152 16 11.6 -49 06 M2 15 17 44.0 -16 16
|
||
HE2 7 8 10.0 -48 34 A 36 13 37.9 -19 38 HE2 153 16 13.3 -53 25 HB 5 17 44.7 -29 59
|
||
NGC 2610 8 31.1 -15 59 HE2 97 13 41.4 -71 14 MZ 3 16 13.5 -51 52 BL3 11 17 45.1 -28 00
|
||
VE 26 8 41.9 -45 55 NGC 5307 13 47.9 -50 58 HE2 155 16 15.9 -42 09 NGC 6439 17 45.4 -16 28
|
||
PB 3 8 52.5 -50 21 HE2 99 13 48.7 -66 08 HE2 156 16 17.7 -42 16 HA1 35 17 45.9 -34 22
|
||
IC 2448 9 06.6 -69 44 NGC 5315 13 50.9 -66 18 HE2 157 16 18.3 -53 34 NGC 6445 17 46.3 -20 00
|
||
HE2 18 9 07.2 -53 07 IC 972 14 01.7 -17 01 HE2 158 16 19.3 -58 12 Ml 29 17 47.1 -30 34
|
||
NGC 2792 9 10.6 -42 14 HE2 103 14 01.8 -64 27 PEI 6 16 20.3 -46 35 HF2 1 17 47.9 -34 55
|
||
PB 4 9 13.4 -54 40 HE2 106 14 10.4 -63 12 HE2 159 16 20.3 -54 29 M2 17 17 49.2 -17 35
|
||
NGC 2818 9 14.0 -36 24 HE2 108 14 14.8 -51 57 HE2 161 16 20.7 -53 16 M2 16 17 49.3 -32 45
|
||
PB 5 9 14.3 -45 17 HE2 107 14 14.9 -62 53 HE2 162 16 23.9 -53 55 Ml 30 17 49.7 -34 38
|
||
H£2 26 9 18.2 -58 59 IC 4406 14 19.3 -43 55 HE2 163 16 25.3 -59 03 HA1 39 17 50.0 -33 55
|
||
NGC 2867 9 20.1 -58 06 HE2 111 14 29.5 -60 37 A 39 16 25.5 +28 01 M2 18 17 50.3 -32 58
|
||
HE2 28 9 20.5 -53 56 HE2 113 14 52.6 -53 54 HE2 164 16 25.9 -53 17 CN2 1 17 51.2 -34 22
|
||
|
||
|
||
|
||
|
||
522
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 2B—Continued
|
||
|
||
<*(1950)6 <*(1950)6 <*(1950)6 <*(1950)6
|
||
Nebula Nebula Nebula Nebula
|
||
HB 6 17 52.1 -21 44 NGC 6563 18 08.7 -33 53 Ml 58 18 40 -11 10 NGC 6879 20 08.2 +16 46
|
||
VY1 2 17 52.4 +28 00 M2 30 18 09.4 -27 59 Ml 59 18 40 -9 08 NGC 6884 20 08.8 +46 19
|
||
BL3 13 17 52.8 -29 11 NGC 6572 18 09.7 +6 50 Ml 60 18 40 -13 48 NGC 6881 20 09.0 +37 16
|
||
M3 17 17 53.2 -31 04 NGC 6567 18 10.8 -19 05 IC 4776 18 42 -33 24 HE1 5 20 09.7 +20 11
|
||
Ml 32 17 53.4 -16 29 M2 33 18 11.9 -30 17 Ml 61 18 43 -14 31 NGC 6886 20 10.5 +19 50
|
||
HA.2 48 18 43 -23 30
|
||
HA.1 41 17 54.0 -34 10 CM 17 18 12.2 -30 33 HU 2 1 18 47 +20 47 NGC 6891 20 12.8 +12 33
|
||
HA1 42 17 54.1 -33 35 SS 1 18 13.0 -30 53 Ml 64 18 48 +35 11 NGC 6894 20 14.4 +30 25
|
||
M3 18 17 54.3 -21 41 M3 26 18 13.1 -27 16 Ml 63 18 48 -13 14 IC 4997 20 17.9 +16 35
|
||
HA.1 44 17 54.9 -31 43 HA.1 63 18 13.1 -30 09 VY1 4 18 51 - 6 30 NGC 6905 20 20.2 +19 57
|
||
M2 21 17 55.0 -29 44 Ml 44 18 13.2 -27 06 NGC 6720 18 51 +32 58 A 71 20 30.8 +47 11
|
||
HB 7 18 52 -32 20
|
||
M2 22 17 55.2 -33 28 NGC 6578 18 13.3 -20 28 S 71 18 59 5 + 2 05 HE2 467 20 33.8 +20 00
|
||
HA.1 46 17 55.8 -32 22 M2 36 18 14.5 -29 10 NGC 6741 19 00 0 - 0 31 NGC 7008 20 59.1 +54 21
|
||
Ml 33 17 56.1 -15 32 CN3 1 18 15.2 +10 08 NGC 6751 19 03 2 - 6 04 NGC 7009 21 01.5 -11 34
|
||
M3 20 17 56.2 -28 14 HE2 390 18 17.9 -26 50 NGC 6772 19 12 0 - 2 47 NGC 7026 21 04.6 +47 39
|
||
HA2 35 17 57.0 -34 28 M2 39 18 19.0 -24 12 IC 4846 19 13 0 - 9 05 NGC 7027 21 05.2 +42 02
|
||
HA1 47 17 57.4 -29 22 M2 41 18 19.4 -30 45 NGC 6778 19 15.8 - 1 40 NGC 7048 21 12.4 +46 04
|
||
Ml 34 17 58.1 -33 18 M2 42 18 19.5 -24 11 NGC 6781 19 16.0 + 6 27 PS 1 21 27.6 +11 57
|
||
M2 23 17 58.5 -28 26 NGC 6620 18 19.8 -26 51 NGC 6790 19 20.7+1 25 K3 62 21 30.2 +52 21
|
||
NGC 6543 17 58.6 +66 38 NGC 6629 18 22.7 -23 14 VY2 2 19 22.0 + 9 48 A 77 21 30.6 +55 40
|
||
M2 24 17 58.7 -34 28 VY2 1 18 24.9 -26 09 HE2 434 19 27.5 -74 39 IC 5117 21 30.6 +44 22
|
||
M3 21 17 59.1 -36 39 Ml 46 18 25.1 -15 35 NGC 6803 19 28.9 + 9 57 HU1 2 21 31.1 +39 25
|
||
HA1 49 18 00.1 -32 42 M3 27 18 25.5 +14 27 NGC 6804 19 29.2 + 9 07 NGC 7094 21 34.5 +12 34
|
||
IC 4673 18 00.2 -27 06 CN1 5 18 26.0 -31 32 NGC 6807 19 32.1 + 5 34 NGC 7139 21 44.6 +63 25
|
||
Ml 35 18 00.5 -26 44 Ml 48 18 26.6 -19 08 B 30 19 32.8 +30 24 IC 5217 22 21.9 +50 43
|
||
M2 27 18 00.6 -31 18 AN 1 18 27.6 -19 16 ME1 1 19 36.9 +15 50 NGC 7293 22 26.9 -21 03
|
||
NGC 6537 18 02.3 -19 51 NGC 6644 18 29.5 -25 10 Ml 73 19 38.9 +14 50 ME2 2 22 29.6 +47 33
|
||
HA2 38 18 02.9 -28 17 Ml 50 18 30.4 -18 19 Ml 74 19 40.0 +15 02 NGC 7354 22 38.5 +61 01
|
||
Ml 38 18 02.9 -28 41 IC 4732 18 31.0 -22 40 NGC 6818 19 41.1 -14 16 IC 1454 22 42.2 +80 11
|
||
HA1 54 18 03.9 -29 14 Ml 53 18 32.9 -17 39 NGC 6826 19 43.5 +50 24 Ml 80 22 54.2 +56 53
|
||
HA1 55 18 04.0 -29 42 Ml 54 18 33.2 -17 02 NGC 6833 19 48.3 +48 50 VY2 3 23 20.6 +46 38
|
||
Ml 40 18 05.2 -22 17 AN 2 18 33.3 -19 24 NGC 6842 19 53.0 +29 09 NGC 7662 23 23.5 +42 16
|
||
Ml 42 18 07.9 -29 00 AN 3 18 34.4 -19 10 NGC 6853 19 57.4 +22 35 HB 12 23 24.0 +57 54
|
||
NGC 6565 18 08.7 -28 11 Ml. 56 18 34.9 -17 08 NGC 6857 19 59.9 +33 23
|
||
M2 44 18 35.0 - 3 09
|
||
Ml 57 18 37.6 -10 43
|
||
|
||
|
||
|
||
|
||
523
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 3A
|
||
List of Diffuse Nebulae in Order of Increasing Galactic Longitude
|
||
|
||
cy (1950)6 tya950)S
|
||
Nebula o Remarks Nebula h m o Remarks
|
||
NGC 6559 3.4 -4.2 18 6.8 -28 8 S 175 120.4 2.0 0 24.5 64 26
|
||
NGC 6523 6.1 -1.3 18 1.6 -24 20 M8, Lagoon NGC 281 123.2 -6.3 0 50.4 56 19 S184
|
||
NGC 6514 6.9 -0.2 17 58 .9 -23 2 M20, Trifid S 186 124.9 0.3 1 5.6 62 52
|
||
IC 4678 6.9 -1.8 18 4.9 -23 53 S 187 126.7 -0.8 1 19.8 61 36
|
||
IC 1274 7.3 -2.0 18 6.7 -23 41 S 206 150.6 -1.0 3 59.4 51 11
|
||
AN 1755 10.6 2.5 17 57.0 -18 31 S 208 151.4 2.0 4 16.3 52 51
|
||
IC 1284 11.7 -1.7 18 14.7 -19 41 S 211 154.6 2.5 4 33.1 50 50
|
||
NGC 6618 15.1 -0.8 18 18.0 -16 12 M17, Omega S 212 155.4 2.6 4 36.8 50 17
|
||
NGC 6611 17.0 0.8 18 16.2 -13 48 Ml 6 NGC 1499 160.6 -12.0 4 0.1 36 17 S220, § Per
|
||
S 61 26.3 1.8 18 30.2 -5 5 S 222 165.3 -9.0 4 26.9 35 10
|
||
S 71 36.1 -1.4 18 59.5 2
|
||
NGC 6820 59.2 -0.2 19 40.6 22 IC 405 172.1 -2.3 5 13.0 34 16 S229
|
||
AN 1939 59.4 -0.1 19 41.0 23 IC 417 173.0 -1.1 5 20.0 34 12
|
||
AN 1944 61.4 0.1 19 44.5 25 S 232 173.5 3.2 5 39.0 36 10
|
||
AN 1945 61.4 0.1 19 44.5 25 } Prob. S88 S 235 173.6 2.8 5 37.6 35 49
|
||
S 90 63.2 0.4 19 47.2 26 44 NGC 1931 173.9 0.3 5 28.1 34 13
|
||
S 95 65.9 0.6 19 53.0 29 10 T 1 176.2 -20.9 4 19.1 19 25 S238, T Tau
|
||
K3 50 70.3 1.6 19 59.8 33 24 CE 61 180.7 4.3 6 1.3 30 30
|
||
S 100 70.3 1.6 19 59.9 33 22 DG 85 180.8 4.1 6 0.6 30 19
|
||
SE 12 72.5 1.8 20 5.0 35 24 SH 151 181.3 -1.4 5 40.0 27 5
|
||
NGC 6888 75.6 2.4 20 10.7 38 16 S105 NGC 2175 190.0 0.5 6 6.7 20 31 S252
|
||
S 106 76.4 -0.6 20 25.6 37 14 S 254 192.5 -0.2 6 9.3 18 4
|
||
IC 1318 78.8 3.6 20 14.7 41 39 Y Cyg AN 0529 192.6 -11.6 5 28.6 12 9 HK Ori
|
||
AN 2018 78.9 2.8 20 18.7 41 12 S 255 192.6 -0.0 6 10.2 18 0 IC 2162
|
||
C 20 79 0 20 30 40 j In Cygnus, S 257 192.6 -0.1 6 9.9 18 0
|
||
C 36 79 0 20 30 40 no position SH 140 192.7 -11.7 5 28.7 12 2
|
||
SH 57 80.5 4.8 20 14.6 43 40 S 263 194.7 -15.6 5 19.0 8 21 CE44
|
||
SH 108 82.3 5.9 20 15.0 45 45 S 264 195.1 -12.0 5 32.4 9 54 X Ori
|
||
SH 107 83.6 7.2 20 13.0 47 32 S 269 196.4 -1.7 6 11.7 13 52
|
||
IC 5067 84.4 0.4 20 46.9 44 11 AN 0543 197.1 -10.3 5 42.5 9 4 FU Ori
|
||
NGC 7000 85.5 -1.0 20 57.0 44 8 N.America,SI 17 S 271 197.8 -2.3 6 12.0 12 23
|
||
IC 5146 94.4 -5.5 21 51.3 47 2 S 272 197.8 -2.3 6 12.1 12 22
|
||
S 126 95.4 -16.8 22 31.2 38 19 10 Lac SH 160 201.9 2.5 6 37.4 11 0
|
||
S 168 97.2 10.2 20 50.5 60 12 NGC 2264 202.9 2.2 6 38.2 9 57 S273
|
||
CE 190 98.5 7.5 21 13.0 59 25 S129 IC 423 203.1 -16.9 5 30.9 0 39
|
||
IC 1396 99.3 3.7 21 37.5 57 14 S131 NGC 2261 203.8 1.3 6 36.4 8 46
|
||
AN 2207 99.8 -3.0 22 9.0 52 13 SE 41 204.4 -13.7 5 44.6 1 9
|
||
SE 19 103.3 4.0 22 0.0 60 0 NGC 2068 205.4 -14.3 5 44.2 0 2 M78
|
||
S 135 104.6 1.3 22 20.3 58 29 IC 432 206.1 -16.3 5 38.5 -1 31
|
||
SE 16 104.9 -2.1 22 35.0 55 46 NGC 2244 206.4 -2.0 6 29.7 4 54 S275
|
||
NGC 7380 107.1 -0.9 22 45.0 57 50 S142 NGC 2024 206.5 -16.3 5 39.4 -1 52
|
||
S 148 108.3 -1.1 22 54.1 58 15 NGC 2237 206.6 -2.1 6 29.6 4 40 S274
|
||
S 149 108.4 -1.0 22 54.3 58 16 NGC 2023 206.8 -16.5 5 39.2 -2 15
|
||
S 152 108.7 -0.9 22 56.5 58 31 IC 434 206.9 -16.7 5 38.6 -2 26
|
||
IC 1470 110.0 0.1 23 2.2 59 59 S156 AN 0550 207.2 -13.7 5 50.0 -1 15 Barnard^ Loop
|
||
S 157 111.3 -0.7 23 13.9 59 46 NGC 1977 208.5 -19.1 5 33.0 -4 54
|
||
NGC 7538 111.5 0.8 23 11.5 61 14 S158 S 280 208.7 -2.6 6 31.7 2 35
|
||
NGC 7635 112.2 0.2 23 18.5 60 55 NGC 1976 209.0 -19.4 5 32.9 -5 25 M42, Orion
|
||
AN 2354 116.8 -0.7 23 57.0 61 18 HH 1 210.2 -19.6 5 34.0 -6 33 Herbig-Haro
|
||
NGC 7822 118.6 6.1 0 1.0 68 20 S171 NGC 1999 210.4 -19.7 5 34.1 -6 45
|
||
AN 0015 119.4 -1.1 0 19.0 61 18 S173? AN 0551 211.1 -15.3 5 51.0 -5 19 Barnard's Loop
|
||
|
||
|
||
|
||
|
||
524
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 3A—Continued
|
||
|
||
o? (1950)6 <*(1950)6
|
||
Nebula Remarks Nebula Remarks
|
||
1
|
||
AN 0532 213.2 -21.4 5 32.6 -9 49 Barnard Loop E 1 288.1 -1.0 10 45.0 -60 0 T) Car
|
||
IC 2177 223.9 -1.7 7 3.1 -10 29 S292 NGC 3576 291.2 -0.8 11 9.1 -61 6
|
||
S 294 224.2 1.2 14.2 -9 21 NGC 3603 291.6 -0.5 11 12.9 -60 59
|
||
CE 90 225.5 -2.6 2.9 -12 15 S297 NGC 6193 336.7 -1.6 16 37.7 -48 40
|
||
IC 468 227.6 -0.3 7 15.2 -13 4 IC 4628 344.4 2.3 16 49.3 -40 18
|
||
NGC 2359 227.7 -0.3 7 15.4 -13 7 NGC 6334 351.1 0.5 17 17.2 -36 1
|
||
SE 44 238.0 -5.5 7 16.5 -24 38 S 9 351.5 17.2 16 18.1 -25 14 a Seo, CE130
|
||
G 17 263.0 1.2 8 48.8 -42 7 NGC 6357 353.2 0.9 17 21.3 -34 7
|
||
RCW 38 268.0 -1.0 8 58.1 -47 20
|
||
IC 2148 286.9 -30.7 5 41.1 -75 36 Ident ambig-
|
||
uous ; LMC ?
|
||
|
||
|
||
|
||
|
||
TABLE 3B
|
||
List of Diffuse Nebulae in Order of Increasing Right Ascension
|
||
|
||
<*(1950)6 <*(1950)6 (*0950)6 ff,q.950)$
|
||
Nebula Nebula h m Nebula h m Nebula h m O'
|
||
NGC 7822 0 1.0 68 20 NGC 2023 5 39.2 -2 15 G 17 8 48.8 -42 7 SH 107 20 13.0 47 32
|
||
AN 0015 0 19.0 61 18 NGC 2024 5 39.4 -1 52 RCW 38 8 58.1 -47 20 SH 57 20 14.6 43 40
|
||
S 175 0 24.5 64 26 SH 151 5 40.0 27 5 El 10 45.0 -60 0 IC 1318 20 14.7 41 39
|
||
NGC 281 0 50.4 56 19 IC 2148 5 41.1 -75 36 NGC 3576 11 9.1 -61 6 SH 108 20 15.0 45 45
|
||
S 186 1 5.6 62 52 AN 0543 5 42.5 94 NGC 3603 11 12.9 -60 59 AN 2018 20 18.7 41 12
|
||
S 187 1 19.8 61 36 NGC 2068 5 44.2 02 S 9 16 18.1 -25 14 S 106 20 25.6 37 14
|
||
S 206 3 59.4 51 11 SE 41 5 44.6 1 9 NGC 6193 16 37.7 -48 40 C 20 20 30 40
|
||
NGC 1499 4 0.1 36 17 AN 0550 5 50.0 -1 15 IC 4628 16 49.3 -40 18 C 36 20 30 40
|
||
S 208 4 16.3 52 51 AN 0551 5 51.0 -5 19 NGC 6334 17 17.2 -36 1 IC 5067 20 46.9 44 11
|
||
T 1 4 19.1 19 25 DG 85 6 0.6 30 19 NGC 6357 17 21.3 -34 7 S 168 20 50.5 60 12
|
||
S 222 4 26.9 35 10 CE 61 6 1.3 30 30 AN 1755 17 57.0 -18 31 NGC 7000 20 57.0 44 8
|
||
S 211 4 33.1 50 50 NGC 2175 6 6.7 20 31 NGC 6514 17 58.9 -23 2 CE 190 21 13.0 59 25
|
||
S 212 4 36.8 50 17 S 254 6 9.3 18 4 NGC 6523 18 1.6 -24 20 IC 1396 21 37.5 57 14
|
||
IC 405 5 13.0 34 16 S 257 6 9.9 18 0 IC 4678 18 4.9 -23 53 IC 5146 21 51.3 47 2
|
||
S 263 5 19.0 8 21 S 255 6 10.2 18 0 IC 1274 18 6.7 -23 41 SE 19 22 0.0 60 0
|
||
IC 417 5 20.0 34 12 S 269 6 11.7 13 52 NGC 6559 18 6.8 -28 8 AN 2207 22 9.0 52 13
|
||
NGC 1931 5 28.1 34 13 S 271 6 12.0 12 23 IC 1284 18 14.7 -19 41 S 135 22 20.3 58 29
|
||
AN 0529 5 28.6 12 9 S 272 6 12.1 12 22 NGC 6611 18 16.2 -13 48 S 126 22 31.2 38 19
|
||
SH 140 5 28.7 12 2 NGC 2237 6 29.6 4 40 NGC 6618 18 18.0 -16 12 SE 16 22 35.0 55 46
|
||
IC 423 5 30.9 0 39 NGC 2244 6 29.7 4 54 S 61 18 30.2 -5 5 NGC 7380 22 45.0 57 50
|
||
S 71 18 59.5 2 5
|
||
S 264 5 32.4 9 54 S 280 6 31.7 2 35 NGC 6820 19 40.6 22 57 S 148 22 54.1 58 15
|
||
AN 0532 5 32.6 -9 49 NGC 2261 6 36.4 8 46 AN 1939 19 41.0 23 10 S 149 22 54.3 58 16
|
||
NGC 1976 5 32.9 -5 25 SH 160 6 37.4 11 0 AN 1944 19 44.5 25 4 S 152 22 56.5 58 31
|
||
NGC 1977 5 33.0 -4 54 NGC 2264 6 38.2 9 57 AN 1945 19 44.5 25 5 IC 1470 23 2.2 59 59
|
||
HH 1 5 34.0 -6 33 CE 90 7 2.9 -12 15 S 90 19 47.2 26 44 NGC 7538 23 11.5 61 14
|
||
NGC 1999 5 34.1 -6 45 IC 2177 7 3.1 -10 29 S 95 19 53.0 29 10 S 157 23 13.9 59 46
|
||
S 235 5 37.6 35 49 S 294 7 14.2 -9 21 K3 50 19 59.8 33 24 NGC 7635 23 18.5 60 55
|
||
IC 432 5 38.5 -1 31 IC 468 7 15.2 -13 4 S 100 19 59.9 33 22 AN 2354 23 57.0 61 18
|
||
IC 434 5 38.6 -2 26 NGC 2359 7 15.4 -13 7 SE 12 20 5.0 35 24
|
||
S 232 5 39.0 36 10 SE 44 7 16.5 -24 38 NGC 6888 20 10.7 38 16
|
||
|
||
|
||
|
||
|
||
525
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
|
||
526 KALER Vol. 31
|
||
TABLE 4A TABLE 5
|
||
Summary of Column Headings in the Catalog, Table 8
|
||
WAVE IDENT N RG REF OBS I
|
||
Column Meaning
|
||
3889 Hi 2 AA 10.0
|
||
WAVE Wavelength 3889 He i 2 AA 10.0
|
||
IDENT Line identification
|
||
N Number of identifications for observed line
|
||
RG Region, or section, of nebula observed The reader should use some caution in dealing with
|
||
REF Reference, or source of observations blends. For the most part, the catalog presents the
|
||
OBS I Observed relative intensity
|
||
AVE O Average observed intensity data in the manner of the original paper. Conse-
|
||
CORR I Observed intensity corrected for interstellar quently, for some blends, in particular for À3967
|
||
extinction [Ne in] and A3970 H i, the lines may not be presented
|
||
AVE C Average observed intensity corrected for in exactly proper order. There may be several entries
|
||
interstellar extinction
|
||
for [Ne in] followed by one for H i, then another for
|
||
[Ne m], or some other variation. It is also at times
|
||
TABLE 4B debatable as to what constitutes major and minor
|
||
Summary of Column Headings in the Identification components of a blend, and different authors will treat
|
||
Supplement, Table 9 the matter differently. In some cases where lines are
|
||
intrinsically blended doublets or triplets, N generally
|
||
Column Meaning is given as 1, for example in the cases of the A4267 C n
|
||
doublet or the helium triplets. Close but resolvable
|
||
WAVE Wavelength forbidden-line doublets are often treated somewhat
|
||
IDENT Line identification
|
||
N Number of identifications per observed differently for reasons relating to the use of the data in
|
||
line the catalog. If the lines are observed as a blend, a
|
||
R RMT wavelength mean wavelength may be given, for example A4072 for
|
||
MT RMT multiplet number AA4068 + 4076 [S n], A7325 for AA7319 + 7330 [O n],
|
||
TRANSITION.... Atomic transition, lower energy on left
|
||
REF Reference, or source of observations A6723 for AA6716 + 6731 [S n], A4991 for AA4959, 5007
|
||
OBS I Observed relative intensity [O m], A6575 for AA6548, 6584 [N n], and N may be set
|
||
equal to 1. In some cases, however, these doublets will
|
||
be treated as a blend in the usual manner as described
|
||
A difficulty arises when there is more than one above.
|
||
reference for a blended line for which the observations The treatment of A3727 presents a special case.
|
||
were made with different resolving powers, or where Where the doublet is resolved the two wavelengths,
|
||
the authors give different identifications. For example, AA3726 and 3729, are given. Under the first wavelength,
|
||
reference A may record two lines as a blend, but entries are made for both the first resolved line (A3726)
|
||
reference B resolves them. In these cases it sometimes and for the blends where they are not resolved. The
|
||
happens that the two entries for reference A may be entries under the second wavelength (A3729) show for
|
||
separated by a third line observed by reference B, as which references the blend was resolved.
|
||
shown in Table 6. Here observer A sees A4340 and In some cases TV = 0 when there is no identification.
|
||
À4363 as a blend, but observer B resolves them and Col 4, RG.—Region of the nebula observed. This
|
||
sees À4349 between them. Obviously À4349 is part of information usually is given only when more than one
|
||
the blend observed by A, but since it is a minor region or section of a nebula has been observed.
|
||
component, it is ignored. All the components of a Occasionally, however, it is used as a footnoting device
|
||
blend observed by a given reference can be found, to help explain the observations. A key to the code
|
||
since N gives the number of components to look for, used in this column is given immediately after the
|
||
and all components will have the same value of N, and intensity tables for each nebula, under the heading
|
||
the same reference and region codes and intensities. REGION KEY. In this key, the region (RG) code is
|
||
A further difficulty arises in the wavelengths used given first, followed by the reference code (see col. [5]
|
||
for blended lines. In some cases, the true wavelength below) and the explanation. As discussed above, the
|
||
of each component of a blend may be given, while in RG column is also used to designate the lettered sub-
|
||
others, the blended wavelength might be presented, divisions to the LMC and SMC Henize numbers.
|
||
depending upon the original reference. As an example, These subdivisions are not always referred to in the
|
||
consider the blend of À4711 [Ar iv] and À4713 He i. It
|
||
may be presented in one of two ways : TABLE 6
|
||
WAVE IDENT N
|
||
WAVE IDENT N RG REF OBS I
|
||
4711 (Ar iv) 2
|
||
4340 Hi 2 A 60.00
|
||
4713 He i 2 1 B 40.00
|
||
4349 On 1 B 0.05
|
||
or 4712 (Ar iv) 2 4363 (O m) 2 A 60.00
|
||
1 B 15.00
|
||
4712 He i 2
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
No. 4, 1976 CATALOG OF EMISSION LINE INTENSITIES 527
|
||
Region Key. They are, however, cross-hsted to NGC and (8) (these intensities were obtained from references
|
||
or IC numbers through the Region Key. Occasionally for which all or some of the intensities are in dis-
|
||
for diffuse nebulae the region observed is identified by agreement with most of the other intensities, or with
|
||
coordinates (a, 8). These are as given by the reference theoretically predicted intensities such as the Balmer
|
||
source and the epoch may not be 1950. decrement; an intensity may not be used in the average
|
||
Col. 5, REF.—Reference, or source of the data. A because the errors appear high, or because the intensity
|
||
key to the code and the detailed reference is given for deviates from the normal because of stratification
|
||
all nebulae at the end of Table 8. effects); (7) AA3726, 3729 [O n] and AA4714, 4725
|
||
Col. 6, OBS I.—Observed intensity, usually on the [Ne iv] because of blending problems.
|
||
scale /(Hß) = 100. If He n lines are present, the It must be kept in mind that these averages (and
|
||
observations will be scaled to /(Hß) + /(He n Picker- those in col. [9] ; see below) may not reflect the true
|
||
ing 8). Where possible, data from all references and mean relative intensity from the nebula, as observa-
|
||
for each individual region are placed on this scale. If tions from different regions are not properly weighted,
|
||
Hß was not observed, an arbitrary scale is indicated by and different observers may be observing different
|
||
an asterisk. [If an intensity is not marked with an parts of a nebula. The purpose of the average intensity
|
||
asterisk, it is scaled to I(Hß) 100, whether or not an is to give the user a quick survey of the typical spec-
|
||
entry for Hß is given.] All the entries fora given refer- trum of the nebula; unaveraged individual values can
|
||
ence, or a given region if there is more than one, will be very important physically.
|
||
be on that same arbitrary scale unless otherwise noted Col. 8, CORK I.—Observed individual intensity
|
||
in the Region Code. Different regions may be on (OBS /, col. [6]) corrected for interstellar reddening.
|
||
different scales, however. A region code is occasionally The intensities are corrected according to the formula
|
||
used to indicate different arbitrary scales. /c = /0 x 10cf (A), where Ic and I0 are the corrected and
|
||
An approximate value of intensity, usually as quoted observed intensities, respectively. The extinction con-
|
||
by the source, is denoted by “A” following the stant c = [log Fc(Hß) - log F0(Hß)]9 where Fc(Hß)
|
||
intensity. Eye estimates are all considered to be and F0(Hß) are the true and observed Hß fluxes,
|
||
approximate. They can be recognized in that all the respectively. The reddening function /(A) is derived
|
||
entries for a reference carry the 64A” designation. Eye from the curve given by Whitford (1958), defined such
|
||
estimates are also identified as such in the reference that /(oo) = — 1 and /(Hß) = 0. Thus, except for those
|
||
list. Line intensities which were not corrected to out- intensities marked by an asterisk, the corrected inten-
|
||
side the atmosphere but which were otherwise photo- sities are still on the scale /(Hß) = 100. The adopted
|
||
metrically calibrated are denoted by44 B” following the reddening curve /(A) is presented in Table 7.
|
||
intensity. These intensities are obviously not on any Generally, c is derived from the ratios of radio flux
|
||
scale, but they are useful when the wavelength density to Hß flux (see, e.g., Cahn and Kaler 1971) or
|
||
difference is small. In some cases, particularly for lines from the Balmer or Paschen lines and the intensities of
|
||
in the far-infrared, absolute fluxes were given by the Brocklehurst (1971). Most values for planetaries were
|
||
reference source. The fluxes were placed on the adopted from a recent compilation by Cahn (1976).
|
||
standard scale by adopting that value of Hß flux listed The extinctions were derived by assuming electron
|
||
first for the nebula by Cahn and Kaler (1971), except temperatures appropriate to the [O m] line intensities.
|
||
for NGC 7027, for which the Hß flux was taken from In a number of cases, c was derived from an estimate
|
||
Miller and Mathews (1972). of the distance to the nebula, and Cahn’s (1976)
|
||
All intensities are given to two decimals whether or revised galactic dust model. Occasionally, extinctions
|
||
not that was true in the original reference, purely for were estimated from the colors of related stars taken
|
||
ease in programming. The original presentation of either from the quoted references or, for planetaries,
|
||
intensities can be deduced rather easily by the presence from Shao and Liller (1975). When the data are in-
|
||
of zeros in all of a given decimal place for a reference sufficient, c is estimated by the position of the nebula
|
||
source. No attempt is made at an error analysis; the (/ and b) in the galaxy. In some cases, the correction is
|
||
user should consult the original reference for details. unnecessary and c is simply set equal to zero if it is not
|
||
Finally, 7=0 indicates that the line was detected, known. For a number of nebulae, c is derived from
|
||
but that no measurement of intensity was made. (Ha + [N n])/Hß, where the [N n] contribution is ig-
|
||
Col. 7, A VE O.—Average observed intensity, which nored. This procedure results in an overcorrection. No
|
||
is the mean intensity for a given line averaged over correction is made for the rocket ultraviolet lines
|
||
various references and regions. The average intensity observed for NGC 7027. See the original reference.
|
||
is entered after each individual value which went in to It should be noted that the extinction constant
|
||
produce the average. derived from radio-to-Hß ratios may not be truly
|
||
Averages are not computed, or individual values are appropriate to the corrections made to the optical
|
||
not used for averages in the following cases : (1) blends lines. The measured Hß flux might not be appropriate
|
||
(N > 1); (2) approximate values (denoted by “A” in to the radio flux density because of possible radio
|
||
cols. [6] and [8]); (3) incompletely calibrated values confusion, or because not all the optical radiation was
|
||
(denoted by44 B ” in cols. [6] and [8]) ; (4) eye estimates ; detected because of local obscuring dust, or because
|
||
(5) lines whose intensities are not on the standard scale of the large size of the nebula. In addition, the ratio
|
||
/(Hß) =100 (denoted by the asterisk in cols. [6] and of total to selective extinction, R, might not be the
|
||
[8]); (6) line intensities denoted by X in columns (6) same as assumed in the reddening function (R = 3.2).
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
528 KALER
|
||
TABLE 7
|
||
Reddening Function Adopted from Whitford 1958
|
||
A(Â) /(A) A (Â) /(A) A (Â) /(A) A (Â) /(A)
|
||
3000. + 0.510 4500. + 0.095 6000... -0.238 8000. -0.510
|
||
3100. + 0.475 4600. + 0.088 6100... -0.254 8200. -0.529
|
||
3200. + 0.448 4700. + 0.040 6200... -0.273 8400. -0.548
|
||
3300. + 0.415 4800. + 0.015 6300.. -0.291 8600. -0.566
|
||
3400. + 0.385 4861. 0.000 6400.. -0.306 8800. -0.582
|
||
3500. + 0.358 5000. -0.030 6500.. -0.321 9000. -0.597
|
||
3600. + 0.330 5100. -0.055 6600.. -0.337 9500. -0.633
|
||
3700. + 0.306 5200. -0.078 6700.. -0.351 10000. -0.663
|
||
3800. + 0.278 5300. -0.100 6800.. -0.365 11000. -0.718
|
||
3900. + 0.248 5400. -0.121 6900.. -0.377 12000. -0.763
|
||
4000. + 0.220 5500. -0.142 7000.. -0.391 14000. -0.840
|
||
4100. + 0.195 5600. -0.164 7200.. -0.416 16000. -0.890
|
||
4200. + 0.168 5700. -0.182 7400.. -0.441 20000. -0.960
|
||
4300. + 0.143 5800. -0.201 7600.: -0.465 >20000. -1.000
|
||
4400. + 0.118 5900. -0.220 7800.. -0.490
|
||
|
||
With the exception below, the value of c used and the Col. 4, R.—The last four significant figures of the
|
||
method used to determine it is given at the beginning laboratory wavelength from the Revised Multiplet
|
||
of the intensity tables for each nebula, on the line with Table (Moore 1945; RMT) for permitted fines, or
|
||
the common catalog name. For some diffuse nebulae, from Bowen (1960) for forbidden fines.
|
||
observations have been made such that different values Col. 5, MT.—The multiplet number from the RMT.
|
||
of c are appropriate to different regions of a given Col. 6, TRANSITION.—This column gives the
|
||
nebula. These values of c are used to correct the data names of the energy levels involved in the atomic
|
||
from which they are derived, and are presented at the transition which produces the spectrum fine, as taken
|
||
end of each nebula’s intensity table, following the from the RMT or from Bowen (1960). The lower
|
||
Region Key. They are identified by the region and energy level is on the left. In this fisting subscripts,
|
||
reference code. The existence of the additional values superscripts, and lower-case letters are not used. A
|
||
of c is noted by a double asterisk (**) before the general transition such as 3$ 2Pi/2-3p for A3954.37 O ii,
|
||
value of c at the head of each nebula’s presentation. multiplet 6 would be printed 3S2P1/2 3P2P1/2.
|
||
Unless a region has a specific value of c fisted for it> With the exception of NGC 7027, the observed
|
||
the general value is used. intensity is that given by the original reference source.
|
||
Col. P, A VE C.—Average corrected intensity. See In the case of NGC 7027 all the intensities for the fines
|
||
the remarks for column (7). given by ABM or ABW are those measured by
|
||
Footnote summary for Table 8 : KACE.
|
||
* Line intensity not on the scale I(Hß) = 100. All IV. A FINAL COMMENT
|
||
the intensities of a given region (or reference) are on
|
||
I plan to add to this catalog and keep it up-to-date.
|
||
the same arbitrary scale unless otherwise indicated
|
||
I would genuinely appreciate being informed of errors,
|
||
in the Region Key. Different regions may be on
|
||
omissions, and new data.
|
||
different scales.
|
||
** See the end of the nebula’s presentations for
|
||
This work has been in progress for nearly 10 years,
|
||
other values of c (for diffuse nebulae only).
|
||
and has occupied the time and efforts of a number of
|
||
A : Line intensity is approximate. If all intensities
|
||
people. It is a pleasure to thank the National Science
|
||
are marked “A,” the measurements are probably
|
||
Foundation for support through grants GP-4928,7816,
|
||
eye estimates (see the reference key).
|
||
22957, and MPS 73-05270 to the University of Illinois,
|
||
B : Not corrected to outside the atmosphere, but
|
||
and the John Simon Guggenheim Memorial Founda-
|
||
otherwise photometrically calibrated.
|
||
tion under whose grant the final stages of the work
|
||
X: Intensity not included in the average.
|
||
were begun. My thanks go to three individuals whose
|
||
outstanding work helped make this catalog possible:
|
||
III. THE IDENTIFICATION SUPPLEMENT Mr. Victor Broquard, Mr. Paul Haydon, and Mr.
|
||
Additional information is presented in Table 9 to Jerry Kane. Thanks also go to many astronomers for
|
||
aid the reader in fine identifications for nebulae in help, suggestions, and encouragement, in particular to
|
||
which large numbers of fines are observed. For this Drs. L. H. Aller, J. H. Cahn, S. J. Czyzak, L. K.
|
||
fisting, only those references which contain the exact DeNoyer, H. R. Dickel, J. R. Dickel, G. S. Khromov,
|
||
measured wavelengths are presented. A summary of R. Kirkpatrick, L. Kohoutek, P. D. Lee, J. H. Lutz,
|
||
the meanings of the columns is given in Table 4B. M. J. Seaton, Professor B. A. Vorontsov-Velyaminov
|
||
Columns (1), (2), (3), (7), and (8) are as described and his collaborators, S. P. Wyatt, and an anonymous
|
||
earlier. No corrections are made for interstellar ex- referee. Many of the above individuals and many
|
||
tinction. The detailed explanations of the remaining others sent me data in advance of publication; my
|
||
columns follow : thanks to them all.
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8
|
||
PLANETARY NEBULAE NGÇ 45 (PK NQ. 120+ 9 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORK I AVE C
|
||
BEGIN NGC 40 <PK NO. 120» 91) C = 0.29 (HYDROGEN LINES) H I —I W ha 100.00 100.00 100.00 100.00
|
||
l VV 2 100.OOX 100.OOX
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORK I AVE C 1 AC BL 0.80 0.85 0.79
|
||
3187 HE I 1 AC BL 1.80 1.80 2.43 2.43 1 AW 70 0.90 0.85
|
||
3447 HE I AC BL 0.10 A 0.13 A 1 AC BL 10.00 11.57 9.86 11.40
|
||
3512 HE I AC BL 0.10 A 0.13 A 1 AW70 10.80 11.57 10.65 11.40
|
||
-353_Q_ . HE I AC BL 0.10 A 0.13 A _L_£ HA -J3tl.P- 11.57 12.92 1 lt40
|
||
3554 HE I ACBL 0.10 A 0.13 A 1 S MA 7.83 11.57 7.72 11.40
|
||
3587 HE I AC BL 0.20 0.20 0.25 0.25 1 W MA 16.10 11.57 15.87 11.40
|
||
3613 HE I ACBL 0.50 0.50 0. t>2 0.62 5006 _LQ mi J A£_BL_ 29.00 27.90 28.39 27.32
|
||
3634 HE I ACBL 0.31 0.31 0.38 0.38 1 AW 70 28.80 27.90 28.20 27.32
|
||
3673 ACBL 0.12 0.12 0. 15 0.15 1 C MA 26.60 27.90 26.04 27.32
|
||
3676 ACBL 0.20 0.20 0.25 0.25 1 S MA 19.30 27.90 18.90 27.32
|
||
3679 ACBL 0.40 C .40 0.49 0.49 1 W MA 35.80 27.90 35.05 27.32
|
||
3682 ACBL 0.50 0.50 0.62 0.62 5199 (NI ) 1 A W 70 0.92 C. 92 0.87 0.87
|
||
3686 ACBL 0.60 0.60 0.74 0.74 5517 (CL HI) 1 A A E 2 1.00* 0.91*
|
||
3691 ACBL 0.80 0.80 0.98 0.98 5537 (CL III) AE 2 1.00* 0.90*
|
||
3697 ACBL 1 .00 1.00 1.23 1.23 5554 (N III VV 2 53.20X 48.OOX
|
||
-J704 ACBL 11 30— 1.59 5755 ( N III -L_£ MA 29.50 A 25.94 A
|
||
3704 HE I ACBL 1.30 1.59 1 S 5.90 A 5.19 A
|
||
371 1 H I ACBL 1.60 1.96 1 W 5.27 A 4.63 A
|
||
3721 __H I_ AC9L -2-.-0-0- 2.44 -1 C .15.30 16t4p 1.3-1.2-6 . .I4.t_2_l_
|
||
3721 III) ACBL 2.00 2.44 12.60 16.40 10.92 14.21
|
||
3726 II ) A4 l 135.00 164.80 21.30 16.40 18.46 14.21
|
||
ACBL 143.00 174.57 VV2 -42.5QX 36.82X
|
||
1 AUV 1.00* 1.22* l C 20.00 13.07 16.47 10. 76
|
||
1 C MA 206.00 251.48 1 S 10.80 13.07 8.89 10. 76
|
||
1 S 205.QQ 2 30 «_25 1 W 8.40 13.07 6.92 10.76
|
||
185.00 225.84 ? C 800.00 641.32
|
||
T OS 1.00* 1.22* 2 S 904.00 724.70
|
||
R QS 1.00* 1.2?» —2 H— 584.00 408.17
|
||
VV 2 2040.OOXA 2490.34XA 1 w 1.00* 0.80*
|
||
ACBL 110.00 134.22 2 C MA 8no.on 041.32
|
||
AUV Q..83* 1 « 02* _2 S MA_ .904.00 724.70
|
||
0.73* 0.89* 584.00 4o8.17
|
||
R OS 0.70* 0.85* 6584 ( N II) 0.76+ 0.61*
|
||
—3734 ACBL 2-0Q 2.44 6716 _LS II )_ 0.69* 0.35*
|
||
3750 1 ACBL 2.70 3.72 3.28 4. 53 2 C 54.60 43.13
|
||
l s MA 4.75 3.72 5.77 4.53 2 S 58.50 46.21
|
||
377 n _J ACBL 3.60 5.85 4.36 7. 09 ? w 47.on 37.1?
|
||
8.11 5.85 9.82 7.09 1 B AE 2 l.OC* 0.79*
|
||
4.10 7.65 4.94 9.22 2 C «A 54.60 43.07
|
||
1 1 .20 7.65- 13.49 9.2? _2 S “A -58.50 46.15
|
||
3819 HE I ACBL 0.70 0.70 0.84 0. 84
|
||
3835 H I ACBL 6.10 6.20 7.29 7.42
|
||
6.31 6.20 7 .-34 7.42 REGION KEY (REGI ON.REFERENCE.EXPLANATION)
|
||
3868 (NE III) ACBL 0.64 0.76 A, AE2 , REGIONS A AND B ON DIFFERENT SCALES
|
||
VV2 I2.50X 14.84X C, M/\ , CENTER 4 ARCSEC NORTH OF STAR
|
||
—388 8 H I A4 1 9.00 10.-64 MA t WEAK KNOT
|
||
2 ACBL 9.10 10.76 S, MA , STRONG KNOT
|
||
2 C MA 11.60 13.72 T, OS , TRAILED EXPOSURE
|
||
? S MA 14.90 11^62 . . £«_ QS . OUTER PING WEST OF CENTRAL
|
||
MA 13.40 15.85
|
||
VV2 12.50X 14.78X 40 (PK NO. 120+ 9 1)
|
||
A4 1 9.00 10.^64
|
||
ACBL 9.10 10.76
|
||
MA 11.60 13.72
|
||
14.90 17.62 BEGIN NGC 246 (PK NO. 118-74 1) 0.02 (RADIU-H BETA)
|
||
13.40 15.85
|
||
VV 2 12.50X 14.78X WAVE IDENT N RG OBS I AVE 0 CORR I AVE C
|
||
HE I ACBL 0.61 0.61 0.72 0.72 3869 (NE III) I C 60.00 65.00 60.72 65.77
|
||
3964 ACBL 0 .0 0.0 0.0 .0 1 W 70.00 70.83
|
||
3967 (NE III) ACBL 0.65 0.65 0. 76 0.76 3970 2 C 25.00 25.27
|
||
3969 H I A4 1 13.00 -13.04 15.17 15.21 2 W 24.00 24.2b
|
||
ACBL 13.20 13.04 15.40 15.21 3970 ? C 25.00 25.27
|
||
C ma 11.90 13.04 13.88 15.21 2 W 24.00 24.26
|
||
1 $ MA I5.a-Q_ 13.04 17.62 15.21 4101 —1 C 20.00 . 18.50 20.16 18.67
|
||
1 12.00 14.00 17.00 18.50 17.15 13.67
|
||
2 VV 2 14.90X 17.38X 4340 40.00 38.00 40.25 38.23
|
||
(NE III) 2 VV 2 14.90X 17.38X _36.00 38.00 —3_6«_2-2_
|
||
4009 HE I ACBL 0.14 0.14 0.16 0. 16 150.00 126.83 150.32 127.10
|
||
4026 HE I ACBL ■ 1.40 1.40 1.62 1.62 150.00 126.83 150.32 127.10
|
||
4068 ( S II ) ACBL 2.30 2. 30 2.64 2.64 121.00 176.83 121.25 -127. 10
|
||
4076 II ACBL 0.80 0.80 0.92 0.92 90.00 126.83 90. 19 127.10
|
||
4101 I A4 1 25.00 22.88 28.47 26.06 1 C 160.00 126.83 160.34 127.10
|
||
ACBL 23.00 22.38 26.19 26. 06 1 W 90.00 126.83 90. 19 127.10
|
||
1 C 22.50 22.88 25.62 26.06 1 C HE 100.00 100.00 100.00 100.00
|
||
1 S 24.10 22.88 27.45 26.06 1 WE HE 100.00 100.00 100.00 lO'ï.OO
|
||
1 W 19.80 22.88 22.55 26.06 _J C_ K A 2 100.00 100.00 100.00 100.00
|
||
VV 2 31.90X 36.33X 1 N KA2 100.00 100.00 100.00 100.00
|
||
4120 HE I ACBL 0.0 0.0 0.0 0.0 1 W KA 2 100.00 IOC.00 ICO.00 lO'-'.no
|
||
4143 HE I ACBL 0.0 0.0 0.0 0.0 1 c 100.00 100.00 100.00 100.00
|
||
A4 1 48.00 43.04 52.4b 47.04 100.00 100.00 100.00 100.00
|
||
ACBL 43.00 43.04 *6.99 47.04 III) 1 C 100.00 116.00 99.90 115.89
|
||
C MA 43.00 43.04 46.99 47. 04 200.00 116.00 199.81 115.89
|
||
MA 44.00 43.04 48.09 47.04 150.00 116.00 149.85 115.89
|
||
MA 37.20 43.04 40.65 47.04 1 C 30.00 116.00 29.97 115.89
|
||
VV2 70.20X 76.72X 1 W 100.00 116.00 99.90 115.89
|
||
4363 (0 III) ACBL 0.30 0.30 0.33 0.33 1 C 250.00 292.50 249.63 292.07
|
||
4388 HE I ACBL 0.50 0.50 0.54 0.54 1 WE 500.On 292.50 499.27 292.07
|
||
4471 HE I ACBL 3 ? ¿0 3.20 3.42 3.42 __L_£ -LQQ.QQ 292.5Q 99. S5... ...292.07-
|
||
4562 (MG II ) ACBL 0.50 0.50 0.53 0.53
|
||
4571 MG I ACBL 0.90 0.90 0.95 0.95
|
||
4658 C IV ACBL 0.80 C. 80 0.83 0.83 REGION KEY (REGI ON.RE FFRENCE.EXPLANATI ON)
|
||
4686 HE II VV 2 40.40X 'tl. 65X C. HE CORE
|
||
4701 o n ACBL 0.30 0.31 WE, HE WESTERN EDGE
|
||
_47 Qi (■JF.E ...111 ) ACBL 0.30 Q. 31 KA2 WHOLE NEBULA
|
||
4713 ACBL 0.60 0.60 0.62 0.62 Cf K42 , 40 ARCSEC APERTURE NEAR CENTER
|
||
4861 A4 1 100.00 IOC.00 100.00 100.00 N, KA2 , 40 ARCSEC APERTURE, 50 ARCSEC N OF STAR
|
||
-ACBL 1QQ.QQ 10Q.0Q- 100.00 100.QQ Ct M , . C.E.NTER
|
||
100.00 100.00 100.00 100.00
|
||
100.00 10n.00 100.00 100.00
|
||
-EM) 2A6 LPK NO. 118-7.4 1)
|
||
40 (PK NO. 120+ 9 1)
|
||
|
||
529
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN NGC 650 IPX NO. 13Q-I0 I) 0.15 (RAOIQ-H BETA)_ N££ 6J1Q (PK NQ. 13Q-IQ 1)
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE CORR I AVE C
|
||
3726 (0 II) I AGP 236.00 3.L7 » ^■61 _H I LL M 100.» QO 10&.t^0_ IQP.OO 100.00
|
||
670.00* 742.82* 100.00 100.00 100.00 100.00
|
||
250.00 277. 17 MI 73 100.00 100.00 100.00 100.00
|
||
800.00 886.95 yyi 1600.OO^A 1600.00*A
|
||
1 B1 MO 1.00* 1.11* 4921 3 C 3.00 3.00 2.99 2.99
|
||
1 B2 MG 1.00* l.ll* 4959 (0 III) 1 AC P 447.00 381.40 443.75 378.62
|
||
1 B3 MO 1.00* 1.11* L 1 C 290*00 381.4.0 . 277*9$ 378.62
|
||
1 B4 MO 1.00* l.ll* 280.00 381.40 277.96 378.62
|
||
1 B5 MO 1.00* l.ll* 560.00 381.40 555.92 378.62
|
||
1 El MO 1.00* 1.11* 340.00 381.40 337.53_ -3.7ft.tA?-
|
||
1 E2 MO 1.00* l.ll* VVl 1600.00*A 1568.35*A
|
||
1 VV1 110.00* 121.96* (0 III) AC P 1249.00 1235.38 1245.93
|
||
_LQ Li L 1 B1 MQ 1.34* 1.49* C BOO 85.10* 84.17*
|
||
1 B2 MO 1.23* 1.36* BDO 89.10* B . 13*
|
||
1 B3 MO 1. 15* 1.2 7* S BDO 126.00* 124.63*
|
||
1 B4 MO 1.22* -J.35-», C M 1570.00 1552.88
|
||
L B 5 MO 1.23* 1.36* 960.00 949.53 1245.93
|
||
1 El MO 1.36* 1.51* SM 100.00* 98.91*
|
||
1 E2 MO It 3.4* 1.49» VVl 1600.00»A 1582.55»A
|
||
3 83 5 H I AC PG 7.60* 8.34* (N I ) 1 1 C 5.00 5.33 4.87 5. 19
|
||
3858 AC P 123.00 134.58 C 5.00 5.33 4.87 5.19
|
||
3868 (ne nn ACP 123.00 -114. JL. 6.00 5.33 5.84 5.19
|
||
1 169.00* 184.73* HE II l 1 C 6.00 5.75 5.75
|
||
1 C 130.00 120.00 142.10 131.17 l 2 C 6.00 5.75 5.75
|
||
1 Y notpo 120.00 120*24 131.17 _L 3 C . 6.00 6.00 5.75 5.75
|
||
VVl 52.00* 50.84* 5517 (CL III) 1 2 C 4.00 4.00 3.80 3.80
|
||
ACP 123.00 134.15 5537 (CL III) 1 2 C 5.00 5.00 4.75 4.75
|
||
ACPO -26t7..Qj_ 29.12* 5755 _LN II ) 1 1 C 13.00 14.00 12.16 13.10
|
||
VV 1 52.00+ 5ö.72* 2 C 15.00 14.00 14.04 13.10
|
||
ACP 123.00 134.15 3 C 14.00 14.00 13. 10 13.10
|
||
AC PG 26.70* 29.12» 5876 1 C 19.00 19.33 17.64 17.95
|
||
VVl 52.00* 56.72* 2 C 20.00 19.33 18.57 17.95
|
||
ACP 35.00 37.91 3 C 19.00 19.33 17.64 17.95
|
||
AC PG . 6 5 » 7-0 *_ 71.16» _LN Li 1 1 1 C 150.00 149.33 133.9Q 133.31
|
||
VVl 18.00* 19.50* 2 C 120.00 149.33 107.12 133.31
|
||
ACP 35.00 37.90 3 C 178.00 149.33 158.90 133.31
|
||
AC PG 65.70* 7-1.14» VVl - 460.QQ* A 41Q.63*A
|
||
2 C 45.00 48.73 1 C 430.00 387.00 383.54 345.18
|
||
2 Y 33.00 35.73 2 C 360.00 387.00 321.10 345.18
|
||
_2 -18.QQ* 19.49» 413.00 3 82» QO— 368.37 34^..
|
||
3970 2 C 45.00 48.73 1 MI 73 345.00 307.72 345.18
|
||
2 Y 33.00 35.73 3 VVl 460.00*A 410•29*A
|
||
, 4068 _J ACP-G- ét-*. 4.38» II ) 1 J C 474.00 422.29
|
||
4072 (S II i 3 C 9.00 9.65 2 C 387.00 453.67 344.78 404.18
|
||
4076 ( S II) ACPG 7.56* 8.11» 3 C 500.00 453.67 445.46 404.18
|
||
4097 N LU A£_P 22.60 24.18 VV 1 46Q.Q0tA 409.82» A
|
||
4101 ACP 22.60 24.17 6717 ( S 11)1 1 A E 2 1.14* 1.01*
|
||
ACPG 22.60* 24.17* l 2 AE 2 1.02* 0.90»
|
||
25.00 ¿6.74 6730 _LS H)l 1 A F 7 1.00» 0.88*
|
||
27.00 21.80 28.88 23.32 2 1.00+
|
||
27.00 21.80 28.88 23.32
|
||
1 C- 1 4. 00 14.97 23.3? RFPTON KFY t R PO T ON . R F PF R E NO E . F X PI AN A T I ON )
|
||
14.00 21.80 14.97 23.32 1» AE2 , PA = 216 DEG., 26 ARCSEC FROM STAR
|
||
vi 73 23.80 21.80 25.46 23.32 2, AE2 , PA=164 DEG., 23 ARCSEC FROM STAR
|
||
v.y i— 4« QQ* _4.28* C. BDO . f.FNTRAI PORTION
|
||
ACP 21.90 22.93 N, BDO , NORTHERN PORTION
|
||
ACPG 55.10+ 57.69* S, BDO , SOUTHERN PORTION
|
||
C 41.00 43.72 42.93 45.77 1, C , NORTHEAST END OF BAP
|
||
C 43.00 43.72 45.02 45.77 2, C , CENTER
|
||
C 45.00 43.72 47.12 45.77 3, C , SOUTHWEST END OF BAR
|
||
-43.xfl0 43.72 -AÏ*Q2 45i 77 CENTER
|
||
43.00 43.72 45.02 45.77 Y, M , SOUTHWEST EDGE
|
||
MI 73 47.30 43.72 49.52 45.77 Bl, MO , NORTHEAST TIP OF BAR
|
||
v.y.i ,00* —6,28* 92j MQ . TOWARD NORTHEAST PART QF BAR
|
||
2 ACP 21.90 22.8 MO , NEAP MIDDLE OF BAR
|
||
1 C BDO 1.00* 1.04 + MO , TOWARD SOUTHWEST PART OF BAR
|
||
1 N BDO 1.00* 1.04» SOUTHWEST TIP OF BAR
|
||
S BDO 1.00* 1.04* El, MO SOUTHWEST PART OF ENVELOPE
|
||
1 C 19.00 16.20 19.85 16.93 E2 , MO SOUTHWEST PART OF ENVELOPE, NEAR BAR
|
||
2 C 17.00 16.20 17.76 16.93
|
||
1 3 C 19.00 16.20 19.85 16.93 NGC 650 (PK NO. 130-10 l)
|
||
1 C V 16.00 16.20 16.72 16.93
|
||
10.00 16.20 10.45 16.93
|
||
SM 0.74* 0.76+
|
||
VV 1 6.00* 6.27» BEGIN NGC 1360 (PK NO. 220-53 1) 0.02 (DUST MODEL)
|
||
1 c 5.00 5.18
|
||
2 C 6.00 5.00 6.21 5.18 WAVE IDENT N RG REF OBS I CORR I
|
||
3 C 4.00 5.00 4. 14 5.18 4686 HE II l D0R2 12.00* 12.03*
|
||
1 C 4.00 4.00 4.12 4.12 4861 H I 3 D0R2 100,00* 100.00*
|
||
1 2 C 4.00 4.00 4. 12 4.12 4959 (0 III) D0R2 100.00* 99.90*
|
||
l 3 C 4.00 4.00 4. 12 4. 12 5007 (0 III) OOP 2 100.00* 99.85*
|
||
1 ACP 52.50 59.90 53.33 60. 85 6563 H I DO R2 37.00* 36.44*
|
||
1 C 61.00 59.90 61.97 60.85
|
||
2 C 63.00 59.90 64.00 60.85 NGC 1360 (PK NO. 220-53 l)
|
||
3 C 63.00 59.90 64.00 60. 85
|
||
60.00 60.95
|
||
VVl 15.00* 15.24+
|
||
4711 (AR IV ) 2 A_C_PG_ -51._6_0_1 BEGIN NGC 1501 (PK NO. 144» 6 1) 1.10 (RADIO-H BETA)
|
||
2 1 3.00 3.04
|
||
2 2C 4.00 <,.05 WAVE IDENT N RG PEF OBS I AVE 0 CORR I AVE C
|
||
—2 3 6.00 6.08 3869 (NE III) 1 M 45.00 45.00 86.35 86.35
|
||
ACPG 51.60+ 52.30» 3970 17.00 30.48
|
||
l C 3.00 3.04 3970 (NE III) 2 17.00 30.48
|
||
_2_C 4.00 4.05 4340 H I 1 40.00 40.00 56.02 56.02
|
||
C 6.00 6.08 1 ACP 102.00 68.00 114.50 76.33
|
||
1 C 4.00 4.00 4.04 4. 04 1 M 34.00 68.00 38.17 76.33
|
||
2 C 4-, .Q_Q_ 4.00 4.04 4.04 _1 AILE 1QQ.QQ 100.00 1QQ..QQ 1QQ.QQ
|
||
C 4. 00 4.00 4.04 4. 04 100.00 100.00 1C0.0C IOC.00
|
||
ACP 100.00 100.00 100.00 100.00 100.00 100.00 100.00 100.00
|
||
1 c 100.00 IQO.tOQ 1QQ.QQ 10Q.QQ 4959 _LQ III) 401,00 390.50 380.08 370.13
|
||
100.00 100.00 100.00 100.00 M 380.00 390.50 360.18 370.13
|
||
100.00 100.00 100.00 100.00 (0 III ) l ACP 1264.00 1344.00 1166.33 1240.15
|
||
NGC 650 (PK NO. 130-10 l) NGC 1501 (PK NO. 144+ 6 1)
|
||
530
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 1501 (PK NO. 144» 6 1> NGC 1535 (PK NO. 206-40 1)
|
||
IDENT N RG REF OBS I AVE 0 CORR AVE C WAVE IDENT N RG REF □BS I AVE 0 CORR I AVE C
|
||
5QQ7 _LQ LLU 1_ CQAL i&qa.oo JL3M. üû_ L24Q.15 3757 0 III _I AÇPÇ . ^21 2.48 4.59 70
|
||
1 1070.00 1344.00 987.32 1240.15 AW 0.75 2.48 0.82 2.70
|
||
6717 (S II > 1 AE2 0.78* 0.32* 3759 III AW 2.80 2.80 3.05 3.05
|
||
6710- _LiL U ) 1— _ôll_ 1.00» Ot*l» 3770 _J AC PG 8.22 6^51 8.96 7.09
|
||
AW 4.80 6.51 5.23 7.09
|
||
END NGC 1501 lPK NO. 144+ 6 1) 3797 AC PG 12.70 9.50 13.81 10.33
|
||
6.30 9. 50 6.85 10.33
|
||
3819 AC PG 2.36 1.78 2.56 1.93
|
||
AW 1.20 1.78 1.30 1.93
|
||
BEGIN NGC 1514 (PK NO. 165-15 1> C = 0.74 (RADIO-H BETA) 3835 ACPG 14.50 10.07 15.71 10.91
|
||
1 AW 8.00 10.07 8.67 10.91
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 1 R MA 7.70 10.07 8.34 10.91
|
||
_2MS_ (NE. Ill) 1 ACPG 55.30 82.65 85,77 129-19 3868 (NE un 1 BR A 74,00 84.65 79.93 91.44
|
||
M 110.00 170.61 3 A41 118.00 127.46
|
||
3889 I ACPG 11.30 17.34 l LA 96.00 84.65 103.70 91.44
|
||
399.9. HE...I ACPG _U , 3_0_ 1 0 MA 79.60 84.65 85.98 91.44
|
||
3967 (NE III) 1 ACPG 24.40 24.40 36. 16 36.18 MA 89.00 96.13 91.44
|
||
3970 H I 1 ACPG 9.63 9.63 14.26 14.26 VVl 106.5 0X 115.04X
|
||
32.Qfl_. 47*39 BR A 21.00 22.64
|
||
3970 (NE IIIÏ 2 32.00 47.39 2 ACPG 26.70 28.79
|
||
4101 H I 1 ACPG 17.30 16.15 24.11 22.50 3 A41 118.00 127.22
|
||
_JÜ 15.00 19*1? 2Q.*9Q « 50 _2 Lâ 29.00 31.27
|
||
ACPG 31.50 33.83 39.51 42.44 MA 25.00 26.95
|
||
C 40.00 33.83 50.17 42.44 MA 21.80 23.50
|
||
—M— 30.00 33.83 37.63 42.44 VVl 25.80X ¿7.82*.
|
||
(0 III) 1 ACPG 8.02 15.34 9.96 19.05 2 BR A 21.00 22.64
|
||
1 C 22.00 15.34 27.33 19.05 2 ACPG 26.70 28.79
|
||
_L_ _M 16.00 15.34 19.87 19.05 __2 AU 24*00 —25*88 -
|
||
HE II 1 ACPG 8.04 16.52 8.69 17.86 3 A41 118.00 127.22
|
||
1 C 25.00 16.52 27.02 17.86 2 LA 29.00 31.27
|
||
4711 (AR IV ) 2 AC PG... 8.12 8.68 -2 D 6tA 25.00 26.95 _
|
||
C 9.00 2 R MA 21.80 23.50
|
||
HE I ACPG 8.12 2 VVl 25.80X 27.82X
|
||
9.00 9.62 _2 _AU 24.00 -23.88
|
||
4740 (AR IV ) ACPG 5.63 8.81 5.94 9.30 3923 HE II 0.31 0.31 0.33
|
||
C 12.00 8.81 12.66 9.30 3967 (NE III) 30.00 32.15
|
||
4861 ACPG 100.00 100.00 100.00 100.00 3Q.QQ —3.Q. QQ 32. 15 32.15
|
||
C 100.00 100.00 100.00 100.00 A41 45.00 48.23
|
||
GE K 100.00 100.00 100.00 100.00 LA 55.00 58.94
|
||
KA? 100.00 100.00 1QQ.QQ 100.00 —MA 40.00
|
||
100.00 100.00 100.00 100.00 2 VVl 61.30X o5.69X
|
||
4959 (0 III) l ACPG 302.00 413.00 291.31 398.38 2 BR A 30.00 32.15
|
||
305.00 413.00 294.20 398.38 L8..QQ 19.29
|
||
1 385.00 413.00 371.37 398.38 A41 45.00 48.22
|
||
1 660.00 413.00 636.64 398.38 2 LA 55.00 58.94
|
||
ITT) 1 629.00 1153.00 595.88 1032.28 2 n -MA 39.80 42.65
|
||
C 960.00 909.44 2 R MA 40.00 42.87
|
||
GEK 870.00 824.18 2 VVl 61.30X 65.69X
|
||
1870.00 177L..52 (NF TIT) ? n MA_ 39.80
|
||
4009 HE I ACPG 0.47 C. 47 0.50 0.50
|
||
4026 HE I ACPG 4.33 3.81 4.62 4.07
|
||
END NGC 1514 (PK NQ. 165-15 1) _AW 3.30 3.81 3.52 . 4.07-
|
||
(S II ) 1.32 1.16 1.40 1.23
|
||
1.00 1. 16 1.06 1.23
|
||
40 76 -LS LL-l— ACPG n. 28 .23 -Q.24 . Q.24
|
||
BEGIN NGC 1535 (PK NO. 206-40 1) C = 0.13 (RADIQ-H BETA) 4097 III 2.37 2.23 2.51 2.37
|
||
2.10 2.23 2.23 2.37
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4101 I 21.00 28.97 22.26 30.71
|
||
3121 0 III 1 ACPG 2.39 2.39 2.75 2.75 22.20 28.97 23.53 30. 71
|
||
3203 HE II 1 BR A 23.00 23.00 26.29 26.29 32.00 28.97 33.92 30.71
|
||
3341 0 m 1 ACPG e.u 8.41 9.^9 9*^9 AAI 31.QQ 25.97 32.86 --3.Qt.7L-
|
||
3 KOS 135.OOX 152.29X 36.40 28.97 38.58 30.71
|
||
3343 (NE III) 3 KOS 135.OOX 152.27X 28.40 28.97 30.10 30.71
|
||
334.6. (NE V l 2 BR A 8*Q.Q 9.02 28,80 28.97 30.53 30.71
|
||
3 KOS 135.OOX 152.23X PT P 21.80 A 23.11 A
|
||
3346 0 III 2 BR A 8.00 9.02 R2 32.00 33.92
|
||
3426.- (NE V L _2 KOS ?e*Q-Qx 6+.95X VVl 25.80X _2.7_..35x_
|
||
3429 III 1 ACPG 2.52 2.52 2.82 2.82 4121 HE I ACPG 0.61 0.61 0. 0.65
|
||
3444 III 1 BR A 9.50 5.63 10.62 6.30 4144 HE I ACPG 0.65 0.65 0. 0.69
|
||
1 ACPG _L«. 76— 5.63 1.97 6.30 42QQ HE II ACPG 0.84 0.84 0.88 0.88
|
||
KOS 58.OOX 64.85X 4227 (FE V ) ACPG G.58 0.58 0.61 0.61
|
||
3679 1 ACPG 0.47 0.47 0.52 0.52 4267 C II ACPG 0.97 1.08 1.01 1.14
|
||
368.3 1 ACPG 4*61 4.67 ?*1¿ ?*ia AW 1.20 1.08 1.26 1.14
|
||
3687 1 ACPG 1.15 1.15 1.26 1.26 49.00 50.99
|
||
3692 1 ACPG 1.59 1.59 1.74 1.74 73.50X 76.49X
|
||
3697 1 ACPG 2.07 1.28 2.27 1.41 55.00 57.23
|
||
1 AW 0.50 1.28 0.55 1.41 1 60.00 48.75 62.4* 50.73
|
||
3703 H I 1 ACPG 4.28 4.28 4.69 4.69 1 0 50.40 48.75 52.45 50.73
|
||
3703 HE I 2 AW 2.20 2.41 51.60 48.75 53.70 50. 73
|
||
3703 2 AW 2.20 OCR 39.80 48.75 41.42 50.73
|
||
3712 1 ACPG 3.06 2.43 3.35 2.66 PT P 41.70 48.75 43.39 50.73
|
||
1 AW 1.80 2.43 1.97 2.66 VVl 71,OOX 73.88X
|
||
3715 HE II 0.50 0.55 1 BR A 19.00 17.22 19.74 17.89
|
||
3715 C III 0.50 0.55 1 ACPG 18.50 17.22 19.22 17.89
|
||
3721 H I 3.98 4.35 _1 AN 2¿*6QX a3,48X_.
|
||
2 AW 2.10 2.30 22.00 22.85 17.89
|
||
3721 2 ACPG 3.98 4.35 A41 55.00 57.14
|
||
_JL_ 2.10 2.30 LA ZP.tQQ -¿-Qt.78 17.89
|
||
BR A 8.00 8.75 15.50 17.22 16. 10 17.89
|
||
1 ACPG 10.20 11.15 MA 16.40 17.22 17.04 17.89
|
||
_J AU— -?.?fl_ 6.Q1 QCB 16.20 .22 16*83 . 17.89
|
||
A41 13.70 14.98 PTP 10.20 10.bO
|
||
1 PTP 9.25 A 10.12 A VVl 9.70X 10.08X
|
||
_1 VVl 12.60X U*78X 4387 HE I ACPG Q *89 - C*89 0.92 ■Q.92_
|
||
1 ACPG 6.71 7.34 BR A 6.00 5.52 6.19 5.69
|
||
1 AW 3.10 3.39 ACPG 6.88 5.52 7.09 5.69
|
||
3734 _b I_ _1 AC-PG- ?«Q5 3,31. 3.32 -4*23 AJtl UQ *52 .69_
|
||
1 AW 2.70 3.87 2.95 4.23 LA 5.40 5.52 5.57 5.69
|
||
1 ACPG 6.53 5.16 7. 13 5.64 MA 7.20 5.52 7.42 5.69
|
||
J- . 3*8Q_ 5.16 4.15 5.64 PTP 4.57 A 4.71 A
|
||
1 ACPG 2.04 2.04 .23 VVl 6.50X 6.70X
|
||
1 AW 1.60 .75 ACPG 2.01 2.0b
|
||
NGC 1535 (PK NO. 206-40 1) NGC 1535 (PK NO. 206-40 1)
|
||
|
||
531
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 1535 (PK NO. 2Q6-40 1 ) NGC—2022 (PK NO, 196-10 1)
|
||
WAVE IDENT REF OBS AVE 0 R I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
4541 H_E LL- VA 4. 3.15 ¿LL- 3.24 3203 HE II _L_L MA_ 44.00X
|
||
4630 AW70 0.15 0.15 3299 III AC 70 3.40 3.40 3.78 3.78
|
||
4634 AC PG 0.95 0. 97 3312 III 1 AC 70 7.00 7.00 7.77 7.77
|
||
AW70 0.95 0.97 1 L HA 8.00X 8.88X
|
||
AC PG 2.81 2.86 3340 0 III 1 AC 70 8.50 8.50 9.41 9.41
|
||
AW 70 2.81 2. 86 3345 (NE V ) 1 AC 70 22.00 22.00 24.35 24.35
|
||
_1_B MA_ 2» 1 t MTV 26.20X 29.00X
|
||
4647 AW70 3381 IV 1 AC70 1.10 1.10 1.21 1.21
|
||
4649 AC PG 0.66 3385 IV 1 AC 70 1.30 1.30 1.43 1.43
|
||
AW 70 3411 IV 1 AC 70 1.00 1.00 1.10 1.10
|
||
4650 O II 4 AW70 (NE V ) 1 AC 70 50.00 50.00 55.02
|
||
4651 C III 4 AW 70 LA 59.00 64.93
|
||
4657 (FE III)_3_ AW70 3428 (NE V ) 1 L MA 53.2QX 58.53X
|
||
4658 IV A W 70 0. 0. 3428 III 1 AC 70 .00 3.00 3.30 3.30
|
||
4661 II 3 AW 7 0 0, 0. 3444 III 1 AC 70 16.00 16.00 17.59 17.59
|
||
4685 JJ !_ __A _24j iig.38_ 24. 2 LA 59.00 64.85
|
||
.90 18.38 19. 18.64 1 L 10.90X 11.98X
|
||
.OOX 34. 47X 3676 1 AC70 0.30 0.30 0.32 0.32
|
||
A 4L .00 18.38 JJ 18.64 _ 3679 _1 AC 7_Q . Q «-4Q— 0.40 0.43
|
||
l .60 18.38 18.64 3682 AC 70 0.60 0.60 0.65 0.65
|
||
1 P .80 18.38 18. 64 3686 AC70 0.70 0.70 0.76 0.76
|
||
RLE 3691 AC 70 1.08
|
||
VV1 10X . 32X 3697 2 AC70 1.30 1.41
|
||
(AR IV I 2 AW 70 00 .08 3697 2 AC 70 1.30 1.41
|
||
uàü- 37Q3 . AC7Q 1.84
|
||
.70 6.70 .78 6.78 3703 HE II 2 AC 70 1.70 1.84
|
||
ACPG .70 6.70 .78 6.78 3712 H I 2 AC 70 1.60 1.73
|
||
AH-LQ JtQiL- . 08 - 3112 _ÜE .11 -2 AGIO 1.6Q -1.13
|
||
LA 3715 0 III 2 AC 70 0.90 0.97
|
||
(AR IV ) l ACPG 5.44 5.49 3715 HE II 2 AC 70 0.90 0.97
|
||
AW 7.0.. 5.44_ 5.49_ 3721 -3 AC7Q ■JO . 3.34
|
||
3 6, ,66 2 AW 1.70 1.83
|
||
1 5, 5.44 25 5.49 3721 (S III) 2 AW 1.70 1.83
|
||
1 BR. A 100, 100.00 LOG. ,00 100.00 3121- HE IJ .3 AC7Q 3.10 ,3.34
|
||
AN 100. OOX 100 OOX 3721 ( S III) 3 AC 70 .10 3.34
|
||
A41 100. 00 100 ,00 3726 (0 II ) 1 AC 70 .20 4.53
|
||
KQS 1Q01 OCX —LOÛ. iQÛX . UO- 6.58
|
||
LA 100 ,00 100.00 100 ,00 100.00 1 11.90 12.84
|
||
LA54 100 ,00 100.00 100 .00 100.00 1 L MA 15.40X 16.61X
|
||
-HA 1 00 1QQ.QQ- 1Q0 1QQ..QQ - AC-ZD 3.60 3.8B
|
||
100. 100.00 100. 100.00 1 AW 3.90 4.21
|
||
OC B 100. 1OC.00 100. 100.00 3732 HE II 2 AC 70 2.70 2.91
|
||
PT P 1 00. 1 00.00- i no. 1QQ.QQ . 3734 —H I 2 AC 70 2^70 _ 2.91
|
||
R2 100. 100. 00 3740 HE II 1 AC 70 0.60 0.65
|
||
VV1 100. OOX 100, OOX 3748 HE 11 2 AC 70 3.30 3.55
|
||
HE. _L A W 70 2, DÛ 2.QQ- 99 ^7sn 2 AC 70 3^3Q_ 3.55
|
||
4931 III) 1 A W70 ,25 0. 25 1 AC 70 1.20 0.92 1.29 1.00
|
||
4959 III) L AN 498 , OOX 494. 86X 1 AW 0.65 0.92 0.70 1.00
|
||
1 A4 1 286. J1Û 343.20. ?R4. _L9 _J AC 7.0 3.60 2.72 -3.87 2.93
|
||
LA 362. 345.20 359, 343.02 1 AW 1.84 1.98
|
||
LA 54 385. 345.20 382. 343.02 3769 HE II 2 AC 70 3.70 3.98
|
||
-MA 363. 345.211 360, 343.02 3770 —H I _2 AC 70 3^70- 3.98
|
||
P2 00 345.20 327. 92 343.02 1 AW 2.52 2.52 2.71 2.71
|
||
VV1 0 XA 345.20 0, 0 XA 343.02 3774 0 III 1 AC 70 1.10 1. 10 1.18 1.18
|
||
-W im i AN 1399. OOX 1385. 77X 3781 - JH F .11 — _J AC 70 0^60.- 0.60 0.64 0.64
|
||
A41 800. 1049.00 792. 43 1 039.08 3783 ( FE V ) AC 70 .20 0.20 0.21 0.21
|
||
LA 12 00. 1049.00 1188. 65 1 039.08 3791 0 III AC 70 0.50 0.50 0.54 0.54
|
||
LA54 1155, 1049.00 1144. 07 1 039.08 3796 HE II AC 70 5.20 5.58
|
||
PT P l 100. 1049.00 1089, 59 l 039.08 3797 AC 70 5.20 5.58
|
||
R2 990. 1049.00 980. 64 1 039.08 AW 4.05 4.05 4.35 4.35
|
||
VV 1 _Ûj O XAl049.00 û. .Q XAI Q39.Q8- 3-813 . - -HE..JJ AC7Q Q i7Q Q«7Q„ -Q.L5 Q«-7?_
|
||
5411 HE II l A W 70 .20 2.20 12 2.12 3833 HE II 2 AC 70 7.00 7.49
|
||
l VV 1 12 . 90X 43X 3835 I 2 AC 7 0 .00 7.49
|
||
5517 1 CL HD--L- AHJQ_ ¿9— g. 5-9_ —1— .30 _fe,_3_0- 6*7.^
|
||
5592 III AW 70 0.18 0. 17 3858 HE II 1 AC 70 0.60 0.60 0.64 0.64
|
||
5630 (FE VI AW70 C . 23 0.22 3868 (NE III) 1 AC 70 38.30 38.30 40.88 40.88
|
||
- J>717— (FE VI J_ l_ AW 70 0.58 0.55 J LA 61.20 -i>5._3_3,_
|
||
5721 (FE VID 1 AW 70 0.40 0.38 1 L MA 35.60X 38.OOX
|
||
5754 (N II ) 1 AW 70 f .90 0.85 1 MW MA 36.70X 39.17X
|
||
5790 - HE ÎJ L_ AAWW 70 0.90 1 VV 1 75.50X 80.59X
|
||
5801 C IV 1 70 0.80 ,75 0.75 3887 HE II 2 AC 70 10.50 11.19
|
||
5806 HE II 1 A W 70 0.36 ,34 0.34 3888 H I 2 AC 70 10.50 11. 19
|
||
5812 C IV 1 A W 70 1 ♦ 1.0
|
||
-19.57 ,00
|
||
1.04
|
||
18.35
|
||
2
|
||
3
|
||
AW
|
||
LA
|
||
9.70
|
||
61.20
|
||
10.34
|
||
65.22
|
||
19.57 26 18.35 2 L MA 8.70X 9.27X
|
||
19.57 78 18.35 2 MW MA 8.30X 8.85X
|
||
1 VV1 22, 60 X 21. 19X 2 VV 1 42.70X 45.SIX
|
||
6300 ) 1 VV 1 37, 40X 34. 28X 2 AW 9.70 10.34
|
||
6562 1 0 174, 00 157. 58 3 LA 61.20 65.22
|
||
361. 291.75 326. 264.22 2 L MA 8.70X 9.27X
|
||
OCR 316. 291.75 2 86. 264.22 2 MW MA 8.30X 8.85X
|
||
PT P 3,16. 291.75 286. 264.22 2 VV 1 42.70X 45.51X
|
||
2 vv i 267. 80X 242. 53 X 3923 HE II 1 AC 70 i.oo 1.00 1.06 1.06
|
||
6563 (N II ) 2 Wl 267. 80X 242. 53 X 3967 H I 2 MW MA 21.40X 22.69X
|
||
7065 - he J L_ PT P 1s 3J _3a_Jl_ 2_j 3.9$ 7 (NE III) 1 aliq l.Q-»50.. _1U13._ UU13-
|
||
7325 (O II ) 1 2 30.10 31.91
|
||
2 L 20.6OX 21.84X
|
||
REGION KFY (REGI ON.REFER ENCE.EXPLANATION) 2 MW MA 2it4QX ¿2.69X
|
||
BR A BRIGHT RING 2 VV 1 46.40X 49.20X
|
||
0, ma , OUTER RING 2 LA 30.10 31.91
|
||
R. MA . BRIGHT RING -2_1 MA- 2Q„6QX. -21..a4X
|
||
2 VV 1 46.40X 49.20X
|
||
NGC 1535 (PK NO. 206-40 1) 3968 HE II 2 AC 70 14.50 15.37
|
||
3-970 _H_ _2 A£JQ . 14.50 . _ 15_«-3 7_
|
||
4009 HE I 1 AC 70 0.20 0.21
|
||
4024 HE II 2 AC70 1.60 1.69
|
||
BEGIN NGC 2022 ( PK NQ. 196-10 1) 0.1.1 (H.YDRQGEN LINES? 4026 HE 1 2 AC 70 1.60 1.69
|
||
1 AW 1.50 1.50 1.58 1.58
|
||
WAVE IDENT N RG PE F OBS I AVE O CORR I AVE C 1 AC 70 1.30 1.40 1.37 1.47
|
||
3132 0 III 1 AC 70 30.00- A 33^76_à _1 AW L» 50 1.40. 1.58 L.47-
|
||
1 L MA 45.OOX 50.64X 4097 N III 1 AC 7 0 1.05 1.10 1.10
|
||
1 AC 70 43.00 48.15 48.15 4100 HE II 2 AC70 25.00 26.27
|
||
NGC 2022 (PK NO. 196-10 1) NGC 2022 (PK NO. 196-10 1)
|
||
|
||
532
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC ?a?? (PK ND. 196-10 1) NGC ZQZZ (PK NQ« i9^-lQ_l)
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I
|
||
4101 _H I _2 AC7Q_ 25^0 26.26, -6730 LS Li. J 1 B_A£.2. 1.00» 0_.-g_i»
|
||
I LA 30.50 32.04
|
||
1 L MA 15.BOX 16.60X REGION KEY (REGION?REFERENCE,EXPLANATION)
|
||
1 MW MA 19.4QX 20.3BX A. AE2 . REGIONS A AND B ON DIFFERENT SCALES
|
||
VV 1 45.50X 47.BOX MA LICK OBSERVATIONS
|
||
4122 (K V AC70 0.40 0.40 0.42 0.42 MA MOUNT WILSON OBSERVATIONS
|
||
.4163 (K V -AC7Q 0.50 0.50 0.52 0.52
|
||
4187 C III AC 70 0.50 0.50 0.52 0.52 NGC 2022 (PK NO. 196-10 1)
|
||
4199 HE II AC 70 2.10 1.95 2.19 2.03
|
||
_AW 1.8Q ■ 95 _L. 2.Q3
|
||
4227 (FE V ) AC 70 1.30 1.20 1.35 1.25
|
||
AW 1.10 1 .20 1.15 1.25 BEGIN NGC 2346 IPK NO. 215+ 3 1) 0.87 (RADIO-H BETA)
|
||
4267 C II AC 70 1.50 1.67 1.56 1.74
|
||
AW 1.85 1.67 1.92 1.74 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4280 AC 70 0.60 0.60 0.62 0.62 3691 H I 1 PG AKI 0.80 0.80 1.48 1.48
|
||
4338 —Hf IJ _ A C 7 Q_ 47.00 f.6_L_ 3697 _H I 1 PG AKI 1 tQO 1.00 l,ai> 1.85
|
||
I AC 70 47.00 48.61 3703 H I 2 PG AKI 2.90 5.34
|
||
AN 58.10X 60.09X 3703 HE I 2 PG AKI 2.90 5.34
|
||
LA 60.00 62.06 .3711 _b L_ 1 PG AM -JLt7Q 1.70 3.12 -3tl2 .
|
||
1 L MA 39.1 OX 40.44X 3722 I 2 PG AKI 0.80 1.46
|
||
1 MW MA 41.7 OX 43.13X 3722 (S III) 2 PG AKI 0.80 1.46
|
||
_J, W 1_ 109.90X 113.67X —3726. _LQ Li L L PE AK,I 311.QP 365.78
|
||
(0 III) 1 AC 7 0 11.30 12.60 11.67 13.01 1 PG AKI 105.00 191.02
|
||
1 AN 17.60X 18.18X 3729 (0 1 PG AKI 120.00 217.94
|
||
L_ AW 9.50
|
||
17.00
|
||
12.60 9.81
|
||
17.56
|
||
13.01 —3734 . H 1 PG AKI -L..6Q ■ 1.60.. 2-«.90 —2.90
|
||
1 LA 3770 1 PG AKI 3.80 3.80 6.74 6.74
|
||
1 L MA 11.20X 11.57X 3797 H I 1 PG AKI 6.30 6.30 11.01 11.01
|
||
1 MW MA 10.50X 10.84X 3819 HE. I L PG AKI 3.00 .. QQ— 5.18 _S-t.18 .
|
||
VV 1 27.30X 28.19X 3835 1 PG AKI 10.00 10.00 17.09 17.09
|
||
4379 N III AC70 0.75 0.75 0.77 0.77 3868 I PE AKI 74.00 70.50 123.98 118.11
|
||
4471 HE I AC70 0.74 0. 74 0.76 0.76 1 PG AKI 67.00 _7D .50- 112.25 118.11
|
||
AN 23.00X 23.60X 3889 H I 2 PG AKI 21.50 35.57
|
||
AC 70 4.50 6.00 4.60 6.13 3889 HE I 1 PG AKI 21.50 35.57
|
||
-LA 7.50 6.00 7.66 6.13 —3.967 . (NF ITT) 2 PG AKI 53-. QQ 84.23
|
||
1 MW MA 3.40X 3.47X 3970 H I 2 PG AKI 53.00 84. 10
|
||
4625 ( AR V ) 1 AC 70 0.10 A 0.10 A 4026 HE I 1 PG AKI 2.90 2.90 4.47 4.47
|
||
4634 —U ULL _I AL.70- 0.90 0.91 0.91 4101 _JH I_ 1 PG AKI 27.40 27.40 40.47 40.47
|
||
4640 N III AC 70 1.30 1.32 4340 H I 1 PG AKI 35.70 35. 70 46.60 46.60
|
||
4647 C III AC 70 1.20 1.22 4363 (0 III ) 1 PG AKI 11.00 11.00 14.19 14.19
|
||
445.0 C IV AC7Q- 1.20 1.22 4471 HE-I 1 PG AKI 5.20 5.20- 6.37
|
||
4658 C IV AC 70 1.10 1.10 1.11 1.11 1 PE AKI 12.00 21.00 13.15 23.01
|
||
4685 HE II AC 70 107.00 128.50 108.25 130.00 1 PG AKI 30.00 21.00 32.87 23.01
|
||
LA 150.00 128.50 151.75 .130.00 I PF AKI 1 00.00 1QQ.0Q- 100.00 i nn.nn
|
||
86.00X 87.00X 1 PG AKI 100.00 100.00 100.00 100.00
|
||
l MW MA 101.00X 102.18X 1 P£ AKI 335.00 33C.50 321.10 316.79
|
||
1 VV 200.OOX 202.33X 1 PG AKI 326.00 -33Q.5Q- 312.48 316.79
|
||
1 AC 70 12.00 12.12 6717 ( S II) AE 2 1•60* A 0.79*A
|
||
2 LA 14.30 14.44 6730 ( S II ) AE 2 1.00» 0.49*
|
||
1 MW..MA 13.20 X 13.33X
|
||
4712 HE I LA 14.30 14.44 REGION KEY <REG I ON,PEFERENCE,EXPLANATION)
|
||
4724 (NE IV ) AC 70 1.60 1.61 PE, AKI , PHOTOELECTRIC OBSERVATIONS
|
||
4740 I AR IV ) —A-C.7Q- 11.20 13.50 11.29 11^61 PG. AKI . PHOTOGRAPHIC OBSERVATIONS
|
||
15.80 15.93
|
||
1 MW MA 9.50X 9.58X NGC 2346 (PK NO. 215+ 3 1)
|
||
_2 AC 7 0 10Q.00 100.01
|
||
AC70 100.00 100.00
|
||
AN 100.OOX 100.OOX
|
||
—LA 10Q.QQ 100.00 BEGIN NGC 2371 (PK NO. 189+19 1) C = 0.07 (HYDROGEN LINES)
|
||
1 L MA 100.OOX 100.OOX
|
||
1 MW MA 100.OOX 100.OOX WAVE IDENT RG REF OBS I AVE 0 CORR I AVE C
|
||
_J OP 63 1QQ.QQ .1Q0.QQ -3133 _Q LLI— B AC PG 34.00 -24.50_ 36.65 26.41
|
||
VV 1 100.OOX 100.OOX AC PG 15.00 24.50 19.17 26.41
|
||
AC 70 240.00 238.72 B AC PG 44.00 56.00 47.29 60.18
|
||
AN 145.OOX 144.23X F AC PG 68.00 56.00 73.08 60. 18
|
||
1 231.00 229.77 3299 B AC PG 1.60 1.10 1.71 1.18
|
||
1 L 197.OOX 195.95X F AC PG 0.60 1.10 0.64 1.18
|
||
1 MH..MA 189.OOX 187.99-X 3312 B AC P G 3.7Q 3.21 3 »9 5 3.43
|
||
1 290.90XA 289.35XA 1 El AC PG 4.54 3.21 4.85 3.43
|
||
(0 III) 1 AC 70 720.00 714.24 718.93 1 F AC PG 1 .40 3.21 1.50 3.43
|
||
AN 412.OOX 408.70X 3341 III 1 B AC PG 6.30 4.57 6.72
|
||
1 LA 678.00 724.73 672.57 1 FI AC PG 5.12 4.57 5.46 4. 88
|
||
1 L MA 550.OOX 545.60X 1 AC PG 2.30 4.57 2.45 4. 38
|
||
1 MW MA 0.0 X 724.73 0.0 X ) 1 AC PG 24.00 34.99 25.60 37.32
|
||
OD 63 776.20 769.99 El AC PG 1.96 34.99 2.09 37.32
|
||
VV 1 790.90X 784.57X F AC PG 79.00 34.99 84.28 37. 32
|
||
(FE VII) AW 70 0.80 0.79 (NE V ) 1 B AC PG 50.00 62.89 53.14 66. 84
|
||
5270 (FE III) AW70 0.30 0.30 0.29 0.29 1 El AC PG 4.68 62.89 4.97 66.84
|
||
5309 ( CA V ) AW 70 0.30 0.30 0.29 0.29 1 F AC PG 134.00 62.89 142.42 66. 84
|
||
5-335 IFE VI ) AW 70 0.40 0.40 0.39 0.39 —LU L B AC PG 12.00 8.56 12.74 9.09
|
||
1 AW70 9.40 13.05 9.11 12.65 El AC PG 8.09 8.56 8.59 9.09
|
||
1 MW MA 16.70 13.05 16.19 12.65 F AC PG 5.60 8.56 5.95 9.09
|
||
5423 1 A W70 0.40 0.40 0.39 0.39 B AC PG 0.20 0.20 0,21 0.21
|
||
5432 0 V 1 AW70 0.40 0.40 0.39 0.39 I 1 B AC PG 0.20 0.25 0.21 0.26
|
||
5484 (FE VI I l AW70 0.40 0.40 0.39 0.39 l F AC PG 0.30 0.25 0. 32 0.26
|
||
55-17 (cl nn 1 A AE2 I«00*A 0.96*A .3692 _J L_ B AC PG 0.40 , 5Q_ «42 0.53
|
||
AW70 0.74 0.71 F AC PG 0.60 C. 50 0.63 0.53
|
||
AE 2 1.00* 0.96* B AC PG 0.80 0.95 0.84 1.00
|
||
AW70 0.59 0.57 AC PG U10 0.95 1.16 1.00
|
||
5630 (FE VI ) AW70 0.60 0.60 0.57 0.57 3704 8 AC PG 1.40 1.72 1.47 1.81
|
||
5677 (FE VI ) AW 70 0.60 0.60 0.57 0.57 F AC PG 2.04 1.72 2.14 l. 81
|
||
5721 -(FE VLLI AW70 0.50 0.50 0.48 0.48 3712 _g AÇ PJL. 1.40 1,59 1.47 1.67
|
||
5754 (N II ) AW 70 1.50 1.50 1.43 1.43 El AC PG 0.8 1.59 0.92 1.67
|
||
5801 C IV AW 70 1.20 1.20 1.14 1.14 F AC PG 2.50 1.59 2.62 1.67
|
||
5506 he n AW 70 0.10 . P.1Q 0.10- 0.10 3722 B AC PG 3.90 4.09
|
||
5812 C IV 1 A W70 0.85 0.85 0.81 0.81 2 El AC PG 2.31 2.42
|
||
5875 HE I 1 AW 70 1.90 4.25 1.80 4.03 2 F AC PG 5.10 5.35
|
||
1 MW MA -6.¿a. 4.25 6.25— 4.03 T T T ) 7 -B—ACP-G— 3.90 4.09
|
||
1 VV 1 22.70X 21.50X El AC PG 2.31 2.42
|
||
6562 1 MW MA 306.00 281.39 F AC PG 5.10 5.35
|
||
_2 VV 1 554.60 509.99 3727 _LQ Il ) 1 AC PG 18.00 A 18.89 A
|
||
6563 ( N II ) 554.60 509.99 El AC PG 53.90 56.56
|
||
6717 ( S II 1.05* 0.96* F AC PG 10.00 10.49 A
|
||
NGC 2022 (PK NO. 196-10 1) NGC 2371 (PK NO. 189+19 1)
|
||
|
||
533
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
Noil 2311 tPK NO. 189.t 19 .lt NGC 2371 (PK NQ* 169*19 11
|
||
WAVE TOENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE CCRR I AVE C
|
||
3727 _LQ Li—L _i y 17Q.QQ- LIB. 3.8— 4649 __Q LL_ I B ACPG 20 . 2.22_ 1.66
|
||
I 0 74. 10 77.75 1 F ACPG 1.10 1.65 1.11 1.66
|
||
l B ACPG 15.00 15.74 4659 iFE im l B ACPG 0.20 0.20 0.20 0.20
|
||
I EI ACPG 74.50 78.16 4686 HE II 1 Fi_AÇP.Q_ 29,2Q_ 3.3 » 2 ^ 29.42 93.93
|
||
F ACPG 14.00 14.69 A 1 F ACPG 125.00 93.24 125.92 93.93
|
||
1 B ACPG 2. 70 2.71 2. 83 2.85 1 C 102.00 93.24 102.75 93.93
|
||
1 E L-ACPG— 1.74 2.71 1.83 2.85- __1_ 110.81- 93.93
|
||
110.00- 93.2V. 100.74
|
||
100.00
|
||
F ACPG 3. 70 2.71 3.88 2.85 1 ORF
|
||
B ACPG 3. 10 2.90 3.25 3.04 1 VV5 16.00* 16.12*
|
||
1 El ACPG 1.89 2.90 1.98 3.04 (AP IV ) 1 B ACPG 17.00 ■13.0.3- U.1L 1$. 12..
|
||
F ACPG 3.70 2.90 3.88 3.04 I El ACPG 2. 10 14.03 2.11 14.12
|
||
1 B ACPG 2.00 2.40 2.10 2.52 1 F ACPG 23.00 14.03 23.15 14.12
|
||
-J. F AÇPQ- 2.80 2.40 2.93 2.52 _2 C_ 21.00 21. 13
|
||
1 B ACPG 3.90 3.17 4.09 3.32 4712 HF I 2 C 21.00 21. 13
|
||
1 El ACPG 2.51 3.17 2.63 3.32 4725 (NE IV ) 1 B ACPG 1.80 1.81
|
||
_1 F &CPG 3.10 3.17 3.25 11 FB .ACPG- _2j. ..82-
|
||
1 B ACPG 4. 70 4.74 4.92 .96 ACPG 11.00 11.46 11.06 11.52
|
||
1 FI ACPG 3.62 4.74 3.79 4.96 l El ACPG 1.86 11.46 1.87 11.52
|
||
1 F ACPG 5.90 4.74 6.18 4.96 1 F ACPG 17.00 11.46 JJ,.Q9_ 11 «52-
|
||
3 7 74 n III 1 B ACPG 0.20 0.20 0.21 0.21 1 C 16.00 11.46 16.08 11.52
|
||
3782 HE II l B ACPG 0.20 0.20 0.21 0.21 l AC P 100.00 100.00 100.00 100.00
|
||
,3 791 —Q LLL- 1 B ACPG 0.60 -Q.6Q— —Q.63_ Q.63 _l P ACPG 100.00 100.00 . lO-Q.OQ- 100.00
|
||
l B ACPG 5.30 5.17 5.54 5.40 1 El ACPG 100.00 100.00 100.00 100.00
|
||
1 El ACPG 3.70 5.17 3.87 5.40 l F ACPG 100.00 100.00 100.00 100.00
|
||
1 F ACPG _6>J5.Q— -5,17_ 6. 80 5.40 100.00 1QQ.QQ, 100« 00— 100.00
|
||
B ACPG 0.40 0.64 0.42 0.67 1 M 100.00 100.00 100.00 100.00
|
||
1 El ACPG 0.88 0.64 0.92 0.67 l MI73 100.00 100.00 100.00 100.00
|
||
3835 _J B .-ACPG— -7. 30 . 7.62 . _Z.29._ -J 0 1QQ.QQ. IflC.OQ ion-no 1nn.nn
|
||
l FI ACPG 5.15 6.98 5.38 7.29 l 0D62 100.00 100.00 100.00 100.00
|
||
1 F ACPG 8.50 6.98 8. 87 7.29 1 ORF 100.00 100.00 100.00 100.00
|
||
3858 HE I I _J B ACPG 0- 20 0-21 49.59 -XO LLLL -1 AGP— 239.00 271.63 238.19 27Q.7Q
|
||
1 El ACPG 52.60 67.42 54.83 70.28 1 B ACPG 204.00 271.63 203.31 270.70
|
||
1 F ACPG 41.00 67.42 42.74 70.28 l El ACPG 252.00 271.63 251.14 270.70
|
||
_i y 67.4? 70.2B _J F ACPG 227.00 22A.23-
|
||
0 83.10 86.62 265.00 271.63 264.10 270.70
|
||
VV5 9.10* 9.49* 360.00 271.63 358.77 270.70
|
||
B Af.PG_ .10.00 10.41 31-6. 00- 314.92- 270.70
|
||
2 FI ACPG 15.30 15.93 1 ORF 310.00 308.94
|
||
? F ACPG 14. 00 14. 58 2 VV5 114.00* 113.61*
|
||
—2 B-ACPG. _io mi -I —ACE— 657.00 653.65 7-11.12-
|
||
2 FI ACPG 15.30 15.93 El ACPG 830.00 714.77 825.76 711.12
|
||
2 F ACPG 14.00 14.58 F ACPG 454.00 714.77 451.68 711.12
|
||
1 -B-ACP-G- 0.60 1 010.00- 71.4.77 - 1004.84 ZU . 12 -
|
||
3967 (NE III) 1 El ACPG 20.90 21.69 l 0D62 758.60 714.77 754.73 711.12
|
||
2 VV5 2.50* 2. 59* l ORF 579.00 714.77 576.04 711.12
|
||
-3.070 y i J B ACPG 2-0.00 _2 V-V-5 114.00* 113.42*
|
||
1 El ACPG 15. 80 21.93 16.40 22.76 5411 HE I I 1 C 12.00 11. 76
|
||
1 F ACPG 30.00 21.93 31.14 22.76 5517 (CL III) l A AE2 1.00* 0.98*
|
||
5537 (Cl III) 1 A AF? 1.00* n.9&*
|
||
2 39. 80 41. 31 5876 HE I C 24.00 24.00 23. 18 23.18
|
||
2 2.50* 2.59* 6563 H I C 355.00 292.67 336.55 277.46
|
||
_( NF .1 II) _? A4.00 -A5.6Z MI 73 ri 4-nn 292.67 297.68 . 27.7.46 -
|
||
2 39.80 41.31 1 0 209.00 198. 14
|
||
1 B ACPG 1.40 1.61 1.45 L • 66 2 VV 5 36.00* 34.13*
|
||
1 M &CP G 1.72- 1 .61 - 1 « 7ft - 1 -66 —LN T I ) -2 VV5 36.00* 34.13A
|
||
1 F ACPG 1.70 1.61 1.76 1.66 6717 ( S II ) l B AE 2 0. 78* 0.74*
|
||
l B ACPG 2.00 1.09 2.07 1.95 6730 (S I I ) l B AE2 l .00* 0.94*
|
||
1 El ACPG 1.97 1.89 2.04 1.95 7325 l 0 II ) l 0 19.00 17. 72
|
||
1 F ACPG 1.70 1.89 1.76 1.95
|
||
4097 N III 1 El ACPG 1.5o 1.56 1.61 1 .61 REGICN KFY (REG ION,PEFERENCE,EXPLANAT ION)
|
||
4 10 1 H T _1 ft ACPG 20-00 26- 79 20.64 27.64 B, ACPG, FRIGHT PART
|
||
l El ACPG 21.30 26.79 21.98 27.64 El, ACPG, PLATE ES1441
|
||
1 F ACPG 28.00 26.79 28. 89 2 7.64 F, ACPG, FAINT PART
|
||
_! C xq.-Q<2- 26.79 -¿-9,92 - ¿7.64 A. AE2 . REGIONS A AND B CN DIFFERENT SCALES
|
||
27.00 26.79 27.86 27.64
|
||
MI 73 27. 40 26.79 28.27 27.64 NGC 2371 (PK NO. 189+19 1)
|
||
_g 34.80 26.79 35.91 27.64
|
||
1 VV5 4.60* 4.75*
|
||
4144 HE I 1 El ACPG 0.6ft 0.68 0.70 0.70
|
||
4200 HI 11 . _J B ACPG. 1.40 .80 1.44 .85 BEGIN NGC. 239? ( PK NO. 197+17 1) C. = 0.74 (RADI0—H BETA)
|
||
ACPG 2.20 1.80 2.26 1.85
|
||
1 B ACPG 0.40 O. B7 0.41 0.90 WAVE IDENT RG REF OBS I AVE O CORR I AVE C
|
||
I El ACPG 1.35 Q.E7 -l.M- 0.90 3203 HF I I CP MA 26.00 26.00 33.29 33.29
|
||
I B ACPG 35.00 A 35.76 3341 (NF V ) 1 CR MA 36.00 36.00 44.97 44.97
|
||
1 El ACPG 35.ÛQ 46.2 7 35. 76 47.27 3426 (NE V ) 1 ACP 62.90 73.45 77.51 90.51
|
||
1 F ACPG 55.00 46.27 56. 19 47.27 2_ .LA -JQ.Qfl 86.26
|
||
47.00 46.27 48.02 47.27 CR MA 84.00 73.45 103.
|
||
46.00 46.2 7 47.00 47.27 3444 LA 70.00 86.
|
||
45.60 46.27 46. 59 47.27 3703 1 MA 1.40 L
|
||
1 0 49.00 50.06 47.27 3703 HE I 2 1.40
|
||
? VV5 5. 86* 5.98* 3712 H I 1 1.50 1.77
|
||
4363 _LQ III) A B- AC.PJL 16.40 12.00 12. 25 ¿Q.38 3726 -J_C II. -Ll « Qû* ia*
|
||
1 Fl ACPG 19.97 16.74 20.38 AUV 1.00*A , 18*A
|
||
l F ACPG 17.00 l 9.97 17.35 20.38 LA 111.CO 130, .92
|
||
_J £ 32.00 19.97 3.2,66 ¿0 « 38 1 MA -Jl.-Qfl __ai l24
|
||
1 M 21.00 19.97 21.44 20.38 2 MA 56.50 66.
|
||
1 0 21.40 19.97 21.84 20.38 3 MA 29. 10 34.
|
||
2 VV 5 5.85» 5.97* a yA_ 79.50 _ü.
|
||
4379 N III l P ACPG 0.80 0. 80 0.82 0.82 60 MA 55.20 65.
|
||
4471 HE T 1 B ACPG 1.00 1.89 1.02 1 .92 CP MA 76.00 89.
|
||
1 El ACPG 3.57 1.89 .63 -1.92 DK MA 168.QQ* 198.
|
||
F ACPG 1. 10 1.69 1.12 1.92 3.00* 3.
|
||
1 B ACPG 3.50 4.79 3. 55 4.85 104.70 123.
|
||
El ACPG. 2.85 .79 2.89 C TAM 58.àQ 69«
|
||
1 F ACPG 4. 80 4.79 4.85 1 0 TAM 91.00
|
||
l C 8.00 4.79 8. 11 4.85 1 W TAM 56.50
|
||
4634 1 P ACPG 1.00 0.90 1.01 0.91 3729 (0 I I ) I AH _ Q«.4J* 0.55*
|
||
0.80 0.90 0.81 0.91 0.46*A
|
||
4637 III 95.60 95.50 96.40 96.40 3 734 2. 10 2.47
|
||
4.64.0 I I I A B ACPG 2.20 1.52- 2.22 1 .53 3750 1 1 MA ¿«9Q VL_ - 3.41
|
||
1 El ACPG 1.26 1.52 1.26 1.53 3760 1.70 1.70 .99 1.99
|
||
1 F ACPG 1.10 1.52 1. 11 1.53 3770 4. 80 5.10 .62 5.97
|
||
NGC 2371 (PK NO. 189+19 1) NGC 2392 (PK NO. 197+17 1)
|
||
534
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 2392 (PK NO. 197+17 1) NGC 2392 (PK NO. 1974-17 1)
|
||
WAVE IDENT N RG REF OBS AVE O CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
3770 H I I 60 MA 5.4 5.10 6.33 5.97 4340 H I 1 5 HA 50.60 48.12 54.46 51 .79
|
||
1 ACP 10.90 7.60 12.72 8.87 1 CR MA 53.00 57.04
|
||
1 l MA 5.60 7.60 6.53 8.87 i OK MA 50.00* 53.81*
|
||
6. 30 7.60 .35- 8.87 1 WK OMA - 80» 1.94*
|
||
1 ACP 16.90 10.35 19.59 12.00 1 45.70 48.12 49. 19 51.79
|
||
1 LA 4.90 10.35 5.68 12.00 l ORF 44.00 48.12 47.36 51.79
|
||
__L_1 HA 7.70 10.35 .93 12.00 _J tL.TAM 42.90 48.12 46.17 -51.79
|
||
1 2 MA 12.60 10.35 14.61 12.00 1 0 TAM 58.10X 62.53 X
|
||
1 3 MA 13.30 10.35 15.42 12.00 1 W TAM 63.70X 68.56X
|
||
1 60 MA 6. 70 10.35 7.11- -L2-.-0.fl. .4363- (0 III) _2 ACP 61.00 _&.5j.44
|
||
ACP 101.20 79.35 116.68 91.49 1 42.40X 45.49X
|
||
LA 85.60 79.35 98.70 91.49 l LA 29.00 29.51 31. 11 31.66
|
||
MA 78.00 79.35 89.93 91.49 1 1 MA 26.40 29.51 28.32 31.66
|
||
l 2 MA 75.20 79.35 86.70 91.49 1 2 MA 35. 60 29.51 38. 19 31.66
|
||
1 3 MA 64.20 79.35 74.02 91.49 I 3 MA 35.80 29.51 38.41 31.66
|
||
1 4 HA- 82.90 79.35 95.58 91.49 1 4 HA- 28.60 29.51 30.68 31.66
|
||
l 5 MA 81.10 79.35 93.51 91.49 1 5 MA 33.40 29.51 35.83 31.66
|
||
1 CR MA 78.00 79.35 89.93 91.49 1 60 MA 18.30 29.51 19.63 31.66
|
||
1 OK MA 73.00* 84.17* _Q— 28.20 29.51 30. 75 31 -A4
|
||
1 WK MA 3.40* 3.92* 1 ORF 27.00 29.51 28.97 31.66
|
||
I □ 89. 10 79.35 102.73 91.49 1 C TAM 32.80 29.51 35.19 31.66
|
||
_1 C TAM 63.10 79.35 72.7-5- 91 .49 _J 0 TAM 26.60 29.51 28.75 31.66
|
||
i 0 TAM 82.00 79.3 5 94. 54 91.49 1 W TAM 32.20 34.55
|
||
1 W TAM 71.80 79.35 82.78 91.49 I AN 2.00X 2. 12 X
|
||
3888 —2 ACP .20 12.87- _L_1 HA 2.70 2.86 2.75
|
||
2 LA 10. 10 11.60 l 60 MA 2. 50 2.60 2.64 2.75
|
||
2 1 MA 17.40 19.99 4541 1 ACP 6.02 3.81 6.31 3.99
|
||
2 2 HA— 25.20 28.95 _1 1 HA 2.70 3.81 _2j. 83
|
||
2 3 21.00 24. 13 1 60 MA 2. 70 2.83
|
||
2 4 23.80 27.35 2 ACP 9.81 10.14
|
||
? 5 16.70 _ 19.19 1 1 HA 0.0 A_ 0^0
|
||
2 60 MA 17.00 19.53 2 9. 81 10. 13
|
||
2 0 21.30 24.47 1 1 1. 10 1.35 1. 14
|
||
—2 C—1AM 18.00 20.68- 1 60 MA _U .35- 1.65
|
||
W TAM 19.60 22.52 4658 C IV 1 1 MA 2.40 2.95 2.47 3.04
|
||
HE I ACP 11.20 12.87 1 60 MA 3. 50 2.95 3.60 3.04
|
||
-LA 4685 - HF II _J AAI— 46.nnx 98.46X
|
||
2 1 MA 17.40 19.99 I 63.00 61.73 64.61 63.31
|
||
2 2 MA 25.20 28.95 1 1 MA 57.00 61.73 58.46 63.31
|
||
-2—3 HA— 24. 13. 1—2 HA- A7 , hr> 69.23
|
||
2 4 MA 23.80 27.35 1 3 79. 50 61.73 81.53 63.31
|
||
2 5 MA 16.70 19. 19 1 4 62. 90 61.73 64.51 63.31
|
||
? 60 MA 14. 50 _6J . 73— 76.41 63.31
|
||
0 21.30 24.47 1 CR MA 60.00 61.54
|
||
C TAM 18.00 20.68 1 OK MA 30.00* 30.77*
|
||
W TAM 1 9.60 -U 60.30 61.84
|
||
41.60 47.27 1 ORF 62.00 61.73 63. 59 63.31
|
||
36.90 41.93 1 C TAM 59.70 61.73 61.23 63.31
|
||
■30.50 _J n TAM 4-2-. 90 44.00
|
||
12 MA 38.80 33.82 44.09 38.43 1 W TAM 51.50 52.82
|
||
1 3 MA 33.60 33.82 38. 18 38.43 2 LA 6.00 6. 13
|
||
—1—4 HA— 33.82 38.63 1 J HA 10. 00 1 0.22
|
||
1 5 MA 33.40 37.95 1 2 MA 21.80 17.73 22.28 18.12
|
||
2 CR MA 30. 00 34.09 1 3 MA 21.40 17.73 21.87 18.12
|
||
? OK MA 74-nn* 79-54* 7 An MA 9.20 9.40
|
||
C TAM 32.50 36.93 2 0 11.00 11.24
|
||
0 TAM 44.50 50. 57 2 LA 6.00 6. 13
|
||
W TAM 31.30 35.57 2 60 MA 9.20 9.40
|
||
ACP 41.60 47.26 2 Q 11.00 11.24
|
||
LA 36.90 41.92 (NE IV ) 1 1 MA 2.00 2.04
|
||
CP MA 30.00 34-08 L 6Q.MA 3.QQ 3.06
|
||
2 OK MA 26.00* 29.54* (AR IV ) 1 LA 6. 50 11.92 6.61 12.12
|
||
2 0 36.30 41.24 MA 9.20 11.92 9.36 12.12
|
||
_2 C TAM —32».50 1 2 MA_ LZ..8Q 11.92 18.11 12.12
|
||
2 0 TAM 44.50 50.56 1 3 22.40 11.92 22.79 12.12
|
||
2 W TAM 31.30 35.56 1 60 MA 6.90 11.92 7.02 12.12
|
||
397Q (NF III) _2 Q— 36.30 41-73 _L □ _a...7Q 11.92 8.85 12.12
|
||
l 1 MA 1.70 2.25 1.92 2.53 100.00 100.00
|
||
1 60 MA 2.80 2.25 3. 15 2.53 100.oox 100.OOX
|
||
4069 -LS II ) -LJ. HA— -4.-5Q- 4.5Q 5. (14t. -5.04 ia.CL.QQ 100.00 100.00 100.00
|
||
2 0 15. 10 16.90 1 PF RR 100.00 100.00 100.00 100.00
|
||
4072 II ) 1 60 MA 4. 10 4.10 4.59 4.59 l SI BR 100.00 100.00 100.00 100.00
|
||
4076 II ) _1_1 ma_ U2P 1.20 1.3-4- —1,34 1 GU 100.00 100.00 100.00 100.00
|
||
0 15.10 16.88 1 100.00 1 00.00 100.00 100.00
|
||
4097 III ACP 26.80 29.86 l 1 100.00 100.00 100.00 100.00
|
||
41Q1 _I ACP 26.80 29.84 —1 2 MA- 10Q.Q0 1QQ.0Û 1QQ.QQ 1Q0.QQ
|
||
1 25.00 2 7.52 27.84 30.64 l 3 MA 100.00 100.00 100.00 100.00
|
||
1 1 MA 28.00 27.52 31. 18 30.64 l 4 MA 100.00 100.00 100.00 100.00
|
||
1 2 MA- -33.5Q 27.52 37.3-1— 30.64 _L_5 MA— 100.00 -LaQ.QQ— _I.QQtQQ IQQ.QQ
|
||
3 34.60 27.52 38. 53 30.64 100.00 100.00 100.00 100.00
|
||
4 MA 33.40 27. 52 37. 19 30.64 1 ORF 100.00 100.00 100.00 100.00
|
||
_J2 HA— 32.20 27.52 35.86 30.64 _J C TAM IQQ.QQ IQQ.QQ -LQQ.QQ IQQ.QQ
|
||
1 60 MA 19.80 27.52 22.05 30.64 1 0 TAM 100.00 100.00 100.00 100.00
|
||
1 CP MA 23.00 27.52 25.61 30.64 1 W TAM 100.00 100.00 100.00 100.00
|
||
1 PK MA 26.00* 28.95» _L0 III ) J ACP 385.00 33 7. 15. 380.53 333.24
|
||
1 WK MA 1.20* 1.34* 1 AN 378.OOX 373.61X
|
||
1 0 23.40 27.52 26. 06 30.64 l PE BR 352.00 337.15 347.91 333.24
|
||
_J C TAM 28.30 27.52 31.52 -30.64 LA R4<?- nn 337.15- —344.94 333.24
|
||
0 TAM 26. 10 27.52 29.07 30.64 1 1 326.00 337. 15 322.21 333.24
|
||
1 W TAM 22.90 27.52 25.50 30.64 1 2 304.00 33 7. 1 5 300.47 333.24
|
||
4143 HE I-- 1 1 HA 1.00 l.QQ I« IL- 1.11 1 3 MA 250-00 337. 1 5 247.09 333.74
|
||
4200 l 1 MA 1.50 .60 1.65 1.76 1 4 MA 305.00 337.15 301.46 333.24
|
||
l 60 MA 1.70 .60 1.87 1.76 l 5 295.00 337.15 291.57 333.24
|
||
4227 _I I HA_ 3.6Q .75 3. 94_ . 4.10 380.00 33 7. 1 5 375.58 333.24
|
||
1 60 MA 3.90 4.26 1 ORF 426.00 337.15 421.05 333.24
|
||
2 ACP 61.00 65.65 1 C TAM 322.00 337.15 318.26 333.24
|
||
1 AN 70.90X 76.31X _J 0 TAM 3L9.QQ 33 7. 1 5 315.29 333.24
|
||
1 LA 48.60 48.12 52.31 51.79 1 W TAM 370.00 337.15 365.70 333.24
|
||
1 1 MA 44. 10 48.12 47.46 51.79 1 ACP 1187.00 1070.92 1166.37 1052.30
|
||
1 2 MA_ 5Qt9Q *8,12 ^.79- 51.79 _J AN lOI-SUOOX 1001.29X
|
||
49.50 48.12 53.28 51.79 1 PE BR 1451.00 1070.92 1425.78 1052.30
|
||
51.90 48.12 55. 86 51.79 l LA 1060.00 1070.92 1041.58 1052.30
|
||
NGC 2392 (PK NO. 197+17 1) NGC 2392 (PK NO. 197+17 1)
|
||
|
||
535
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 2 39 2 (PK NO. 1971-17 H NGC 2392 tPK NQ. 197+17 1>
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
5006 (0 III) 1_1 MA 1100 Üfi 1070.92 1080. M 1Q52.3.Q. 6310 (S III I 1 F 2 BR 4. 10»
|
||
l 2 MA 989 00 1070.92 971. 81 1052.30 2 PE BR 2. 70 2.30
|
||
l 3 MA 943. 1070.92 926. 61 1052.30 1 SI BR 2. 10 1.79
|
||
1 A 1020 00 1070.92 1002. 27 1052 t 3 P.. 1 S2 BR 1.90* 1.62*
|
||
1 5 MA 1080. 00 1070.92 1061. 23 1052.30 8. 70 7.40
|
||
I ORF 1660. 00 1070.92 1631. 15 1052.30 2 60 MA 9.40 8.00
|
||
1 C TAM 698. m 1070.92 685 ¿I lQ.52.i.Q_ 6364 _iO i L 1 Fl BR 0.97 0.83 0. 74 . 0.71
|
||
1 n TAM 759. 00 1070.92 .81 1052.30 F2 BR 4.40* 3.73*
|
||
l W TAM 904. 00 1070.92 .29 1052.30 1 SI BR 0.80 0.68
|
||
5145 ( F.E VI. 1. 1 A AW70 CL, £3 0.24 .03 0.23 1 S2 BR ■ 60* 1.36*
|
||
1 BR AW70 .45 0.24 .43 0.23 (N II) Fl BR 8.36 2 0.28 6.97 16.91
|
||
(FE VII) 1 A AW70 .02 0.15 .02 0.15 3 PE BR 443.00 369.42
|
||
1 RR AW70 .29 . 0. 15 .28 0.15. 1 SI BR 32.20 70.28 26-.8_5_ 16.91
|
||
l A AW70 0.20 . 12 0.19 l S2 BR 13.50* 11.26*
|
||
l BR AW70 0.20 .26 0.19 3 PE BR 443.00 368.93
|
||
1 A AW70 n. ? i 0.70 _] CAM 1.00» 0.83*
|
||
1 B AW70 0.21 0.20 10.00* 8.33*
|
||
l BR AW70 0.21 0.20 380.00 327.86 316.47 273.04
|
||
1 R AW70 o. A A» 314.00 327. 86 261.50 273.04
|
||
1 BR AW70 ,13 ,12 1 3 271.00 327.86 225.69 273.04
|
||
l OR AW70 ,20 19 1 4 357.00 327.86 297.31 273.04
|
||
1 Fl Bft ,50. Q.66 . 48 ■ ■Q.6A- 1 5 312.00 327.86 2 591 84__ 273.04
|
||
1 PE BR 0. 0.64 l 0 331.00 327.86 275.66 273.04
|
||
1 SI BR 0.66 0.64 l ORF 330.00 32 7.86 274.83 273.04
|
||
5270 IFE..I LI ). J A AH.7.Q... Q. QZ— . .0.6.7 _..Q. 0.7... 0.63 6583 _LN LI L .1 Fl BR 735.50 142.70 195.78- 118.63
|
||
1 BR AW70 0.67 20 0.63 3 PE BR 443.00 368.28
|
||
5277 (FE VII) l BR AW70 0.23 22 0.22 l SI BR 88.60 73.66
|
||
5309 CCA V L 1 PB AW7Q, 0.13 12— 0.12 1 S2 BR 27t30*_ 22.70*
|
||
5335 ( FF VI ) 1 RR AW 70 0.31 0.29 l CAM 0.37* 0. 31*
|
||
5411 HF I I 1 A AW70 3.08 2.88 l ORF 104.00 86.46
|
||
1 B A W 7 fl 3.Q8 7.88 1 F2 BR 4.50* .. 3.71*
|
||
1 BP AW 7 0 3.08 2.88 l PE BR 1. 10 0.91
|
||
1 OR AW70 3.08 2.88 1 SI BR 1.00 A 0.83 A
|
||
1 Fl BR . 7.B8 1. S2 BR 2.20* 1.82»
|
||
1 PE BR 3.08 2.88 3.30 2.93 2.72 2.42
|
||
1 SI BR 3.08 2.88 1 60 MA 4.40 2.93 3.63 2.42
|
||
J L_ 3.Q8 7.88 —LS II.) 1. .1 B. AF7 0.61*— 0.5a*-
|
||
l 60 MA 3.08 ,26 2.88 1 2B AE2 0. 90* 0.74*
|
||
1 A AW70 0. 14 ,03 0.13 1 Fl BR 7.21 5.93
|
||
1 R A W 7 fl 0. 1 4 J3 0.13 1 F2 BR ■33.-5Ü.*— 27.56*-
|
||
1 BP AW70 0.14 0.13 7 PE BR 4.90 4.03
|
||
l A A W70 0.09 0.08 1 SI BR 6.90 5.68
|
||
1 B AW70 -Q..Q9 0.08 1. S-2. BR. 7.40* 6.09-*-
|
||
1 BR AW70 0.09 . 18 0.08 2 1 MA 21.20 17.44
|
||
1 OR AW 70 05 0.09 .05 0.08 2 2 MA 25.20 20.73
|
||
-LT.l -I-LU- 1 1, A AE2 21 » 2- 3 MA- 19.40 15.96
|
||
1 2A AE2 .92* 2 0 18.60 15.30
|
||
l A AW70 0.68 .58 0.62 6723 ( S II ) 1 60 MA 19.20- 15.79
|
||
-J R A W 70 -0.A8 0.62 6730 -LS- T I ) 1 IB AE2 1.00*- 0.82*
|
||
1 BR AW70 . 19 0.68 0.62 I 2B AE2 1.00* 0.82*
|
||
1 OR AW70 .20 0.68 0.62 l Fl BR 8.43 6.93
|
||
1 F 1 RR 0-68 n.6? 1 F2 36.00* 29.58«
|
||
1 SI BR 80 74 2 PE BR 4.90 4.03
|
||
1 IA AE2 00* 92* 1 SI BR 6.80 5.59
|
||
1 2A AE2 00* 97* 1 S? BR 7.30*■ 6.00*-
|
||
l A AW70 0.61 0.37 0.56 2 1 21.20 17.42
|
||
l B AW70 0.61 0.39 0.56 2 2 MA 25.20 20.71
|
||
l BP AW70 0.61 1.09 0.56 2 3 MA 19.40 15.94
|
||
1 OR AW70 0.61 0.24 0.56 6734 2 0 18.60 15.28
|
||
1 Fl BP 0.61 0.46 0.56 6827 1 F2 BR 0.90* 0.73*
|
||
! S1--BS 0.90 0.61 0.83 0.56 1 S2 BR Q.70* 0.57*
|
||
5577 (0 1 ) 1 Fl BR 1.85 1.69 6835 1 F 2 RR 0.50* 0.41*
|
||
1 SI BR 1.85 1.69 1 S2 BP 0.50* 0.41*
|
||
__5i>30 _ (FE VI ) J A AW7Q 6 86 5 1 F 2 BR 1.20*- 0.98*
|
||
l BR AW70 0.28 0. 1 7 0.25 0.16 1 S2 BR 0. 70* 0.57*
|
||
5677 1 A AW70 0.06 0.17 0.05 0.15 7006 (AR V 1 0 30. 20 24.32
|
||
1 BP AW70 - o^-ia.- -..Qm.LT-.. 0.25 0.15 7065 HE I 1 F2 BB 4.10*- 3.29*
|
||
5754 1 A AW70 1.60 1.44 l S 2 BR 1.80* 1.44*
|
||
i B AW70 1.60 1 .44 1 Fl BR 5. 80 4.63
|
||
1 B R. -A-WJ-Q— 1.60 1 .44 1 F2 BR 8.60* 6.86*
|
||
1 OR AW70 1.60 1.44 1 PE BR 5.90 9.50 4.71 7.58
|
||
1 Fl 8R 1.60 1.44 1 SI BR 9. 00 9.50 7. 18 7.58
|
||
1 SI BR 1.60 1.44 -L S-2- BR. 5.10* 4.07«
|
||
l S2 SR 20* 08* 17. 30 13.81
|
||
5721 (FF VII) l BP AW70 10 A 09 A 7319 (0 II ) 13.50 10.64
|
||
-5.79.0 . HF II J B AW7Q 25 22 732 5_ (0 U ) 19. 10 19.10 15.05 15.05
|
||
l BR AW70 20 0.22 0.20 7330 (0 II) 13. 50 10.63
|
||
1 A AW70 10 0. 10 0.09 7751 (AR III) 4. 30 4.30 3.29 3.29
|
||
1 BR AJrl.7.0—. 20 A 18 A 9069 (S III) 38.00 38.00 27.25 27.25
|
||
5858 HF I I l BR AW 70 9532 H I LAP 1.95* 1.37*
|
||
5875 HF I l A AW70 6.30 5.60 9539 (S III ) 0 104.70 73.70
|
||
1 B AW70 6.30 5.60 .9539 _Q— 104.70 73. 7Q
|
||
l BR AW70 6.30 5.60 9546 _b (S LIII) LAR 1.95* 1.37*
|
||
1 OR AW70 6.30 5.60 10829 HE I GU 20.00 40.85 13.52 27.61
|
||
1 Fl BR 6.30 5.60 _Q 61.70 40.85 41.71 27.61
|
||
1 F 2 BR 20* ,39*
|
||
1 PE BR 20 6.30 39 REGION KEY (R EG ION,REFERENCE»EXPLANATION)
|
||
1 SI BR J2Û- 6.30 .66 1A t A E2 . 180 DEG.. 6 ARCSEC FROM STAR A,B ON DIF. SCALES
|
||
l S2 BR .50* 2A, AE2 , PA = 158 DEG., 16 ARCSEC FROM STAR — A,B ON DIF. SCALES
|
||
l 1 .90 6.30 5.60 A, AW70, KNOT WITH STRONG NITROGEN EMISSION
|
||
1 60 MA .50 6.30 8.44 5.60 B» A.M.7Q» KNOT WITH WEAKER NITROGEN . EMISSION
|
||
l F 2 BR . 30* .26* BR, AW70, BRIGHT RING SOUTH OF STAR
|
||
1 S2 BP .40* .34* OR, AW70, PORTION OF OUTER RING
|
||
63QQ _LÜ I L 1 FI BR .QQ 2.2 Q ■JZO 1.87 FI, FILAMENT IN NORTH OUTER SHFI L
|
||
1 F2 BR 40* BR , FILAMENT IN SOUTH OUTER SHELL
|
||
2 PE BR , 70 PE, BR , PHOTOELECTRIC (FROM ALLER AND CZYZAK.1972, UNPUB.)
|
||
1 SI BR xAO SI. BR . INTERFILAMENT BETWEEN SHELLS NORTH OF STAR
|
||
1 S2 BR 60* .77* S2, BR , INTERFILAMENT IN SOUTH OUTER SHELL
|
||
1 CAM 01 *A • 01 *A 1, MA , BRIGHT PART OF RING SOUTH OF STAR
|
||
? 1 MA -ZQ -IQ ARCSEC FROM REGION 1
|
||
2 60 MA .00 MA flO ARCSEC FROM REGION 1
|
||
1 FI BR .21 MA -15 ARCSEC FROM REGION 1
|
||
NGC 2392 (PK NO. 197fl7 1) NGC 2392 (PK NO. 197+17 1)
|
||
|
||
536
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 2392 (PK NO. 197+17 11 NGC 2440 (PK NQ. 234-»- 2 1)
|
||
5, +15 ARCSEC FROH REGION 1 WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
WH SON 60 INCH 3715.00 0 III 2 C CAK1 0.23 0.35
|
||
CR, LICK CROSSLEY (3721.80 (S III) 2 C CAK I 2.51 3.82
|
||
OK, MA OUTER KNOT 13721.80 H I 2 C CAK 1 2. 51 3.82
|
||
HKt. MA WEAK KNOT . 3726.00 (O UL). 1 C CAK1 -JL3.,AQ 51.12
|
||
W, TAM , WHOLE NEBULA 1 83.00 126.27
|
||
C, TAM , CENTRAL PORTION 1 1 CAK1 24.00X 36.51X
|
||
0, TAM , BRIGHTEST PART OF OUTER RING _J 2 C.AK1 124.OQX 188.64X
|
||
CAK 1 151.OOX 229.72X
|
||
NGC 2392 (PK NO. 197+17 1) CAK1 144.OOX 219.07X
|
||
_LA 141.00 -2141.51-
|
||
1 OS l.oo* 1.52*
|
||
1 VV5 68.00 103.45
|
||
BEQIN NGC 2438 (PjL.ljQt * 2) - 0.58 (RADIO—H BETA) 3729,QQ (Q LL-L _L C C.A.K i 25.20 L8, 2.9 _
|
||
1 1 CAK1 27.OOX 41.03X
|
||
AVE O CORR I AVE C l 2 CAK1 103.OOX 156.51X
|
||
3727 _LQ II ) KA2 390. 580.98 _1 3 QM.-L . 139,OOX .211,21X_
|
||
3868 (NE III) KA2 87.00 87.00 122.72 122.72 1 4 CAK1 130.OOX 197.54X
|
||
4686 HE I I KA2 41. 00 41.00 43.58 43.58 1 OS 0.64* 0.97*
|
||
4961 _H I ,KA2. 100.00 100.00 100.00 100.00 3734.QQ ti L_ _J C QAK1 1.91 -1.91 2.90
|
||
0D63 100.00 100.00 100.00 100.00 3736.00 □ IV 1 C CAK1 0.46 0.46 0.70 0.70
|
||
4959 (0 III) 1 KA2 460.00 460.00 447.19 447.19 3741.00 O II 1 C CAK1 0.05 0.05 0.08 0.08
|
||
5007 (0 III) 1 QD63 1096.QQ 1096.00 1050.50 1050.50 3750.70 b I _J C CAK1 2.37 2-3 7
|
||
6717 (S AE2 1.02* 0.64* 3754.70 0 III 1 C CAK1 0.95 0.95 1.43 1.43
|
||
6730 (S AE2 1.00* 0.62* 3757.00 0 III 1 C CAK1 0.33 0.33 0.50 0.50
|
||
3759.9-0 Q HI J C CAK1 3.19 3.19 4.79 4.79
|
||
NGC 2438 (PK NO. 231+ 4 2) 3770.60 H I C CAK 1 2.72 2.72 4.07 4.07
|
||
3774.00 0 III C CAK 1 0.33 0.33 0.49 0.49
|
||
3781.7Q HE II C CAK 1 ■ ■0.24 0.24 - 0.3.6 _ 0.36
|
||
3791.30 0 III l C CAK1 0.32 0.32 0.47 0.47
|
||
BEGIN NGC 2440 lPK NO. 234+ 2 1) 0.61 (RADIO-H BETA) 3797.90 H 1 C CAK1 4.39 4.39 6.49 6.50
|
||
J LA 4.40 4. 39 . 6.51 _ 4.50
|
||
WAVE lDENT N RG REF OBS I AVE 0 CORR I AVE C 3803.60 O II 1 C CAK1 0.03 0.03 0.04 0.04
|
||
3109.00 (AR III) 1 C CAK1 0.84 0.84 1.63 1.63 3806.00 HE I l C CAK1 0.03 0.03 0.04 0.04
|
||
3121.20 0 III 1 C CAKL 0.70 —Q-. 7Q_ 1.35 L.35 _3.ail.50 HE. II _J C C.AK1 0.46 0.46 0.68 . _ja.6B
|
||
C CAK1 22.90 33.45 44.07 64.38 3819.30 HE I C CAK1 0.74 0.74 1.08 1.08
|
||
44.00 33.45 84.68 64.38 3835.00 H I C CAK 1 6.40 6. 75 9.32 9.83
|
||
0. 80 0.8 0 1.51 1-^51 LA .7.10 10.34- 9.83
|
||
3187.40 HE I C CAK1 3.48 3.48 6.56 .56 1 MW MA 10.10X 14.71 X
|
||
3203.10 HE II C CAK 1 19. 70 19.85 36.91 37.19 3850.80 0 2 C CAK1 0.07 0. 10
|
||
2D_ on 1 9.85 37.47 37.19 3850.80 Q- _2 C C-AK-l-..
|
||
3231.50 S III 1 C CAK1 0.87 0.8 7 1.61 1.61 3858.10 HE II C CAK l 0.43 0.62
|
||
3233.50 S , I I I 1 C CAK1 0. 87 0.8 7 1.61 1.61 3862.50 SI II C CAK1 0. 16 0.23
|
||
3240.90 (NA IV ) J C- CAK.l..- 1.44 2.65 -2.65 3862.50—0 U- C LAK-1 .
|
||
3287.70 O II 1 C CAKl 0.20 0.20 0.36 0.36 (NE III) l A 83.00 119.18
|
||
3291.00 O II 1 C CAK1 0. 28 0.28 0.50 0.50 1 1 CAK1 69.OOX 99.08 X
|
||
3299.40 0 T II i r. r.AKi 2.90 5.20 J 2 CAK 1 143.59X—
|
||
3312.30 C CAK1 6.20 6.75 11.05 12.03 3 CAK1 141.OOX 202.47X
|
||
A 7.30 6.75 13.01 12.03 4 CAK1 92.OOX 132. UX
|
||
f. CAK1 7.90 _ Z.90-- 13.91 -13.91 -LA- 1.04.00
|
||
LA 69. 00 121.53 1 VV5 24. 00 34.46
|
||
3342.00 (NE III) C C AK 1 28.30 49.80 3889.00 H I 2 C CAK 1 10.40 14.80
|
||
-33-45 LAIE—U L 2 2 C AK 1 13.OOX 1 B. 50X..
|
||
69.00 121.27 CAKi 16.OOX 22.77X
|
||
3346 0 III 67.00 117.71 C AK 1 10.OOX 14.23X
|
||
3362.40 0 III 2 C C AK 1 Q« 32— Q. 56 -LA -1.2.00 17.08
|
||
3362.40 IV CAK 1 0.32 0. 56 MW MA 20.40X 29.04X
|
||
3380.50 IV CAKI 0.83 1.44 VV 5 29.00 41.28
|
||
3385.20 III CAKI 0.55 0.95 3889.00 HE I C CAKI 10.40 14.80
|
||
3385.20 IV CAKI 0. 55 0.95 1 CAKI 13.OOX 18.50X
|
||
3403.60 IV CAKI 0.63 0.63 1.08 1.08 2 CAKI 13.OOX 18.50X
|
||
3409.10 J2 i_y_ CAKI 0.39 Q, 39 0.67 Q.67 ÇA.Kj 16.OOX 22.77X
|
||
3411.00 O IV l CCAKl 0.55 0.55 0.94 0.94 4 CAKI 10.OOX 14.23 X
|
||
3414.70 H III 1 C CAKI 0.30 0.3 0 0.51 0.51 LA 12.00 17.08
|
||
3425 (NF V L _2 A 160.00 - 272^18. MW MA 20.40X -?9_^P-4X_
|
||
l LA 158.00 158.00 268.78 268.78 2 VV 5 29. 00 41.28
|
||
3425.90 D III 3 C CAKI 0.0 0.0 0.0 0.0 3889 H 2 1 CAKI 13.OOX 18.50X
|
||
? A 160.00 272.18 3905.50 SI 1 C CAKI 0.08 0.11 9.11
|
||
3425.90 O III 3 C CAKI 0.0 0.0 0.0 0.0 3923.50 HE II C CAKI 0. 55 0.55 0.77 0.77
|
||
3425.90 (NE V ) 3 C CAKI 0. 0 0.0 0.0 0.0 3926.30 HE I C CAKI 0. 10 0. 10 0. 14 0.14
|
||
3432 0 C CAKI Q, 32 0.32 Q.54 Q, 54 3944.80 O IV C CAKI 0.05 0.07
|
||
3443.90 0 III l CAKI 0.0 14.33 0.0 24.21 3947.70 C II 1 C CAKI 0.11 0.11
|
||
A 16.00 14.33 27.02 24.21 3956.70 Q IV 1 C CAKI 0.04 0.04
|
||
LA 27.00 14.33 45,60 . 24.21 3964.00 HE I _J C—LAJÜ— 0,69 0,69 0.96 0.96
|
||
3466.00 (N I CAKI 0.61 1.02 3967.50 (NE III) 2 C CAKI 21.70 30.03
|
||
3479.10 HE I C CAKi 0.37 0.62 37.00 51.20
|
||
3479.10 C CAKI 0.37 0.62 15.OOX ?Q.76X
|
||
3483.30 N IV 1 C CAKI 0.21 0.21 0.35 0.35 2 CAKI 34.OOX 47.05X
|
||
3487.60 HE I 1 C CAKI 0.21 0.21 0.35 0.35 3 CAKI 33.OOX 45.66X
|
||
3499.80 _Q LL 1 C CAKI 0.26 0.26 0.43 0.43 4 CAKI __2L_Q-0-%- L5_.9aX_
|
||
3530.90 HE I 1 C CAKI 0.06 0. 06 0. 10 0.10 LA 45.90 63.51
|
||
3554.40 HE I 1 C CAKI 0. 27 0.27 0.44 0.44 VV5 33.00 45.66
|
||
3568.00 NE II 1 C CAKI 0.18 0.18 0.29 0.29 3970.00 C CAKI 21.70 30.Q3 -
|
||
3586.80 HE I 1 C CAKI 0.30 0.48 37.00 51.20
|
||
3608.70 C III 2 C CAKI 0.06 0. 10 l 1 CAKI 8. OOX i 1.07 X
|
||
3608.70 -£ LLL 2 C CAKI 0« 0.6 0.10 _L 2 CAKI 14.OOX 19.37X _
|
||
3614.10 HE I l C CAKI 0. 10 0. IC 0. 16 0.16 CAKI 12.OOX 16.61X
|
||
3623 0 C CAKI O. 0.15 0.24 0.24 15 4 CAKI 10.OOX 13.84X
|
||
3634.50 -Hf I 1 C CAKI P. 0.31 p^a. 0.49 31 45.9Q 63.51
|
||
3653 0 C CAKI 0.-25 0.25 0.39 0.39 L MA 37.OOX 51.20X
|
||
3653.00 HF I 1 C CAKI 0.25 0.25 0.39 0.39 MW MA 46.OOX 63.65 X
|
||
3674.QQ H L _1 C CAM 0.48 VV5
|
||
3676.00 l C CAKI 0.66 0.66 1.02 1.02 2 L MA 37.OOX 51.20X
|
||
3679.00 1 C CAKI 0.76 0.76 1.18 1.18 2 MW MA 46.OOX 63.65 X
|
||
3682.00 C CAKI 0. 89 0.89 1.38 1.38 3995.20- IV -J C CAKI _JLÛ5 Q.Q7 Q.Q7
|
||
3686.00 1 C CAKI 1.02 1.02 1.58 1.58 3999.00 N III l C CAKi 0.06 0.06 0.08 0.08
|
||
3691.00 1 C CAKI 1.05 1.05 1.62 1.62 4003.50 N III 1 C CAKI 0.08 0.08 0.11 0.11
|
||
3697.QO _J f. CAKI 1. 12 1-1 ? L77 ■ 1.12 4008.20 (FE I II) 1 C. CAKI 0.07 0.07 0-10 0-10
|
||
3704.00 H I l C CAKI 1.26 1.26 1.93 1.93 4009.60 HE I 1 C CAKI 0.07 0.07 0. 10 0.10
|
||
3705.00 HE I 1 C CAKI 0. 50 0.50 0.77 0.77 4026.20 HE I l C CAKI 1.74 1.74 2.36 2.36
|
||
3707.00 JD LLL JL C CAKI 0.28 0.28 0.43 0.43 4050 0 r. CAKI -Q.Q3 Q. 03 0^04 . ..0^4.
|
||
3712.10 C CAKI 1.55 2.37 4059.70 (FE IV ) C CAKI 0.07 0.07 0.09 0.09
|
||
3715.00 C CAKI 0.23 0.35 4068.60 (S II ) C CAKI 2.40 2.40 3.20 3.20
|
||
NGC 2440 (PK NO. 234+ 2 1) NGC 2440 (PK NO. 234+ 2 1)
|
||
|
||
537
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7440 (PK NQ. 23^+ Z 1) NGC (PK NQ. 234+ 2 1)
|
||
WAVE IDENT N RG REF AVE 0 CORR I AVE C WAVE N RG REF OBS I AVE 0 CORR I AVE C
|
||
4072.00 0 I I 1 C CAK I -0. 1,2_ 0.16 0.16 4636 0 C CAK 1 8.39 8.39 9.11 9.11
|
||
4076.40 (S II ) 1 C CAK 1 0.73 0.97 4640.60 N III C CAK1 8.39 6.94 9.10 7.53
|
||
1 MW MA 3.00X 3.98X A 10.00 10.84
|
||
4097.QQ N LUL 1 C CAK1 2.40 —2.4.Q_ -3.16 3.1A . AW7-Q- 5.-50 6.94 7.53
|
||
14.90 22.40 19.59 29.45 1 L MA 10.00X 10.84X
|
||
26.00 22.40 34. 18 29.45 1 MW HA 8. 70X 9.43X
|
||
19.00X 24.98 X 4647.50 C III _1 C GAUL Q^45 0*15- 0.49 0.39
|
||
1 2 CAKi 16.00X 21.03X 1 AW70 0.26 0.35 0.28 0.38
|
||
1 3 CAKI 23.00X 30.24X 4648.90 O II 1 C CAKI 0.45 0.45 0.49 0.49
|
||
1 4 CAKI 24.00X 31.55X 4649 O III _3 AW7-Q Q.3Q 5.1Z
|
||
26.30 22.40 34.57 4649 C II 3 AW70 0.30 0.32
|
||
26.OOX 34.18X 4649.90 C III 1 C CAKI 0.45 0.49
|
||
25.QQX 32.86X 3 AW70 ±10 0.32
|
||
4119.40 0 I I 1 C CAKI 0. 13 0.13 0.17 0.17 2 LA 12.40 13.40
|
||
4121.40 HE Ï 1 C CAKI 0.29 0.29 0.38 0.38 4657 (FE III! 1 AW70 0.53 0.53 0.57 0.57
|
||
4121.40 (KV ) 2 C CAKI 0. 16 0.21 4659.3 0 .S U_ _1 C CAKI 0.59 0.47 0*51..
|
||
4128 C CAKI 0.04 0.04 0.05 0.05 AW70 .37 0.47 0.40 0.51
|
||
4133.50 0 I I C CAKI 0.05 0.05 0.06 0.06 4676.10 O II C CAKI .07 0.07 0.08 0.08
|
||
4143.BC JdE i C CAKI . 0-77 0.27 -Q.35 0.35 4fcflft.OO HF TT CAKI -_6Ü_ 71. 62. 4B 76.15
|
||
4153.10 C CAKI 0.03 0.04 A 76i 00 71.42 81.04
|
||
4156.40 C CAKI 0.03 0.04 AN 74, OOX 78.90X
|
||
4156.41! □ I_L_ C CAKI 0- 03 -Q.Q4 KA2
|
||
LA
|
||
_LL IQ
|
||
.50
|
||
71.42
|
||
71.42
|
||
75.71
|
||
76.24
|
||
76.15
|
||
4163.30 (K V ) C CAKI 0. 15 0.15 0. 19 0.19 l 76.15
|
||
4166 C CAKI 0.03 0.03 0.04 0.04 1 VV5 .00 71.42 85.30 76.15
|
||
4169.50 n 11 r. CAKI 0.07 Q« 0?. - Q. 03 o -03 4712.60 (AR IV > ? CAKI
|
||
4175 0 C CAKI 0.04 0.04 0.05 0.05 A 16.90
|
||
4186.60 III 1 C CAKI 0.20 0.2 0 0.25 0.25 AW70 9.40
|
||
4195.90 III _1 C CAKI . 0.08 Q. 08 —Qj lfl_ o.io —LA 10.46
|
||
4199.80 HE II C CAKI 1.33 1.33 1.68 1.68 1 L MA 16, OOX 16.90X
|
||
4227.40 ( FE V ) C CAKI 0.21 0.21 0.26 0.26 l MW MA 16. OOX 16.90X
|
||
C CAKI Q » 05 .. 0.05 0« 06 0.06 . 4712.60 HF I _2 C CAKI 5., M 5.32
|
||
4237.50 I I 1 C CAKI 0.05 0.06 16.90
|
||
4241.20 I I 2 C CAKI 0.03 0.04 AW7 0 9.40
|
||
4241.20 N LL_ 2 C CAKI _LA 10.46
|
||
4267.20 C I I . 1 C CAKI 0.38 0.38 0.47 0.47 4724.00 (NE IV ) l C CAKI 1.29
|
||
4311.50 0 I I 1 C CAKI 0.03 0.03 0.04 0.04 1 AW70 1.79
|
||
4314.10 C I I _1 C CAKI _ 0.03 0.03 . -0.04 0.04 4740.QQ (AR IV 1 J C CAKI 7.B4
|
||
4317.30 C I I C CAKI 0. 03 0.04 16. 16.72
|
||
4317.30 II C CAKI 0.03 0.04 AW70 7. 8. 10 7.42 8.46
|
||
C CAKI— _LA SL 8-10 10-13 8.46
|
||
4319.50 0 I I 1 C CAKi 0.03 0.03 0.04 0.04 l MW MA 50 X 15.15X
|
||
4340.00 H I l C CAKi 2 8.80 41.27 34.72 49.74 4804 (FE VI ) 1 WYSE 00 A 2.04 A
|
||
_1 A 49.74 4848 J W*S£_ -00 A. .0?.
|
||
48.50X 58.46X 4851 (FE VI ) 1 WYSE 3. oo A 3.01 A
|
||
1 CAKI 48.50X 58.46X 4854 l WYSE 4. oo A 4.01 A
|
||
2 C. A K 1— 4861 -30 tí L J C. C.AKI inn. no ï nn.nn 100.00 100.00
|
||
1 3 CAKI 48.50X 58.46X 1 100. 00 100.00 100.00 100.00
|
||
l 4 CAKI 48.50X 58.46X 1 100. OOX 100.OOX
|
||
_J LA 43.00 -51.83 1 Fl i on- 00 1 00.00 inn.nn inn.nn
|
||
L MA 52.OOX 62.68X l F2 RP. 100. 00 100.00 100.00 100.00
|
||
VV5 50.OOX 60.27 X 1 F3 BR 100. 00 100.00 100.00 100.00
|
||
C CAKI 0. OA 1 SI BR 100. HO 1 00.00 inn.no 100.00
|
||
4363.00 (O III) C CAKI 18.00 26.42 21.52 31.60 1 KA2 100. 00 100.00 100.00 100.00
|
||
A 29.00 26.42 34.68 31.60 l LA 100, 00 100.00 100.00 100.00
|
||
AN 25.4QX. 30.37X _LJ 61A 100. HÛJÉ 1 QQ. OOX ^
|
||
CAKI 24.OOX 28.70X 0D63 100. 100.00 100.00 100.00
|
||
CAKI 19.OOX 22.72X VV5 100. 100.00 100.00 100.00
|
||
CAKI 28.OOX 33.48X WYSE 100. 100.00
|
||
CAKI 24.OOX 28.70X 4910 WYSE 4. 3.94
|
||
LA 25. 70 30.73 4921.90 HE I C CAKI 0. 0.66 0.36 0.65
|
||
MA 29.OOX 34.68X AW7Q £L Q.66 0.93 0-65
|
||
SM 0.65* 0.78* 1 WYSE 3.93 A
|
||
VV5 33.00 26.42 39.46 31.60 4930.60 (0 III 1 1 C CAKI 0.33 0.15 0.33
|
||
43 Z9,JJ2__ c C CAKI 0.32 Q. 32 0.38 Q .38 J AH7Q Q. 33 0.51 0.33
|
||
4384.10 N I I l C CAKI 0.06 0.06 0.07 0.07 A W70 .25 0.24
|
||
4387.90 HE I 1 C CAKI 0.29 0.2 9 0.34 0.34 WYSE .00 A 3.90 A
|
||
4jtl4, 70 . JL C CAKI 0.02 0.02 Q.Q2 4943 _J2 LL HYSE .00 A 3.90 A
|
||
4417.10 n 11 C CAKI 0.05 0.05 0.06 0.06 4959.00 (O III » 509. 00 529.25 494.10 513.76
|
||
4421.00 NE I I C CAKI 0.02 0.02 0.02 0.02 750. 00 529.25 728.05 513.76
|
||
443 5 C CAKI Q. 05 0.05 0.06 0.06 AN 488. OOX 473.72X
|
||
4446.00 NF I I l C CAKI 0.06 0.06 0.07 0.07 l Fl BR 473. 30 529.25 459.45 513.76
|
||
4452.60 n 11 l C CAKI 0. U 0. Il 0. 13 0.13 l F3 584. 46 529.25 567.35 513.76
|
||
4471.70 -HE I _1 C CAKI 3.10 3.10 -1*. 3.58 1 SI BP 456. OÙ 529.25 442.65 513.76
|
||
2. 70 3. il KA2 505. 00 529.25 490.22 513.76
|
||
AN 11.OOX 12.69X LA 427, 00 529.25 414.50 513.76
|
||
LA - 3.50 3.10 4.04 3.58 VV5 2460. HO— 2387.99
|
||
1 L MA 2.70X 3.11 X l WYSE 370. 00 A 359.17 A
|
||
l MW MA 4.20 X 4.84X 4959 (O II 1 1 F2 BR 511. 60 511.60 496.62 496.62
|
||
4511.50 N LLL 4 C CAKI 0.24 -0.27 4972 (FE VI ) 1 A W7 0 Oj 14 Ot 14 5L14 Q. 14-
|
||
4511.50 NE I I C CAKI 0.24 0.27 4994 (S VII) WYSE 4. 00 A 3. 84
|
||
4511.50 NF II C CAKI 0.24 0.27 4994 N II WYSE 4. 00 A 3. 84 A
|
||
4511.50 LK IV ) C CA KL 0.24- 0.27 5007.00 (G III) C CAKI 1502. -QQ 1337.00 1436. M 1278.82
|
||
4515.90 III C CAKI 0.15 0. 17 l SI BR 1012. 00 1337.00 967, 1278.82
|
||
4515.90 C III C CAKI 0. 15 0. 17 1 LA 1320. 00 1337.00 1262. 1278.82
|
||
4515.90 C III C CAKI 0*li> 0. 17 _J QD63 1514. OÙ 1337.00 1448. 1278.82
|
||
4519 C CAKI 0. 18 0.1 8 0.20 0.20 SM 100. 95, 65*
|
||
4522.80 I I I 1 C CAKI 0.08 0.08 0.09 0.09 VV5 2460. 2352, 95
|
||
4534.8.0. III _1 C CAKI 0.06 0.06 0.07 0.07 WYSE 1170. QQ A 1119.09. A
|
||
4541.00 HP II 3. 10 3.23 3.49 3.64 5015.70 HE I 1 C CAKI 0.53 0.51
|
||
3.00 3.23 3.38 3.64 1 AW70 0.53 0.51
|
||
LA 3.60 -L23- 4.05 -L.64 5Q4L- SI II- _l A W70 0.12 0.11
|
||
1 L 3.OOX 3.38 X 5047 HF I AW70 .09 0.09 .08
|
||
1 MW MA 2.20X 2.48X WYSE .00 A .71 A
|
||
4562 0 C CAKI 0.08 0.08- -0.09 -Q..Q9 .. 5-056 SI II AH7Q ±0h 0.06 .06
|
||
4571.20 ( MG I ) C CAKI 0. 17 0.17 0. 19 0.19 5074 N II WYSE 00 A 74 A
|
||
4607.00 (FF III) C CAKI 0.69 0.69 0.76 0.76 5092 A W70 ,10 0.10 09 0.09
|
||
462 C C CAKI Q. 05 0.05 0.05 0-05 5131 AW70 -22 0.22 20 Q.2Q
|
||
4626.00 I I l C CAKI 0.07 0.07 0.08 0.08 WYSE .00 A 67 A
|
||
4635.20 III l C CAKI 8.39 5.73 9. 12 6.23 5145 (FE VI ) 1 AW70 .14 0.14 13
|
||
_2_ 10.00 -10.87 5153 WYSF -on a A
|
||
AW70 3.08 3.35 6.23 5158 (FE VIII 1 A W70 .17 0.17 15
|
||
LA 12.40 13.47 5168 WYSE .00 A 62 A
|
||
NGC 2440 (PK NO. 234+ 2 1) NGC 2440 (PK NO. 234+ 2 1)
|
||
|
||
538
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
-NGC -2MQ (PK..NQ^.234±-¿ 11 - NGC—2.440 ( RK -Nn^..?14t ? H
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
5176 (FE VI 1 AW70 0.18 0.18 0. 16 0.16 6363 (01)1 S BR 9.90* 6,49*
|
||
WYSE 5.00 A 4.52 A WYSE 30.00 A 19.67 A
|
||
5186 WYSE 5.00 A 4.50 A 6364 MW MA 16.00 16.00 10.49
|
||
5191 AW70 0.46 0.46 0.41 0.41 6403 WYSE 3* 00 A -U9§_
|
||
5192 3 WYSE 5.00 A 4.49 A 6435 (AR V ) 1 00 A 6.46 A
|
||
5198 (N I ) 1 A W70 7.50 24.31 6.73 21.81 6498 1 40* 6.63*
|
||
24.3 L- 17.40 _gR_ 30* 3.38*
|
||
1l Fl BR
|
||
F2 BR -61.
|
||
19.40 IQ 24.31 _54l £û_ ¿1.81
|
||
21.81 6501 WYSE ,00 A 1.91 A
|
||
l F3 BR 9.26 24.31 8.30 21.81 6548 (N II ) 1 Fl 8R 1057 50 748.60 666.48 471.80
|
||
_J WYSE.. 3Q.QQ-A-, 26.90 A F 2 BR 411 40 748.60 259.28 471.80
|
||
5200 AW70 5.90 5.29 F3 BR 321. 50 202.62 471.80
|
||
5207 WYSE 3.00 A 2.68 A PE BR 2182. 00* 1375.18*
|
||
- 5212 WYSE 3.00 A .68 A S BR -43-L.6Q* 2L2.QI*-.
|
||
5232 (FE VI ) l WYSE 3.00 A 2.66 A SI BR 1204. 00 748.60 758.81
|
||
5236 AW70 0.07 0.06 W 0, 76* 0.48*
|
||
5252 WYSE . 3.QQ-A .6? A WYSE 23Q.QQ A - 14jt.95—A
|
||
5270 (FE III) AW70 0. 10 0.10 0.09 0.09 6563 FI BR 546. 00 554.07 342.95 348.02
|
||
5277 (FE VII ) AW70 0.07 0.07 0.06 0.06 F 2 BR 410. 00 554.07 257.53 348.02
|
||
5278 (FE VI ) WYSE 3.00 A 2.62 A F 3 BR -340*30 554.07 20.75 . 348.02
|
||
5278 WYSE 3.00 A 2.62 A PE BR 2182. 00* 1370.55*
|
||
5286 WYSE 3.00 A 2.62 A S BR 309. 90* 194.65*
|
||
53Q3 WYSE . 2*00 -A... 1.74 A SI BR 920. 00 554.07 -.517.87 3.48.02
|
||
5309 (CA V ) AW70 0. 13 0. 11 CAM 1. 00* 0.63*
|
||
5323 (CL IV ) AW70 0.20 A 0.17 A VV5 2515. 00 A 1579.72 A
|
||
53.87 WYSE . 1.00 A 0.85 A 1.00* 0.63*
|
||
1 AW70 7.70 6.48 WYSE 270. 169.59 A
|
||
1 F3 BR 3.00 A 2.52 6563 (N II ) 2 VV5 2515. 1579.72 A
|
||
i-Si 36.QQ 18.23 30.27 15.33 6583 _LN II ) 3 PE BR 2182.00* -136.4.41*
|
||
1 MW MA 11.00 9.25 SI BR .00 2758.00 1724.58 17
|
||
WYSE 25.00 A 21.02 A CAM .90* 2.44*
|
||
5426 (FE VI_L J WYSE 4. on A .35 A ..30* -2.06*
|
||
(CL III) 1 AE2 0.74* 0. WYSE 810. 00 A 506.49 A
|
||
1 AW70 1.05 0.86 6614 WYSE 6. 00 A 3.73 A
|
||
_L_ WYSF 4. QQ A -3-.26— 6678 £ BSJ 3LÜ. -4jQ4 1 8.65*
|
||
(CL III) 1 A AE2 1.00* 0.81* S BR 11. 7. 13*
|
||
AW7 0 1.15 0.93 MW MA 12. 12.00 7. 36
|
||
WYSF 4-00 A 3.24 A HYSF 4.91 A
|
||
5563 1 WYSE 4.00 A 3.21 A 6713 ( S- II ) 2 MW MA .70 26.01
|
||
5577 1 Fi BR 40.60 26.12 32.48 20.90 6717 ( S II ) 1 8 AE2 . 66* 0.40*
|
||
1 -F2 BR 23*40 74. 1 2 1 8. 72 70.QQ 170.69*
|
||
1 F3 BR 22.90 26.12 18.32 20.90 FI BR 122, 97.60 74. 51 59.41
|
||
l SI BR 17.60 26.12 14.08 20.90 F2 BR 45. 97.60 27.94 59.41
|
||
-J WYSE JL- JL3- Bfi- 22. 58 59.41
|
||
5592 □ IV A W70 0.24 0. 19 PE BR 57, 00* 34.70*
|
||
5592 0 III WYSE 5.00 A 3.98 A S BR 73. 00* 44.44*
|
||
5604 IK VI ) WYSE 4.00 A 3. 17 A 11-2. 62
|
||
5634 WYSE 5.00 A 3.94 A 6723 ( S 11)1 WYSE 12. 00 A 7.30 A
|
||
5702 WYSE 4.00 A 3.10 A 6730 ( S II ) l A E2 1. CO* 0.61*
|
||
-573-4- WYSE 4.00 A 1_ _U_SL JOt. 191.69*
|
||
1 A W70 28.00 21.37 FI BR 121. 40 86.08 73. 71 52.27
|
||
l F BR 24.90* 19.00* F2 BR 54. 53 86.08 33.11 52.27
|
||
1 -Fl B-R 26.70— -E3 Rfi- 1-SU67- 52*7 7-
|
||
l F2 BR 11. 90 23.35 9.08 17.82 PF BR 57. 00* 34.61*
|
||
1 F3 BR 10. 10 23.35 7.71 17.82 S BR 56. 40* 34.25*
|
||
_i s añ- 12. 90*. 9.85* S.1 BB- 136. -00 R6.08 . . a2.-58
|
||
SI BR 37.40 23.35 28.54 17.82 MW MA .70 25. 93
|
||
MW MA 28. 00 23.35 21.37 17.82 6827 F BR .00* 11.92*
|
||
WYSE 50.00 A 38.16 A BR .00* 10.13*
|
||
AW70 21.00 15.54 6835 BR .60* 5.72*
|
||
F BR 23.30* 17.24* BR .60* 6.91*
|
||
FI BR ¿3.J-2Q 11*7.2 , 12*16_ 13.11 -Efi- *3.0 *— 9.66*
|
||
l F2 BR 13. 50 17.72 9.99 13.11 S 27, 50* 16.29*
|
||
1 F 3 BR 9.91 17.72 7.33 13.11 F 19. 20* 11.20*
|
||
1 PE BR 18.40* 13.61» _s aß_ —36-1 20* 21.11*
|
||
1 S BR 11.70* 8.66* F RR 80*A 4. 52*A
|
||
l SI BR 24.00 A 17.76 S BR , 80*A 8.00+A
|
||
1 MW MA 21.00 17.72 ..ll*5fr- 13.11 7065 f l3_P* -13... 87*
|
||
WYSE 3 0.00 A 22.20 A ( AR III) 1 F BR 42, 00* 23.68*
|
||
5885 WYSE 4.00 A 2.95 A PE BR 60, 00* 33.83*
|
||
589<t WYSE 5.00 A. ¿. 95. A
|
||
6041 WYSE 3.00 A 2. 13 REGION KEY (PEG I ON,REFERENCE,EX PLANAT ION )
|
||
6101 WYSE 3.00 A 2. 10 A. AE2 . REGIONS A ANO B ON DIFFERENT SCALES
|
||
6170 WYSE 3.00 A 2.06 F. BP . EXTREME SW TIP NEAR FI
|
||
6232 (K VI ) 1 WYSE 2.00 A 1.35 A FI, FILAMENT AT SOUTHWEST TIP
|
||
6234 HE T I 1 F BR 5.10* 3.45* F2, FILAMENT AT 5 ARCSEC EAST OF Fi
|
||
1 F 3 BR 5.02 3.39 L4.23 F 3, FILAMENT AT 10 ARCSEC EAST OF FI
|
||
8.20* 5.54* PE, BR , PHOTOELECTRIC (FROM ALLER AND CZYZAK 1972, UNPUB.)
|
||
1 SI BR 37. 10 25.07 S, BR , INTERFILAMENT NEAR SI
|
||
1 F BR 4.30* 2.89* SI. BR . INTEPFILAMENT 20 ARCSEC EAST OF FI
|
||
6259 1 3.00 A 2.01 A 1, CAK1, 14 ARCSEC NORTHEAST OF CENTER
|
||
6286 S 11 l F 3.90* 2.60* 2, CAK1, 14 ARCSEC SOUTHWEST OF CENTER
|
||
63QQ _LQ I _L_£ &£_ 252.50* 161.07* 3, CAK1, 19 ARCSEC NORTHEAST OF CENTER
|
||
1 FI BR 56.40 37.48 37.58 25.91 5, CAKl, 19 ARCSEC SOUTHWEST OF CENTER
|
||
1 F2 BR 19.22 37.48 12.77 25.91 C, CAKl, CFNTFR
|
||
1 F3 BR 15.30 37.59 10. 17 25.91 l. MA . LICK OBSERVATIONS
|
||
1 PE BR 56.00* 30.57* MOUNT WILSON OBSERVATIONS
|
||
1 S BR 38.50* 25.52*
|
||
_1 LL BB- 58..50 3 7.58 . 32.23 25-91 END NGC 2440 (PK NO. 235+ 2 1)
|
||
1 CAM 0. 12* 0.08*
|
||
1 MW MA 58.00 31.90
|
||
-J WYSE 7Q.-QQ A. 56.51
|
||
(S III) I F BR 7.50* 5.97* BEGIN NGC 2552 (PK NO. 243 -1 1 ) C = 0.77 (RADI0—H BETA)
|
||
1 S BR 2•00*A 1•33*A
|
||
_L WYSE 12.00 A .96 A -HAV.E IDENT N RG REF -081 I -AVE Q CQRR I -AYE C .
|
||
6331 I WYSE 3.00 A 1.98 TIT 1 C AKI 44.00 60.50 100.54 138.24
|
||
6347 SI I I I F BR 5. 10* 3.36* I E AKI 77.00 60.50 175.95 138.24
|
||
-6357 -h Li— _i—E aB_ -3iEQ.*_ 2.49* 3203 HE II 1 C AKI -31.00 26.50 68.48 58.54
|
||
l F BR 50.80* 33.31* 1 E AKI 22.00 26.50 48.60 58.54
|
||
l FI BR 25.20 16.52 3312 III 1 C AKT 10.00 A 20.74 A
|
||
1 F 2 BR 5.27 A 3_. 56 A -JL E AKI -1.5 .-QQ A 29.^03 A
|
||
1 F3 BR 3.50 A 2.29 A C 7.00 14.30 A
|
||
l PE BR 15.80* 9.70* E AKI 15.00 28.60
|
||
NGC 2440 (PK NO. 234+ 2 1) NGC 2452 (PK NO. 243
|
||
|
||
539
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 2452 tPK NQ«.. 243_-J—Ll._ REGIN NGf 2474 CPK NO. 164+31 II Q.1Q Í DUST MODEL 1
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS AVE 0 CORR I AVE C
|
||
. (NE-.V L 1 C am 20» QQ 14.50 ■40. 76 . ¿9^55- 3868 (NE im I KA2 110-00 11.0.00- iifrtia _116.J2
|
||
E AKI 9.00 14.50 18.34 29.55 4686 l KA2 21.00 21.00 21.22 21.22
|
||
(NE V ) C AKI 40.00 38.50 78.22 75.29 4861 1 CLZ2 100.00 100.00 100.00 100.00
|
||
E AKI 3 7. 00 38.50 72.35 75^9_. -J B DQK 100.00 10Q.QQ. 100.QQ .100 >00
|
||
3428 0 III C AKI 3.00 3.00 5.86 5.86 KA2 100.00 100.00 100.00 100.00
|
||
E AKI 3.00 3.00 5.86 5.86 (0 III) DDK 270.00 236.00 268.69 234.85
|
||
3444 0 III C AKI 20.00 24.00 38.76 46.51 KA2 202.00 236.00 201,02 234.85
|
||
1 E AKI 28.00 24.00 54.26 46.51 4991 (0 I II ) l CLZ2 750.00 750.00 745.17 745.17
|
||
3691 H I 1 E AKI 1.30 1.30 2.25 2.25 5007 (0 I II) l DQK 72 0.00 720.00 714.76 714.76
|
||
363.7 _ü I_ _J C AKI .80 2.QG . 1.38 3.45 6548 (N II ) I DQK 0.76* 0.70»
|
||
E AKI 3.20 5.51 CLZ 2 285.00 285.00 264.08 264.08
|
||
2 C AKI 1.70 2.92 l A DQK 1.00* 0.93*
|
||
_2 E AKI -3t2iL 5-t.39.. . 6-5-15 _LN Il J 1 CU2 7QQ.QQ- 700.00 648.33 648.33
|
||
HE I 2 C AKI 1.70 2.92 6584 (N 11)1 A DQK 2.43* 2.25*
|
||
2 E AKI 3.20 5.49 6717 ( S 11)1 A DQK 0.22* 0.20*
|
||
3712 _H I_ 1 C AKI 1. 10 2.4Q 4*10..- ■ 6731 _LS II J l A DQK 0. 17* 0.16*
|
||
E AKI 3.70 6.33
|
||
Z12Z C AKI 4. 70 8.00 REGION KEY (REG ION.REFERENCE,EXPLANAT ION)
|
||
F AKI 6.00 10.21 A. DQK . MEAN OF 19 MEASUREMENTS. BOTH LOBES
|
||
3722 ( S II) 2 E AKI 6.00 10.21 B, DOK , MEAN OF 5 MEASUREMENTS, SOUTH LOBE
|
||
3722 <S III) 2 C AKI 4. 70 8.00
|
||
3726 _LC LI L 1 E AKI ¿3..QG- 90.01 . END NGC 2474 ! PK NQ. 164t31 11
|
||
3726 (0 III) 1 C AKI 44.00 74.73
|
||
3729 (G II) 1 E AKI 44.00 74.61
|
||
3..IZ9 __LQ ILL) 1 C AK I _ 34.00 57.66
|
||
H I l C AKI 3. 10 4.00 5.24 6.77 BEGIN NGC 2610 (PK NO. 239+13 l) = 0.41 (RAO 10—H BETA)
|
||
l E AKI 4.90 4.00 8.29 6.77
|
||
37 50 _b I_ 1 T AKI -3.70- -4.20 6.21 X.05- WAVE IDFNT N RG REF ■AVE .P CORK , I A^i
|
||
AKI 4.70 4.20 7.89 7.05 II ) l KA2 30.00 A 39.76 A
|
||
l C AKI 1.80 1.90 3.01 3.18 1 VV5 2.60* 3.45*
|
||
_J F AKI- 2 - 00 1.9Q 3-35 3>lfl - (NE IIP 1 KA2 - 28.00 35.71 35.71
|
||
P III C AKI 4.90 4.80 8. 19 8.02 3967 (NE III) VV5 3.80* .73*
|
||
E AKI 4.70 4.80 7.85 8.02 3970 2 VV 5 3. 80* 4.72*
|
||
H T C AK I _5. LQ_ _ 5.32 8.47 EL.BQ.- 4340 2 W5_ ■3.20* 3.63*-
|
||
F AKI 5.50 5.30 9. 13 8.80 (0 III) l KA2 9.00 A 10.15 A
|
||
C AKI 5.70 7.10 9.35 11.64 2 VV5 3.20* 3.61*
|
||
E.-A-K .1— _8.50- - 7.1-0 - 13.-94 11-.64— NF T 1 VV5 J.flOL* 1.98*
|
||
3819 HE T F AKI 2.00 2.00 3.24 3.24 KA2 95.00 95.00 99.18
|
||
3835 H I C AKI 7.70 8.30 12.37 13.34 VV5 10.00* 10.44*
|
||
E AK 1 - 8.90. B. 30 14.30 1 3.34
|
||
3868 (NE III) 1 C AKI 56.00 5 5.00 88.42 86.84 1 0063 100.00 100.00 100.00 100.00
|
||
1 E AKI 54.00 55.00 85.26 86.84 (0 III) 1 KA2 170.00 170.00 166.64 166.64
|
||
H I 2 15.90 - 24_83 ■ C A-K T -
|
||
E AKI 16.00 24.98 (0 III) 1 0D63 407.40 407.40 395.37
|
||
C AKI 15.90 24.83 2 VV5 31.00* 30.08*
|
||
A-K. ! - 16. 00 24.98
|
||
3967 (NE III) E AKI 28.00 28.00 42.19 42.19 NGC 2610 (PK NO. 239+13 1)
|
||
3970 H I E AKI 16.00 16.00 24.08 24.08
|
||
4026 HE I f. AKI ?- 4n 3.5?
|
||
1 E AKI 2.50 2.45 3.66 3.59
|
||
l C AKI 3.10 4. 10 4.45 5.89 BEGIN NGC 2792 IPK NO. 265+ 4 1) 0.69 (RADIO—H BETA)
|
||
-J F AKT -5..ÍQ. Z—3? .
|
||
4076 ( S II) l C AKI 2. 10 2.3 0 3.00 3.29 WAVE IDENT N OBS I CORR
|
||
1 E AKI 2.50 2.30 3. 57 3.29 3727 (0 II ) l 26.00 41.77
|
||
4097 N UU_ J C—AK 1 _ 1.80 . 1« B.Q 2 >55 2.55 . 3 868 (NE ILL) J_ h 1 -00 91.85
|
||
AKI 1.80 1.80 2.55 2.55 3970 27.00 38.94
|
||
4101 H I AKI 23. 10 22.55 32.63 31.85 3970 (NE III) 27.00 38.94
|
||
AKI 22.00 22.55 31.07 31.85 4101 H I AF 22.00 29.98
|
||
4200 HE I I AKI 3.00 2.55 4.04 3.43 4340 H I AF 51.00 63.00
|
||
AKI 2. 10 2.55 2.83 3.43 4363 (0 III) 51.00 62.43
|
||
4340 H I AKI 39.60 -39.JLÎ.Q 50.13 49.75 4471 HE I AF -8.QG- 93.50, 8.QQ 9.40
|
||
39.00 39.30 49.37 49.75 4686 87.00 93.54 100.53
|
||
4363 ( C I 11 ) 1 C AK I 15.00 15.00 18. 80 18.80 100.00 93.50 107.52 100.53
|
||
15.011 15.00 18.80 18.80 4712 (AR IV ) 2 14.00 14*J9
|
||
HF I 1 C AK I 2.40 3.45 2.87 4.13 4740 (AR IV ) 2 AF 14.00 14. 71
|
||
1 F AKI 4. 50 3.45 5.39 4.13 4861 I 1 AF 100.00 100.00 100.00 100.00
|
||
45.41 HE II _1 C AM— 1 » 70. 2.35 1*97 WB 100.00 100.00 100.00 100.00
|
||
E AKI 3. 00 2.35 3.48 2.73 4959 (0 I 11) l 400.00 400.00 386.78 386.78
|
||
C AKI 2.70 2.50 3.00 2.78 5007 (0 I II ) 1 1220.00 1220.00 1159.98 1159.98
|
||
E AKI 2.30 2.50 2.55 2.78
|
||
N III 1 C AKI 3.70 3.95 4. 10 4.37 NGC 2792 (PK NO. 265+ 4 1)
|
||
1 E AKI 4.20 3.95 4.65 4.37
|
||
4686 HE II _L C AKI 58. QG ...52>30 62.89 5ÍL.92-
|
||
1 E AKI 47.00 50.96 56.92
|
||
2 C AKI 7.00 7.50 BEGIN NGC 2818 (PK NO. 261+ 81) C = 0.25 (RADIO-H BETA)
|
||
2 E AKI , 30 8*89
|
||
4713 HE I 2 C AK I 7.00 7.49 WAVE N RG REF OBS I AVE O CORR I AVE C
|
||
2 E AKI 8.30 8.89 4340 l J 45.00 45.00 48.58 48.58
|
||
4740 (AR TV ) .1 C. AKI.. 5.2Q 5.80 5.50 6.13 4363 _LQ III) 1 3Q.QÜ . 30. QQ 32.28 37.
|
||
AKI 6.40 5.80 6. 76 6.13 4686 J 78.00 78.00 80.08 80.08
|
||
C AKI 100.00 100.00 100.00 100.00 4861 J 100.00 100.00 100.00 100.00
|
||
E AKI 100.00 100.00 100.00 . I o.Q.t..O-0— QD63- 100.00 .JJJQtG-O 100.00 100.00
|
||
1 PE AKI 100.00 100.00 100.00 100.00 4959 (0 III) J 265.00 265.00 261.79 261.79
|
||
1 0D6 3 100.00 100.00 100.00 100.00 5007 (0 III) J 617.00 896.00 605.83 879.77
|
||
49.59 _LQ IIP _l C-AKJ 356.00 374.00 -342*90 36Q.*23 —QP63- 1175.00 896.00 1153*72 879.71-
|
||
F AKI 356.00 374.00 342.90 360.23 6548 (N II ) 3 483.00 399.74
|
||
PE AKI 410.00 374.00 394.91 360.23 6563 483.00 399.19
|
||
■-5ÜQZ- _LQ LLLL 1 PF AKI 1213.00 1236.00 1146.60 L 168.34 6583 (N II ) 3 483.00 -39.8a.45—
|
||
l 0D63 1259.00 1 1190.09 1 6717 (S I ) 2 126.00 102.81
|
||
5517 (CL III) 1 A AE2 1.50*A 1. 16*A 6731 (S II ) 2 126.00 102.69
|
||
5537 -ILL LLP J A—AE2 1.QQ* (L>2Z*
|
||
6717 ( S I I ) 1 B AE2 0.63* 0.34* NGC 2818 (PK NO. 261+
|
||
6730 (S I ) B AE2 1.00* 0. 53*
|
||
REGION KEY (REG ION,REFERENCE,EXPLANATION)
|
||
A, AE? , REGIONS A AND B ON DIFFERENT SCALES BEGIN NGC 2867 (PK NO. 278 -5 1) 0.44 (RADIO-H BETA)
|
||
C « —A KI a CENTER DF NEBULA
|
||
AKI EDGE OF NEBULA WAVE IDENT N RG REF OBS I CORR I
|
||
PE, AKI PHOTOELECTRIC CBSERVATIONS 3727 (0 II ) 1 AF 86.00 116.36
|
||
3797 1 AJE 4aOQ_ 5_.31
|
||
NGC 2452 (PK NO. 243 -1 1) 3835 AF 6.00 6.00 7.87 7.87
|
||
3868 (NE III) l AF 96.00 96.00 124.63 124.63
|
||
NGC 2867 (PK NO. 278 -5 1)
|
||
|
||
540
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 2 867 (PK NQ.-278 -5 1) NGC 3132 (PK NO. 272*12 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I REGION KEY (PEG I ON,REFERENCE» EX PLANATION)
|
||
-3-97 Q_ _2 A£ 31.QO 39.. I5_ C. AKI , CENTER OF NEBULA
|
||
3970 (NE III) 31.00 39. 15 E, AKI , FDGE OF NEBULA
|
||
4026 HE I 2.00 2.00 2.49 2.49
|
||
-4J.6.8— _LS LL -L A-E_- 4.00 4.00 4. 92 - -4.92- END NGC 3132 ( PK NQ. 11Z±XZ 1)
|
||
4101 AF 24.00 24.00 29.23 29.23
|
||
4340 AF 41.00 41.00 46.91 46.91
|
||
4363 _LQ III) 1 Af LQj»-QQ— 1 0-00 .11-^.8 - 11.38—
|
||
4471 HE I AF 4.00 4.00 4.43 4.43 BEGIN NGC 3195 (PK NO. 296-20 1) 0.09 (RADIO-H BETA)
|
||
4541 HE II AF 3.50 3.50 3.81 3.81
|
||
4686 HE II -Af 32.QQ_ 36.85 33.51 38. SO AVE O CORR I AVE C
|
||
1 WB 41.70 43.67 3727 (O II ) AF 270.00 287.23
|
||
4712 (AR IV ) 2 AF 4.00 4.16 3868 (NE III) AF 68.00 71.73
|
||
4740 (AR IV ) 2 AF 4. 00 4.13 3-970- (NE J H L.2- Af— 20.00 20 .-98
|
||
AF 100.00 100.00 100.00 100.00 3970 H I AF 20.00 20.98
|
||
WB 100.00 1 CO.00 100.00 100.00 4101 H I AF 29.00 29.00 30. 19 30.19
|
||
.4959 -JLÜ HI) _A£_ 480.00 480.00 469.82 469.82 4340 H T 1 AF 35-.-QQ. 35.QQ 35.98 35.98
|
||
( 0 I II ) 1 1470.00 1470.00 1423.47 1423.47 4363 (0 III) 5.00 5.00 5. 13 5.13
|
||
4686 HE II 20.00 20.00 20. 19 20.19
|
||
NGC 2 867 (PK NO. 278 -5 1) 4861 H I_ 100.00. 1-00.00 1 no.on
|
||
1 WB 100.00 100.00 100.00 100.00
|
||
4959 (0 III) 1 AF 176.00 176.00 175.23 175.23
|
||
5007 LO III ) _1 A£_ 550.00 541.00 546.39 SB7.17
|
||
BEGIN NGC 2899 (PK NO. 277 -31) C = 0.74 (RADIO-H BETA) 627.86 587.12
|
||
IDENT N RG REF OBS I END NGC 3195 tPK NO. 796-20 11
|
||
3425 ( NE V ) 1. 80 B 3.43B
|
||
3727 (0 II) RM 38. OOB 63.19B
|
||
.1068. JNE -III L RM QOB -29..46 B-
|
||
3889 I 50B 3.8 BEGIN NGC 3211 (PK NO. 286 -41) C = 0.34 (RADIO-H BETA)
|
||
3889 HE I RM 50B 3.84B
|
||
3-967. (NE III) —RM— 6QB— 11..27B I DENT. _.N RP—RE£ OBS ( AVF 0 CORR I AVF
|
||
3970 .60B 11.26B 3340 (NE V ) 2 32.00 43. 87
|
||
4101 . 50B 3.48B 3340 0 III 2 32.00 43.87
|
||
4340 . 60R —5.77B 3425 (NE V )—2_ —A F— _73-^Q Q _ 98- 16
|
||
4363 (0 III ) RM 30 A 2.86 A 3440 III 73. 00 97. 85
|
||
4686 HE I I RM 60B 4.97B 3727 (0 II) 32.00 40.42
|
||
4flS] 10.00 A ( NF T T T 1
|
||
WB 100, 00 100.00 100.00 3970 H I 2 29.00 34. 74
|
||
4959 (0 III) RM 35. OOB 33.76B 3970 (NE III) 2 29.00 34. 74
|
||
5006 _LQ_ -LULL 94.77 A
|
||
1050.00 1050.00 995.13 995.13 4340 AF 43.00 43.00 47. 72 47.72
|
||
5754 (N II) RM 2.70B 1.95B 4363 (C I I I ) 1 AF 17.00 17.00 18.78 18.78
|
||
SR7A HE I _ELM_ 2.4DB 1.66B 4640
|
||
6300 (P 3.05 l 75.00 65.25 77.73 67.62
|
||
6363 (C 0.0 R l 55.50 65.25 57.52 67.62
|
||
—LN II L- 1 (AR TV ) 2
|
||
6563 I 1 RM 72. OOB 40.96 B 4740 (AR IV ) 2 13.40 13.73
|
||
6584 II ) 1 RM 300. OOB 169.68B 4861 H I 1 100.00 1 00.00 100.00 100.00
|
||
621 7_ II 1. J RM LZ. OOB 6.57B 100.00 -l-QOUXQ -
|
||
6731 (S II » 1 RM 12.C 4959 (P 111)1 AF 530.00 530.00 521.30 521.30
|
||
5007' (0 I IT ) I AF 1650.00 1600.00 1609.49 1560.72
|
||
END NGC 2899 (PK NP. 277 -3 1) . H B... 155Q.QQ JLGCÛ^QQ- 1511.9-5 1-5 6 ÍU 72 -
|
||
NGC 3211 (PK NO. 286 -4 1)
|
||
BEGIN NGC 3132 (PK NO. 272+12 1) 0.25 (RADIO-H BETA)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE BEGIN NGC 3242 (PK NO. 261+32 1) C = 0.21 (RADIO-H BETA)
|
||
3726 (0 II ) 1 AF 420.00 498.80
|
||
1 AKI 100. 00 118.76 WAVE IDFNT N RG REE OBS I AVE 0 CORR I AVE
|
||
3729 _LQ U ). I A Kl— 100« QQ. 118.71 3132 «9. Q O I I T CAKE 2.30 2.88 45.29
|
||
3734 I l AK I 4.00 4.00 4.74 4.74 1 BR A 70.00 36. 15 87.70 45.29
|
||
3750 H I l AK I 6.00 6. 00 7. 10 7.10 3187.80 HE I 1 CAKE 3.30 3.30 4. 10 4.10
|
||
3771 —H I— _1 AK1 .00 7.00 8 .-25 8-.Z5 - -3203«10- HE II -1 CA KF 8.30 14.15 -LQ.3Û 17.56
|
||
3797 H I AK I 8.00 8.00 9.39 9.39 1 BP A 20.00 14.1 5 24. 83 17.56
|
||
3819 HE I AK I 3.00 3.00 3.51 3.51 3211 0 CAKE 0.30 0.30 0.37 0.37
|
||
3835 10.00 10.00 . 11 t_fe6 -lU.fr.6_ 3218..QQ _Q LL_ _1 0.30 0.37
|
||
(NF III) _1l A Kl.
|
||
AF 160.00 1 16.00 185.58 134.54 3234.00 S T11 1
|
||
CA KJ
|
||
CAKE
|
||
QjlOQ—
|
||
0.40 0.40 0.49
|
||
0^37
|
||
0.49
|
||
1 AK I 72. 00 1 16.00 83.51 134.54 3241.70 (NA IV ) l CAKE 0. 30 0.3 0 0.37 0.37
|
||
3889 2 AK I 25.00 28.89 3261.00 O III 1 CAKE O* 40 . _a..4Q_ 0.4.9 0.49
|
||
3889 HE I 2 AKI 25. 00 28.89 3265.40 O III 1 CAKE 0.40 0.40 0.49 0.49
|
||
3967 (NE III) 1 AK I 30.00 34.27 3287.00 O II l CAKE 0.20 0.20 0. 24 0.24
|
||
3.9 7Q _ H I 2 40.00 45.68 3299.30 Q LLL_ _lAF— CAKJ— 5.50 5.50 -6.12 6.72
|
||
18.00 20.55 3312.30 0 III l CAKE 10.80 I C.90 13. 18 13.30
|
||
3970 (NE III) 40.00 45.68 l BR A 11.00 10.90 13.42 13.30
|
||
4026 HE I AK I U-8-Q- 4.80. 5.43 U-43 . 3340.-80 Q LUL J C A KJ 14.40 14.40 -17.50 -17 UQ
|
||
(S II ) 1 8.00 7. 15 9.00 8.04 3345.90 (NF V ) 1 CAKF 0.0 0. 0
|
||
1 AK I 6.30 7.15 7.08 8.04 2 BR A 16. 00 19.43
|
||
(S II ) 1 AKI 4. 50 4.50 5.05 5.05 3346 _0 LU— 2 BP A -16.QQ 19.43
|
||
l AF 23.00 24.50 25.73 27.41 3355.00 HE l 2 CAKE 0.20 0.24
|
||
1 AK I 26.00 24.50 29.08 27.41 3355.00 NE II 2 CAKF 0.20 0.24
|
||
. .41.40. __ü I_ _J AJE— 33.00 . 36.50 35.63 39.40 _ 34.05.1Æ. JQ L1I_ _1 CAK-E— -Q.-3Q -0.30 Q. 36 0.36
|
||
1 AK I 40. 00 36.50 43. 18 39.40 3410.00 2 CAKF 0.20 0. 24
|
||
1 AF 5.00 5.75 5. 38 6.19 3410.00 0 IV 2 CAKF 0.20 0. 24
|
||
-L AK.I 6.50 _ 5.75_ 6.99 6.19 3415.20 Q— III CAKF -Q«¿0 0.77
|
||
4471 HE I AKI 5. 80 6. 15 3425.97 (NE V ) 1 CAKF 0.0 0.0
|
||
4541 HE II 1 AKI 2.00 A 2.10 A 2 BR A 5.50 6.60
|
||
4¿AQ - _N III J AKI 2.00 A 2.07 A JLOS— 31 .QQX 37.77 X
|
||
27.00 A 27.72 A 3425 III 2 BR A 5. 50 6.60
|
||
24. 00 24.64 24.64 3444.00 III I CAKF 0.0 I 6. 50 0.0 19.76
|
||
471 1 (AR IV ) 2 —Alt I— 5.11 1 BF—A. . 33.-QQ 16.50 39.52 -19U6
|
||
4713 HE 2 AKI 5.00 A 5.11 A KOS 31.00X 37.13X
|
||
4740 (AR IV ) 1 AKI 2.00 A 2.04 A 3530.60 HE 1 CAKF 0. 10 0.10 0. 12 0.12
|
||
4-861 - H I _1 AF -100.QQ 1QQ.QQ 100.00 3554.30 1 CAKF 0. 20 Q «24
|
||
l 100.00 100.00 100.00 100.00 3568.50 NF II CAKF 0. 10 Û.10 0. 12 0.12
|
||
1 100.00 100.00 100.00 100.00 3574.30 NE II CAKF 0. 10 0. 10 0. 12 0.12
|
||
_LQ III ) -L- 330.QQ 293.50. 326.« 01 -289^95 3587.30 CAKF 0.30 -0.35
|
||
257.00 293.50 253.89 289.95 3591.00 C II 1 CAKF 0. 10 0. 10 0. 12 0.12
|
||
1020.00 935.00 1001.53 918.07 3591.00 C II 1 CAKF 0. 10 0. 10 0.12 0.12
|
||
85Q.0Û - 935.00 834.6l1 91 8-.07 3600.00 HF T 1 CAKF 0. OR _Q..Q9 Q.Q9
|
||
3604 0 CAKF 0.08 0.08 0.09 0.09
|
||
NGC 3132 (PK NO. 272 + 12 1) 3613.60 HE 1 CAKF 0. 10 0. 10 0. 12 0.12
|
||
-3619 0 CAKF Q . 05 Q.Q5- Q. 06 0.06
|
||
NGC 3242 (PK NO. 261+32 l)
|
||
|
||
541
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 3242 (PK NQ. 261+32 1) NGC 3242 (PK NQ. 261 + 32 11
|
||
WAVE N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REf OBS I AVE 0 CORR I AVE C
|
||
. 36.3J? O CAKF Qt IQ... Qt.Lfl. Q.i2 0.12 4186.90 -C III -1 CAKF _ Q.2Q_ Q.2J1 0.22 0.??
|
||
3634 20 HF I l CAKF 0. 30 0.30 0.35 0.35 4189.80 0 1 CAKF 0.05 0.05 0.05 0.05
|
||
3671.5C 1 CAKF 0.46 0.46 0.54 0.54 4195.60 N 1 CAKF 0.03 0.03 0.03 0.03
|
||
3673. lil _L CAK.E_ .53 _Q. 53 0.62 Qjl62_ 4199.90 Hg. I 1 CAKF .13.70- -0.70 0.76 Q-.J6
|
||
3676, CAKF 0.52 0.52 0.60 0.60 4227.40 (FE V 1 CAKF 0. 20 0.22
|
||
3679. 1 CAKF 0.60 0.60 0.70, 0.70 4237.00 N I 2 CAKF 0.03 0.03
|
||
3692.8-0- _1 CA K.F— 0.65 0.65 . Q.16 . Q.76- ^237.00 L _2 CAKF Q. 03_ . 0.03
|
||
3686 ,80 CAKF 0.86 0.86 1.00 1.00 4241.20 2 CAKF 0.06 0.06
|
||
3691 ,50 CAKF 0.93 0.93 1.08 1.08 4241.20 2 CAKF 0.06 0.06
|
||
3 69-4 . HF I I CAKF 0.20 0.23 . 436.7. IQ _C L _Jl CAKF Q« 60- 0.80 0.86 Q-.86
|
||
3694. 40 ME II CAKF 0.20 0.23 4275.60 I 1 CAKF 0.08 0.09
|
||
3697, 20 H I CAKF 1.20 1.20 1.39 1.39 4276.70 I 2 CAKF 0.0 0.09
|
||
3703.80 H T CAKF 2.20 2.20 2t 55 ^276*70 12 L _2 CAKF 0* 08- 0.09
|
||
3704, 80 HE I 1 CAKF 2.20 2.20 2.55 2.55 4283.30 l CAKF 0.03 0.03 0.03 0.03
|
||
3707, 20 O III 1 CAKF 0.30 0.30 0.35 0.35 4294.90 l CAKF 0.05 0.05 0.05 0.05
|
||
3712. 1 CAKF 1.75 1.75 2.03 4303.90 _1 CAKF _ -0. 07 0.07 0.07 0.07
|
||
3715. 10 0 III 1 CAKF 0.50 0.58 4313.95 0 I 1 CAKF 0.03 0.03 0.03 0.03
|
||
3721 90 H I 2 CAKF 2.00 2.31 4317.20 0 I l CAKF 0.06 0.06 0.06 0.06
|
||
37.2,1, 90 (S III) 2 CA k_E_ 2.00 2.31 . 4325.80- 1] L 1 CAKF _Û.Û2_ _Q. 02- 0.02 Q.>D2
|
||
3726.00 (O II I 1 CAKF 5.80 6.70 4331.40 I 2 CAKF 0.02 0.02
|
||
l BP A 17.00 19.64 4331.40 0 I 2 CAKF 0.02 0.02
|
||
1 C -KA2- 17.00 19.64 434Q.4Q _H L _1 CAKF 40.50 53.45 _43_^L9 .
|
||
l W KA 2 21.00 24.26 1 BR A 63.00 67.18
|
||
1 OS 1.00* 1. 16* 1 AN 49.50X 52.79X
|
||
-1 V-V 1- 7. 40* 8.55X _J MI 7 3 47.30 50.44
|
||
3728.70 (0 II) 1 CAKF 2.90 3. 35 1 R2 63. 00 53.45 67. 18
|
||
1 OS 0. 72* 0. 83* 2 VV 1 70.30X 74.97X
|
||
1 CAKF 0. IQ 0- 1 2 4349.40 0 TT _J CAKF . 0.06
|
||
3734. I CAKF 2.00 2.00 2.31 2.31 4363.20 (O III » l CAKF 11.00 11.70
|
||
3740 II 1 CAKF 0.05 0.05 0.06 0.06 1 AN 15.10X 16.06X
|
||
3750. __L_ _L CAKF 2-30 2.30 2.65 .65 . J Sü » - 00* 1 .06»
|
||
3754, III I CAKF 0.80 0.80 0.92 0.92 2 VV 1 70.30X 74.76X
|
||
3757. III I CAKF 0.20 0.20 0.23 0.23 4379.20 N III 1 CAKF 0.20 0.20 0.21 0.21
|
||
3759, I II C_A K F_ 2.80- -2..8J3 3.-22 3.22 4387.90 HF. I _J CAKF 0.45 0.45 0.-48 0-48
|
||
3770, I 1 CAKF 2.70 2.70 3.10 3.10 4391.00 1 CAKF 0.04 0.04 0. 04 0.04
|
||
3774. III 1 CAKF 0.30 0.30 0. 34 0.34 4408 0 CAKF 0.02 0.02 0.02 0.02
|
||
3 78 1.6X3 HE. I I_ -4 C-A-K-E— 0.41 4414.90 _J CAKF 0.06
|
||
3791 III CAKF 0.30 0.30 0. 34 0.34 4431.00 NE II I CAKF 0.03 0.03 0.03 0.03
|
||
3796. II l CAKF 0. 10 0.10 0.11 0.11 4437.50 HE I 1 CAKF 0.04 0.04 0.04 0.04
|
||
J CAKF 3.1-0- 3.85 4.453 _0 CAKF
|
||
3805. CAKF 0.06 0.06 0.07 0.07 4458 0 CAKF 0.02 0.02 0.02 0.02
|
||
3813. CAKF 0.20 0.20 0.23 0.23 4471.40 1 CAKF 3.70 4.45 3.89 4.67
|
||
3819. CAKF n. 70 0. 70 O. 80 0.80 .. 1 PR A -4.45 4.67
|
||
3827. 1 CAKF 0.02 0.02 I AN 6 • 00 X 6.30X
|
||
3833, 80 HE II 2 CAKF 0.20 0.23 1 VV I 3. COX 3. 15X
|
||
3833.80 HF T _2 CAKF— 0.20- 0^23— 4481.20 HG. II _J f.AKF n.n?
|
||
3835. 40 H l CAKF 5.40 5.40 6. 15 6.15 4511.00 N III 2 CAKF 0.09 0.09
|
||
3839. 60 (FE l CAKF 0. 07 0.07 0.08 0.08 4511.00 (K IV ) 2 CAKF 0.09 0.09
|
||
38-5 1. PC 0 U_ -3 CAKF -0 .-02- Q .-02 - 4517.00 _C III J CAKF— n-03 0.03
|
||
3851. 10 0 3 CAKF 0.0? 0.02 4523.60 N III 1 CAKF 0.03 0.03 0.03 0.03
|
||
3851. 10 (FE 3 CAKF 0.02 0.02 4534.60 N III CAKF 0.06 0.06 0.06 0.06
|
||
38-5 8.0-0 HE I I —1 CAKF . -0^-20- Q.-23- HS U -CAKF-
|
||
3866 CAKF 0. 11 0.11 0. 12 0.12 4562 (MG I ) CAKF 0.10 0.10 0. 10 0.10
|
||
3868. 70 (NE I [T 1 CAKF 73.00 95.00 82.68 107.59 4570.90 MG I CAKF 0.06 0.06 0.06 0.06
|
||
1 RP. A 117.00 95.00 1 32.51 107.59 4611.QQ (AR V L_ CAKF . ■0.05. - 0.05 0. 05 0-05
|
||
VV 1 181.30X 205.33X 4620.00 C I I CAKF 0.02 0.02
|
||
3871. CAKF 0. 10 0. 11 4620.00 n 11 CAKF 0.02 0.02
|
||
3838. CAKF 13.40 15. 13 4634.10 N III CAKF 1.80 1.85
|
||
VV 1 181.30X 204.73X A 6.60 6.79
|
||
3888.80 HE I CAKF 13.40 15. 13 AW7 0 1.30 1.55 1.34 1.59
|
||
VV 1 181.3QLX -¿Q4.-J3X . CAKF 2.60 2.75 _2-i_67_ 2.83
|
||
3920. l CAKF 0. 08 0.08 0. 09 0.09 2 BR A 6.60 6.79
|
||
3923. 50 HF T I 1 CAKF 0.20 0.20 0.22 0.22 l AW70 2.91 2.99
|
||
_iL926. 90 HE I _I CAKE- 0.02 0.07 0. OB Q.QB III AH 7 Q— -Q.8I- 0.89
|
||
3935 CAKF 0. 04 0.04 0.04 0.04 4649.10 1 CAKF 0. 50 0. 51
|
||
3944, II 1 CAKF 0.05 0.05 0.06 0.06 4 AW70 0.87 0.89
|
||
39-48-. II- _1 CAKF 0.06 0.07 CE 07 _ 4650 _A AW7Q Q. 87 0.89
|
||
3964. 80 HF I CAKF 0. 50 0.50 0. 56 0.56 4651 C III AW70 0.87 0.89
|
||
3967. 50 (N^ III) CAKF 22.70 22.70 25.38 25.38 (FE III) 3 AW70 0.30 0.31
|
||
2 BR A 50m-QÜ 55. 91 4658.00 __C LV J CAKF Qm 05 Qm 05 Q.Q5 .IE 05-
|
||
CAKF 10. 70 11.97 3 AW7 0 0.30 0. 31
|
||
2 BR A 50.00 55.91 l CAKF 0.06 0.06
|
||
_2 VV L- 55« 5QX 62.06X 3 AW70 0.30 Q..31
|
||
3970 (NF III) 2 VV 1 55.50X 62.04X 4669 0 CAKF 0.03 0.03 0.03 0.03
|
||
4009, 20 HE I 1 CAKF 0.15 0. 17 4676.10 0 I I 1 CAKF 0.06 0.06 0.06 0.06
|
||
4026, 00 HE I 2 CAKF U 2.00 46,85.7 0 HE II _ CAKF 32.00 -^36.50 - 32jlJ2_ 37.32
|
||
4026. 00 HE TI ? CAKF 1.80 2.00 1 BR A 51.00 52. 14
|
||
4041 40 N II 2 CAKF 0.03 0.03 1 AN 59.00 X 60.32X
|
||
_2 CAKF . 0.03 1E-Q3 _J C KA2 36-00
|
||
4056. 00 C III CAKF 0.02 0.02 0.02 0.02 W KA2 27.00 27.60
|
||
4060. 20 (FF IV ) l CAKF 0. 10 0.10 0. II 0.11 1 VV 1 27.40X 28.01X
|
||
4069,60 (S I L 1 1 CAKF .0.89 0.80 0.^-8 8 Q. 68 4712.00 ( AR, IV ) -2 CAKF 5.20 Su-39
|
||
4072, IC II l CAKF 0.40 0.40 0.44 0.44 2 AW70 5.20 5. 30
|
||
4076. 20 ( S I I ) l CAKF 0. 20 0.20 0.22 0.22 4712.00 HE I CAKF 5.20 5.30
|
||
4085.20 P _Li 1 CAKF 0.06 Q.-Q6 -CE-Q7 (EQ7 AH70 5.20 5.30
|
||
4089. 20 I CAKF 0.13 0.13 0. 14 0.14 4725.00 (NF IV ) l CAKF 0.06 0.06
|
||
4097 , 30 N III 1 CAKF 1.50 1.50 1.65 1.65 1 AW70 0.22 0.22
|
||
4101. 1H b I J CAKF. 22.50 . 2 8.85 24.7? 31 t 70 4740.10 (AR IV ) 1 CAKF 5.00 4.40 5,08 4.47
|
||
1 PR A 32.00 28.85 35. 16 31.70 l AW7 0 3.80 4.A0 3.86 4.47
|
||
1 MI73 28.90 28.65 31.75 31.70 1 CAKF 100.00 100.00 100.00 100.00
|
||
1 R2 32.00 28.65 35. 16 31.70 1 RR A 190.00 -LQ 0.-09 . 100-00 100-00
|
||
I VV 1 27.80X 30.54X 1 ACP 100. 00 100.00 100.00
|
||
4112. P II 1 CAKF 0.01 0. OL 0.01 0.01 l AN 100.OOX 100.OOX
|
||
4120. HF I l CAKF 0. 20 0.20 Q.t.22 _a.22- 1 PE BR -190.-0-9 1QP.PQ -I0pt-00 -■ 1QQ..QQ
|
||
4143, 80 HE I CAKF 0.30 O. O. 0.33 1 S BR 3 100.00 100.00 3 100.00 100.00
|
||
4153. 30 C III CAKF 0. 0 0.0 0.0 0.0 1 COAL 100.00 100.00 100.00 100.00
|
||
4153, 99 Q U CAKF 0.0 P. P. o.o —Gil - i on.on —LO0. HO P 100.00 100.00
|
||
4156, 30 C 111 CAKF 0.03 0.03 1 C KA2 100.00 100.00 100.00 100.00
|
||
4156. 3 C 0 11 CAKF 0. 03 0.03 1 W KA2 100.00 100.00 100.00 100.00
|
||
41 63. ?n (K CAKF 0.0? 0.0? _J KQS 1QQ.QQX 1Q0.QQX
|
||
4168, 90 HFr I CAKF 0.05 0.05 0.05 0.05 l MI 73 100.00 100.00 100.00 100.00
|
||
4180. 90 (F V CAKF 0. 04 0.04 0.04 0.04 R2 100.00 100.00 100.00 100.00
|
||
NGC 3242 < PK NO. 261 + 32 1) NGC 3242 (PK NO. 261+32 1)
|
||
|
||
542
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 3242 (PK NO. 26l + 3¿ 1) NGC 3242 (PK ND. 261+32 H
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861.00 H I VV 1 100.00X 100.OOX 6949 I S BR 2.10 2.10 1.74 1.74
|
||
4922.00 HE I 1 CAKF 0.30 0.51 0.30 0.51 HE I 1 F BR 7. 10* 5.85*
|
||
1 AW70 0.72 0.51 0.72 0.51 l S BR 6.60 6.60 5.44 5.44
|
||
4931.00 (0 III) J CAKF Q,Q5_ Q.ll Q.Q5 Q.ll 7136 (AR im 1 PE 12*70 14*55 10.43 U *94
|
||
l AW70 0. 18 0.11 0. 18 0.11 1 S BR 16.40 13.46
|
||
4941 l AW7 0 0.12 0.12 0. 12 0.12 7136 (AR IV ) l F BR 15.90* 13.05*
|
||
4959.00 (0 HT ) 1 CAKF 470.00 414.50 415.73L- 410.28 7236 (AR IV ) 1 S 2*20 —2.». 20. 1.80 -1.60
|
||
A 590.00 414.50 584.00 410.28 7236 (AR III) 1 F 1.60* 1.31*
|
||
ACP 307.00 414.50. 303.88 410.28 7263 (AR IV ) 1 F 0.90*A 0.73*A
|
||
_ALI 340.OOX 336.54X 1.80 mAI 1.47
|
||
1 PE BR 420.00 414.50 415.73 410.28 8750 H I J. S GU a£_
|
||
0.72 0. 72 0.54 0.54
|
||
1 W KA2 410.00 414.50 405.83 410.28 10830 HE I GU 58.00 58.00 41. 17 41.
|
||
1 R2 340.00 414.50 336.54 410.28
|
||
1 VV 1 136.90X 135.51X REGION KEY (R EG ION,REFERENCE,EXPLANATION)
|
||
4992 1 AW70 0.30 0.30 0.30 0.30 BR, A , BRIGHT RING
|
||
5006.90 (Q III ) A CAKF. . 1280.00 1244.50 1260.51 275.55 A. AE2 , REGIONS A AND B CN DIFFERENT SCALES
|
||
1 BR A 1350.00 1244.50 132*9.45 1 225.55 F, BR , FILAMENT IN SOUTHEAST PORTION OF OUTER SHELL
|
||
1 ACP 1097.00 1244.50 1080.30 1 225.55 PE, BP ♦ PHOTOELECTRIC (FROM ALLER AND CZYZAK 1972, UNPU3.)
|
||
1 PE BR 1280.00 ■1244.50. 1260.51 L 225.55 S. BR . INTERFILAMENT IN SOUTHWEST PORTION OF OUTF R SHELL
|
||
COAL 1445.00 1244.50 1423.00 1 225.55 KA2 , WHOLE NEBULA
|
||
R2 1015.00 1244.50 999.55 1 225.55 C, KA? , INNFR 27 ARCSEC
|
||
100.00* 98.48*
|
||
1 VV 1 0.0 XA 1244.50 0.0 XA1 225.55 NGC 3242 (PK NO. 261+32 1)
|
||
5015 HE I 1 A W70 0.63 0.63 0.62 0.62
|
||
5047 HE T 1 A W70 0.24. H*. 0-74 0.24
|
||
5131 1 A W70 0. 14 0.14 0.14 0.14
|
||
5191 (AR III) 1 AW70 0.09 0.09 0.09 0.09 BEGIN NGC 3587 (PK NO. 148+57 1) C = 0.01 (RADIO-H BETA)
|
||
5199 _ÜÜ I L _L_E ÛE 0.40* 0.39*
|
||
5345 AW70 0. 11 0.11 0. 10 0.10 WAVE IDENT N RG REF OBS I CORR I
|
||
5411 HE I VV 1 26. 70 26.70 25. 15 25.15 3726 (0 II) 1 M 320.00 322.21
|
||
5411 -HE II AU70 5.60 7.23 3.39 2.10 _J A ..OS l.QO* 1.01*-
|
||
1 PE BR 2.80 2.23 2.64 2. 10 B OS 1.00* 1.01*
|
||
1 S BR 0. 30 2.23 0.28 2.10 C OS 1.00* 1.01*
|
||
_1 A. AF2 0.80* A-. 75* D QS_. 1.00* 1.01 *
|
||
AW70 0. 0.40 43 OS 1.00* 1.01*
|
||
BR 1. 10* 1.03* OS 1.00* 1.01*
|
||
_B£ 1.00 0.93 1.00* 1.01*-
|
||
5537 1 A AE2 i.oo* 0.93* I OS 1.00* 1.01*
|
||
1 AW70 0.44 0.41 OS 1.34* 1.35*
|
||
i—e—afi 0.90* -0^84* 1.3B* 1.39*_
|
||
1 S BR 1.20 1. 12 C OS 1.40* 1.41*
|
||
1 F BR 7.20* 6.67* D OS 1.32* 1.33*
|
||
_L_S û&_ .5.50 5.09 1.27* 1.28*-
|
||
5592 0 III AW70 0. 18 0.18 0. 17 0.17 l F OS 1.37* 1.38*
|
||
5754 (N II) AW70 0.13 0.13 0.12 0.12 1 G OS 1.30* 1.31*
|
||
n, un* 0.46* 1.37*-
|
||
1 S BR 0.20 A 0. 18 A (NE III) l W KA2 73.00 81. 50 73.43 81.98
|
||
5801 1 A W70 0.43 0.43 0.39 0.39 1 M 90.00 81.50 90.54 81.98
|
||
5812 -1 -AW7Q. 0.55 . 0.55 0^50 0.50 H T 4). nn 41.27 -
|
||
5836 HF II AW70 0.10 A 0.09 A 3970 (NE III) 41.00 41.22
|
||
5 864 (MN V ) l AW70 0.50 0.50 0.45 0.45 4101 H I 23.00 23.00 23. 10 23.10
|
||
HF T 1 AU7n 7A- 50 71.45 73^89 19.34 -4340- - H T 40.00 - 40.00 40.12 - 40.12
|
||
1 F BR 24.10* 21.72* 1 C BDO 1. CO* 1.00*
|
||
1 PE BR 11.20 21.45 10. 10 19.34 l N BDO 1.00* l.oo*
|
||
_l^_s afi_ 70.30 71-44 18.30 . 19.34 _] M i 3. nn i 3. n4
|
||
27. 80 25.06 □ D65 1.00* 1.00*
|
||
6098 0.60* 0.53* SM 0. 74* 0.74*
|
||
0.60 0.53 0.53 4471 HE I W KA2 3.60 3.60 3.61 3.61
|
||
6234 0.60* 0.52* 4686 HE II C KA2 21.00 19.43 21.02 19.45
|
||
0.60 0.52 0.52 W KA2 10. 30 19.43 10.31 19.45
|
||
6286 _S LL 0.30*A 0. 26 »A ..27,00 19.4.3 27.03 - -44
|
||
1 S BR 0.10 A 0.09 A 4740 (AR IV ) I W KA2 2.80 2.80 2.80 2.80
|
||
6300 HE I l VV 27.80 24. 15 4861 H I ACP 100.00 100.00 100.00 100.00
|
||
6300 _L0 I L _L_E Bfi- 3.30* 2.87* 1ÛQ.0Ü inn-nn i no.on -100,00
|
||
1 1.20 1.04 l COAL 100.00 100.00 100.00 100.00
|
||
l CAM 0.00*A 0.00*A 1 C KA2 100.00 100.00 100.00 100.00
|
||
6306 I F BR ' Q.4Q». 0.35* _L w ka.2 100.00 100.00 100.00 100,00
|
||
s 0.40 A 0.35 A 100.00 ICO.00 100.00 100.00
|
||
1 F BR 2.00* 1.74* 4861 H I 100.00 100.00 100.00 100.00
|
||
-LS afi_ 1.70 1.70 1.48 4959 (0 III) ACP 250.00 323.07 249.88 322.92
|
||
6357 N II 1 F 0.40* 0.35* l RR 449.30 323.07 449.08 327.92
|
||
1 S 0. 10 A 0.0<^ A 1 W KA2 2 53.00 323.07 252.88 322.92
|
||
—LO I L 1 F 1.20* . n4* 340.00 323.07 339. 83 -3-22 ,-9¿
|
||
1 S BR 0. 50 0.43 1 ACP 674.00 673.51
|
||
6423 l F BR 0.60* 0.52* l C BDO 74.10* 74.05*
|
||
6465 -LE BJL - nn* n. 86» _J N BDO 151.QQ* 150*89»—
|
||
1 S BR 1.40 1.20 1.20 COAL 645.70 756.57 645.23 756.01
|
||
1 F BR 8.30* 7.08* M 950.00 756.57 949.31 756.01
|
||
3 PE BR 354.00 301,98 0065 101.00* 1QQ.93*-
|
||
l S BR 4.30 3.67 SM 100.00* 99.93*
|
||
3 PE BR 354.00 301.63 5199 (NI ) 1.20 1.20
|
||
_L CAM 1.00* (L85* 5322 (CL IV ) 0.90 A 0. 90
|
||
1 M I 73 294.00 250.51 5412 HE I I BR 1.40 1.40 1.40 1.40
|
||
2 VV 1 777.00 662.06 5517 (CL III) BP 1.60 1.60 1.59 1.59
|
||
6563 —LM II ) 1 CAM 0.01* 0.01* 5538 -LGL. III.L 2,10 2,09 . 2.09
|
||
2 VV 777.00 662.06 5577 (0 I BR 25.20 A 25.11 A
|
||
1 F BR 21.80* 18.54* 5755 (N II BR 1.90 1.90 1.89 1.89
|
||
3 PF BR 354.(10-. 3QL14 5876 HE I BR 12.30 12-30 1?. 74 1? .74
|
||
1 S BR 5.90 5.90 5.02 5.02 5914 HE II 1.20 A 1.19 A
|
||
l F BR 10.30* 8.71* 5932 HE II 2.00 1.99 1.99
|
||
_LS 8B_ LQ. 8.0 10.80 9.13 9.13 5953 HE II 2.20 7.19 2.19
|
||
(S II ) 1 0. 51* 0.43* 5977 HE I I 1. 1.80 1.79 1.79
|
||
1 F BR 2.60* 2. 19* 6005 HE II 1. 30 1.30 1.29 1.29
|
||
.6710— _LS LI 1- J B—AE2 1.00* D-*84* 6098 1.00 A 0.99 A
|
||
1 F BR 3.40* 2.86* 6234 BR 3. 70 3. 70 3.68
|
||
1 S BR 1.00 0.84 6254 BR 1.30 1.30 1.29
|
||
. l—E Bfi_ 0.70* fl* 59* 6286 _i LL B£_ 1.40 1.40 1.39 . 1.39
|
||
1 S BR 1.50 1.26 6300 (n i BR 11.60 A 11.52 A
|
||
1 F BR 0.50* 0.42* 6306 s 11 BR 3. 70 3.70 3.68 3.68
|
||
1 -S ,09 6310 ( s ni ) BR 3,40 3.40 3 ..IB -3-*18„
|
||
1 1.20* 1.00* 6345 BR 2.50 2.50 2.48 2.
|
||
1 S 1.70 1.42 6347 BR 1.90 1.90 1.89 1.89
|
||
NGC 3242 (PK NO. 261+32 1) NGC 3587 (PK NO. 148+57 l)
|
||
|
||
543
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 3587 (PK NtL^14B + 57 1) .. (PK NO, 294+ 4 l)
|
||
WAVE IDENT N RG REF OBS I AVE 0 AVE C WAVE IDENT N RG REF OBS I CORR AVE C
|
||
6357 LL_ 1 BR 3.8a 3.8Q.. 3.77 .191Q (NE III> 2 A£ 4¿.QQ_ 5A.V7..
|
||
6364 (01 ) BR 3.70 3.67 2.00 2.39 2.39
|
||
6371 SI II BR 2.90 2.90 2.88 EV 1.50 1.79
|
||
6423 BR 2.8.Q. 2.8Q- (S II I 1 AF StOOL. _^92 -P.»9_2
|
||
6465 3.20 3.20 3.18 3.18 EV 1.50 1.78
|
||
6498 3.50 3.50 3.47 3.47 4097 N III 1 EV 3.00 3.53
|
||
.6548 _JLN Li—L 30. 5Q 30.50 . 3fl.27_ -30.21- 41Q1 H.I L_ AF 28.QP _¿8.QQ. 32.90 32.9Q
|
||
6563 463.60 463.60 460.08 460.08 1 EV 20.00 23.50
|
||
6584 ( N II BR 126.40 126.40 125.43 125.43 4199 HE I I 1 EV 1. 50 1.72
|
||
6678 HE-.L BR 6.90 6.9.0 6. ñ4 4267 _£ U L_ EV ^Q_
|
||
6717 II ) 20.10 20. 10 19.94 19.94 1 AF 46.00 51.36
|
||
6731 II ) BR 16. 10 16.10 15.97 15.97 l EV 29.00 32.38
|
||
6827 &£. 6.80 _<LLüa_ 6.74 6.74 (o im i AF 18.00 18.00 20.00
|
||
6835 6.30 6.30 6.25 6.25 1 EV 18.00 20.00
|
||
6865 8.90 8.90 8.82 8.82 HE I 1 AF .80 5.22 5.22
|
||
6949 BR 7 « 60 7.6Q 7.53 7.53 -L. EV .00 7 62._A_.
|
||
6979 4.50 A 4.46 A 1 AF 8.00 8.58
|
||
7006 (AR V 7.20 7. 14 1 EV 6.00 6.43
|
||
HE .1 7.BQ A 7.73 A 4634 _N LLI L_ EV 7. 00 7 35 A
|
||
7136 (AR III » 9.40 9. 31 4640 N III 1 EV 10.00 10.49
|
||
7169 (AR IV ) 4.60 A 4.56 A 4649 C III 2 EV 0.0 0.0 0.0 0.0
|
||
7236 (AR LV 1 BR 11.40 11.4,Q_ 1 1.79 4649 011 2 0.0 0.0 0.0 0.0
|
||
7263 (AR IV ) 10.70 10.60 4685 HE I I 1 AF 49.00 49.00 50.89 50.89
|
||
7319 (0 II) 5.40 A 5.35 A 1 EV 51.00 52.97
|
||
.1331 -JLC II J_ H ■ 00 A 7.92 -A- 4711 (AR IV ) 1 AF «50 ... 9f5Q 9.81 9.81
|
||
EV 13. 00 13.42
|
||
4711 HE I 2 EV 13. 00 13.42
|
||
REGION KEY (REG I ON.REFERENCE.EXPLANATION) 472.4 (NF IV .1 1 FV 7.00 2.06
|
||
BCD CENTRAL PORTION (AR IV 1 I AF 11.20 11.49
|
||
B DO NORTHERN PORTION 1 EV 16.00 16.42
|
||
WHfll F NF BUL A H I 1_ AF 100-00 100-00
|
||
INNBR 76 ARCSEC EV 100.00 100.00
|
||
OUTER REGION NORTHEAST OF CENTRAL STAR 4871 0 II EV 0.0 0.0
|
||
INNER REGION NORTHEAST OF CENTRA! STAR 4921. HF T 1.50 L. 48
|
||
INNER REGION SOUTHWEST OF CENTRAL STAR (0 I II) 1 540.00 530.62
|
||
OUTER REGION SOUTHWEST OF CENTRAL STAR 300.00 294.79
|
||
NORTH OF CENTRAL STAR _U0 III) 1660.00 1616.93
|
||
WEST OF CENTRAL STAR l EV 1000.00 974.05
|
||
EYE NORTHWEST OF CENTRAL STAR 5875 HE I 1 EV 30. 00 25. 11
|
||
WEST OF NCLRXHWEST EYE 6-300— -4-0 L- ) 1 EV.. 13.00 10. 21
|
||
6312 ( S I IT ) l EV 8.00 6.28
|
||
NGC 3587 (PK NO. 148+57 1) 6363 (01)1 EV 9.00 7.02
|
||
6435 (AR V 1_1 FV 4.64
|
||
6461 l EV 5.00 3.85
|
||
6493 1 EV 0.0 0.0
|
||
BEGIN NGC 3699 ( PK NO. 797+ 1 1 ) C = 0.50 (RAOIO-H J3EXA) 6548 —1—1 FV 5 5.QQ- 41. BB
|
||
6562 H I 1 324.00 246.24
|
||
WAVE TDENT ORS I CORR I 6583 (N II ) 1 123.00 93.23
|
||
3425 1 NE. .V 1_ 2.9QB 4.48B j6678— HE I L— —11.00-
|
||
3727 ( 0 II) 1 RM 23.OOB 32.43 B 6716 ( S 11)1 9.00 6. 72
|
||
3868 ( NE III) 1 RM 12.008 16.14B 6730 (S II ) l 13.00 9.68
|
||
2 1.40B 1.B7B- ELM-
|
||
3889 HF I RM 1.40 8 1.87B NGC 3918 (PK NO. 294+ 4 1)
|
||
3967 (NF III) RM 4. 70B 6. 13B
|
||
39 70 __ld I 4.IDR 6.1 3 B
|
||
4101 H I RM 2. 50B 3.138
|
||
4340 H I RM 3.30 B 3.85B BEGIN NGC 4071 (PK NO. 298 -4 1) 0.54 (RADIO-H BETA)
|
||
4363 0 III) RM 1.30 A 1.51 A
|
||
46B 6 HE I I RM 3.OOB 3.16B WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I RM 1*0.00 A 10.00 A 4861 H I 1 WB 100.00 100.00 100.00 100.00
|
||
4959 L III-)- —RM 47.OOB 48.B7B 5007 (0 III) -l WB 708.00 708.00 680.59 680.59
|
||
5007 ( III) 1 RM 130.OOB 125.338
|
||
5754 ( II ) 1 RM 2.OOB 1.60B NGC 4071 (PK NO. 298 -4 1)
|
||
5876 HE I -1 RM_ 2.9QR 2.26B
|
||
6300 ( RM 3.00 A 2.15 A
|
||
6369 ( RM 0.0 B 0.0 B
|
||
-.6548 - f N Mil RM 27.QÜB 1B.49B BEOIN-NQC 4381 (»K NO. 294+43 1) C = 0.19 (RADIO-H BETA)
|
||
6563 I 52.OOB 35.52 B
|
||
6584 II ) 64.OOB 43.55B WAVE IDENT RG REF OBS I AVE 0 CORR I AVE C
|
||
3203 HF II . 1 P6 HAC 55.00 -5-5-.ILQ-- 66.88 66.88
|
||
NGC 3699 (PK NO. 292+ l 1) ( NE V ) 1 A 5.40* 6.44*
|
||
l P HAC 60.00 52.50 71. 51 62.57
|
||
-1 PP HAC 45.00 52.50 53.64 62.57
|
||
1 P HAC 126.00 124.00 148.66 146.30
|
||
BEGIN NGC 3918 (PK NO. 294+ 41) C = 0.36 (RADIO-H BETA) l PG HAC 122.00 124.00 143.94 146.30
|
||
JL A_ 20.00* 23.55*
|
||
WAVE IDENT RG RFF OBS I CORR I 3679 1 PG HAC 1.00 1.00 1. 15 1.15
|
||
3340 ( NE V ) AF 27. 10 37.85 3682 1 PG HAC 0.40 0. 0.46 0.46
|
||
3340 0 III 27. IQ 37.85 3686 1 PG HAC 1.00 1. 1.14 1.14
|
||
3425 (NE V ) 2 AF 60.00 82.10 3691 1 PG HAC 1.40 1.40 1.60 1.60
|
||
3440 O III 2 AF 60.00 81.82 3697 PG HAC 1.90 1.90 2.17 2.17
|
||
3726 _LGL Il ) ,1_ ■Af 62.QP 79.42 3703 1 PG HAC 2.6Q . - 2.6Q ?-97 2.97
|
||
EV 12.00 IS.37 A 3711 1 PG HAC 2.50 2.85
|
||
3728 ) l EV 8.00 A 10.24 A 3715 0 III 2 PG HAC 0.90 1.03
|
||
3750 1— -Af 3^.00 JIP- 3.82 3.82 3715 . ..HE II - 2 PG HAC Q.9Q 1.03
|
||
1.00 1.27 3721 I 2 PG HAC 3.20 3.65
|
||
3759 III 2. 50 3. 18 3721 III) 2 PG HAC 3.20 3.65
|
||
3770 _I 4. 00 5.07 3776 -LD II )-.l PG HAT.
|
||
1.50 A 1.90 A 3728 (0 II) 1 PG HAC 1.20 1.37
|
||
6.00 7. 56 3732 HF I I 2 PG HAC 3.20 3.64
|
||
_ER. 3.50 4.41 A 3734.. —H I__ 2 PG. HAC 3.20 3.64
|
||
3835 H I 1 9.00 9.00 11.23 3750 1 PG HAC 3.90 3.90 4.43 4.43
|
||
1 EV 3.00 A 3.74 A 3759 l PG HAC 1.80 1.80 2.04 2.04
|
||
3868 (NE III) 1 AF 107.00 107.00- 132.47 132.47 .3770- -1 PG HAC 5.44
|
||
26.00 A 32. 19 3780 HE II 1 PG HAC 0.50 0.50 0.57 0.57
|
||
20.00 24.63 3797 H I 1 PG HAC 7.00 7.00 7.91 7.91
|
||
EV .00 A 11.08 A 3835 —H I -1 PG HAC 7.70 7.70 8.66 8.66
|
||
3888 HE I 2 EV 9.00 A 11.08 1 5.00* 5.60*
|
||
3889 NE I 2 AF 20.00 24.63 1 P HAC 21.80 21.90 24.40 24.51
|
||
3967 (NE_in ) L- EJ/ 17^0,0 A 20.59 A, -1 PG HAC 22.00 -21.90 . 24.62 24.51
|
||
45.00 54.47 2 P HAC 13.00 14.51
|
||
12.00 14.53 A 2 PG HAC 11.00 12.28
|
||
NGC 3918 (PK NO. 294+ 4 1) NGC 4361 (PK NO. 294+43 1)
|
||
|
||
544
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 4361 (PK HQ. ¿94t43 11 BEGIN NGC 5315 (PK NO. 309 -4 2\ Q.55 (RADIO—H BETA)
|
||
WAVE IDENT RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR AVE C
|
||
3999 HE I_. HAC 13*09 14.51 4861 H I _i WÊ 1QÍL*.00 -100.0ÍL. 100.00 100.00
|
||
PG HAC 11.00 12.28 5007 (0 III) 1 WB 775.00 775.00 744.46 744.46
|
||
3923 HE 11 1 PG HAC 1.20 1.33
|
||
3967 (NE I1IJ 1 A 3.70* .09* END NGC 5315 (PK NO. 309 -4 2)
|
||
P HAC 17.40 19.25
|
||
PG HAC 5.50 6.09
|
||
VV5... -4j.8.Q.*-A... 5,31*A BEGIN NGC 5873 (PK NO. 331+16 1)
|
||
3970 HAC 17.40 19.25 0.23 (RAD 10—H BETA)
|
||
PG HAC 12.60 13.94
|
||
VV_5 .4.8Q*A 5- 31 *A -W.AV E _ IDENT N RG REF OBS I -AVE Q CD RR I
|
||
4026 HE I 1 PG HAC 1.40 1.40 1. 54 1.54 4340 HI 1 WB 43.00 43.00 46.14 46.14
|
||
4068 (S II)l PG HAC 2.00 2.00 2. 19 2.19 4363 (0 MT) l WB 13.00 13.00 13.91 13.91
|
||
4101 y i L 4.20* 4.57* 4666 HE II 1 WB 34..5.Q 34.5Q 35.34 35.34
|
||
P HAC 24. 10 25.35 26.24 27.60 4861 I l WB 100.00 100.00 100.00 100.00
|
||
PG HAC 26.60 25.35 28.97 27.60 5007 (0 III ) l WB 1200.00 1200.00 1179.99 1179.99
|
||
VV5 5.4Q»A 5.aa*A_
|
||
4199 HF I I 1 PG HAC 2.50 2.69 NGC 5873 (PK NO. 331+16 1)
|
||
4340 H I 1 A 9.70* 10.28*
|
||
L -P—HAC .. 52.00 51.8.0- 55.12
|
||
1 PG HAC 51.60 54.69
|
||
2 VV5 13.00* 13.78* BEGIN NGC 5882 (PK NO. 327+10 1) C = 0.38 (RADIO-H BETA)
|
||
4363 (NF TU) 7 13..QQ* . 13-74*
|
||
( 0 III) 1 P HAC 13.00 13.50 13.74 14.27 WAVE OBS I AVE 0 CORR I AVE C
|
||
1 PG HAC 14.00 13.50 14.80 14.27 4340 39.00 39.00 43.81 43.81
|
||
43 7.9 ü LLI L 1.20 1.20 1-27 1.27 4861
|
||
4471 HE I 1 KA2 1.00 1.00 1.05 1.05 5007 (0 III) 1 WB 1020.00 1020.00 992.05 992.05
|
||
4541 HE I I 1 HAC 7. 10 5.82 7. J7 6.04
|
||
—L.E.G. HAC 4. 55 5.82 4.72- 6-04 -END NGC 588? ( PK NO. 327+10 1 >
|
||
4554 1 PG HAC 1.70 A 1.76 A
|
||
4659 C IV 1 PG HAC 2.00 2.05
|
||
4.685 HF I I L_ 25..QQ» 25.81*
|
||
P HAC 138.00 118.00 140.79 120.39 BEGIN NGC 5979 (PK NO. 322 -5 1) = 1.39 (RADIO-H BETA)
|
||
PG HAC 101.00 118.00 103.04 120.39
|
||
KA2 115.00 1 18.00 117.32 120.39 AVF □ CORR I AVF
|
||
VV 5 35.00* 35. 71* 4340 H I 48.00 48.00 73.47 73.47
|
||
(AR IV ) 4 P HAC 14.30 14.55 4861 H I 100.00 100.00 100.00 100.00
|
||
2. PG HAC . 8.90 9.05- —5-007 - -CO III) 1050.00 1050.00 948. 54 948.54
|
||
4713 P HAC 14.30 14.54
|
||
PG HAC 8.90 9.05 NGC 5979 (PK NO. 322 -5 1 )
|
||
477«; (NF TV ) 4 HAC 14.30 14. 52..
|
||
PG HAC 3.20 3.25
|
||
(AR TV ) 4 P HAC 14.30 14.50
|
||
L Pf» HAC 6.60 —6.69— BEGIN NGC 605 8 ( PK NO. 64+48 -D 0.20 (HYDROGEN L INES)
|
||
KA2 6.10 6. 18
|
||
A 60.00* 60.00* WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
P HAC jno.nn 100.00 -3203 - HF I T 1 AV ACPG 37.76 -37.76- —46.39 46.39
|
||
PG HAC 100.00 100.00 100.00 100.00 3727 (0 II ) 1 AV ACPG 5. 38 6. 17
|
||
KA2 100.00 100.00 100.00 100.00 3729 (0 11 ) 1 AV ACPG 3.34 3. 83
|
||
-1-00.00- 100.00 - 100.00 100.00 1 AV ACPG
|
||
I II ) 3 60.00* 59.45* 3755 III 1 AV ACPG 4.43 5. Oö 5.06
|
||
1 90.00 94.50 89.17 93.63 3759 III 1 AV ACPG 3.92 4.48 4.48
|
||
1— 99-nn 94.5 0 .98.09 93.63 3770 - J 1 AV ACPG
|
||
150.00* 148.62* 1 B ACPG 4. 12 4.56 4.70 5.20
|
||
(O I II ) 3 60.00* 59.17* 1 AV ACPG 4.84 3.43 5.50 3.90
|
||
1 .275^00 iln-ns 271.21- -J a.J^f.P.G -2-.Q2 -3.43- 7.30 3.90
|
||
0062 346.70 341.93 3835 AV ACPG 6.01 5.49 6.80 6.21
|
||
2 VV5 150.00* 147.93* B ACPG 4.97 5.49 5.62 6.21
|
||
6563 I 2 VV 5 117.00* 101.22* 3868 (NF III) ACP 90.90 90. 17 102.35 101.53
|
||
6563 II ) 2 VV5 117.00* 101.22* AV ACPG 97.60 90.17 109.89 101.53
|
||
B ACPG 89.20 90.17 100.43 101.53
|
||
REGION KEY (PEG ION.REFERENCE.EXPLANATION) 83.QQ 90. 1 7 93.45 101-53
|
||
HAC » PHOTOELECTRIC 3 VV5 79.00 88.95
|
||
HAC , PHOTOGRAPHIC 2 AV ACPG 25.50 28.63
|
||
_2 B - ACPG 15.50 17.40
|
||
NGC 4361 (PK NO. 294+43 1) 3 VV5 79.00 88.69
|
||
2 AV ACPG 25. 50 28.63
|
||
_2 B- ACPG 15.50 17.40
|
||
3 VV5 79.00 8.69
|
||
BEGIN NGC 5189 (PK NC. 307 -31) C = 0.82 (RADIO-H BETA) 2 ACP 43.80 48.72
|
||
L. AV-ACPG ¿9.70 28.65 33.04 31.87
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C ACPG 27.60 30.70
|
||
3727 (O II ) 1 RM 0.0 B 0.0 0.0 B 0.0 VV5 50.00 55.62
|
||
3868 (NE III) 1 Q.Q B 0^0 0.0 B 0.0 3970 —H L_ _A£P 43. 48.71
|
||
3967 (NF I II ) 2 RM 0.0 B 0.0 0.0 B 0.0 1 AV ACPG 31.70 26.00 35.25 28.91
|
||
3970 HI 2 RM 0.0 B 0.0 0.0 B 0.0 1 B ACPG 20.30 26.00 22.57 28.91
|
||
4861 ti I 1 ÉLM— 1Q.QQB IQ.QQñ _2 y 37.00 41.14
|
||
4959 (O III) 1 RM 62.00R 59.57B 2 50.00 55.60
|
||
5007 (O III) l RM 180.OOB 169.53B 3970 (NE III) 2 37.00 41.14
|
||
6548 (N II ) 1 B_M ¿¿.OOB . 11.83-B 4026 HF I 1 AV ACPG 4.25 4.69
|
||
6563 I l 41.OOB 21.94B l AV ACPG 23. 10 23.23 25.27 25.41
|
||
6584 II ) l 43.OOB 22.87B 1 B ACPG 27.60 23.23 30. 19 25.41
|
||
_L_ LSj.QQ 23.23 20.78 25.41
|
||
END NGC 5189 (PK NO. 307 -3 1) 2 ACP 113.00 120.14
|
||
1 AV ACPG 44.20 44.60 46.99 47.42
|
||
-J 8 ACPG 51.20 44.60 54.43 47.47
|
||
41.00 44.60 43. 59 47.42
|
||
BEGIN NGC 5307 (PK NO. 312+10 1) 0.59 (RADIO-H BETA) 42.00 44.60 44.65 47.42
|
||
VV 5 68.00 -J-2*.3Q
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C 2 ACP 113.00 119.82
|
||
3727 (O II ) 1 AF 24.00 36.00 1 AV ACPG 14.80 21.20 15.69 22.48
|
||
3868 (NE 111)1 AF 89^-00 . 89.0.0 126.22 126.29 _1 8 ACPG 16.80 ¿1.20 . 22.48
|
||
3970 H I 2 33.00 45. 13 C 32.00 33.93
|
||
3970 (NE III) 2 AF 33.00 45. 13 2 VV5 68.00 72. 10
|
||
4101 td I 1_ AF 7 1 .00 21.00 27.36 1 AV ACPG 6-45
|
||
4340 HI 2 AF 54.00 64.69 1 ACP 93. 50 73.88 95.49 75.45
|
||
4363 (O I II ) 2 AF 54.00 64. 19 l AV ACPG 62,80 73.88 64. 13 75.45
|
||
4471 HE I 1 A£ 5,00 5. 74_ 5,74 _1 B ACPG 6-5. QQ 73.88 66.38 75.45
|
||
4686 HE II 1 26. 00 26.00 27.66 27.66 C 83.00 73.88 84.76 75.45
|
||
4861 H I l 100.00 100.00 100.00 100.00 M 46.00 73.88 46.98 75.45
|
||
4959 (O MI) 1 400,00 400.00 3B8.67 3B8.67 VV5 93. QQ -73.88- -94.98 75.45
|
||
(0 I II ) 1 1230.00 1230.00 1178.07 1178.07 l ACP 100.00 100.00 100.00 100.00
|
||
l AV ACPG 100.00 100.00 100.00 100.00
|
||
_ENß NGC 5307 ( PK NO. 312 + 10 1)
|
||
NGC 6058 (PK NO. 64+48 1)
|
||
|
||
545
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
546
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 62IQ I PK NQ. *3t37 11- NQC ^2.10 ( EK_Nfl. 43t37_L)
|
||
WAVE IOENT REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
. n LL ACB 0,Q9 .09 0.09 . Q-1-Q9— 5411 HE II 1 VV2 4.20 2.95 ^.09- —2 .29--
|
||
4189 0 11 l ACB 0. 11 0.11 0. 11 0.11 5517 (CL III ) A AE2 0.87* 0.84*
|
||
4227 (FE V ) 1 ACB 0.11 0.11 0.11 0.11 5528 (CL III) C 2.00 1.94
|
||
42.67— ACB Q«u5Q .25 0.52 1.29- -553.7 (CL-UU A AE2 1.00» -0^27*-
|
||
1 c 2.00 1.25 2.06 1.29 5755 (N II) 1 C 3.00 3.00 2. 2.88
|
||
4291 Oil l ACB 0.90 0.90 0.93 0.93 5876 HE I 1 C 47.00 35.30 44.95 33.76
|
||
4303 on i ACB 0.13 0.13 0. 13 Q. 13- 1 ttY2_ -23.6C .35.30 22.57 33.76
|
||
4317 0 II ACB 0.11 0. 11 6300 (O I ) 1 CAM 0.01* 0.01*
|
||
4317 C II ACB 0. 11 0. 11 1 VV2 15. 30 15.30 14.40 14.40
|
||
4327 ACB Q. IQ Q. IQ .1Q_ 6548 (N II ) 1 QCB— 8.15 _a*-15- 7.61 7.61
|
||
A41 40.00 41. 12 1 C 473.00 441.64
|
||
ACB 36.01 37.02 l CAM 1.00* 0.93*
|
||
. A.M- 59.50X 61.16X 1 LAR 10.00* 9.34*
|
||
C 39.00 42.90 40.09 44.10 1 OCB 282.00 263.30 352.47
|
||
LA 55.00 42.90 56.54 44.10 2 VV2 221.00 206.35
|
||
QCfL 39.80 42.9Q 40.91 44.1Q- -J65A3- (N II ) _2 VV2 221.00 2Q6..35
|
||
VV2 44.70 42.90 45.95 44.10 1 C 68.00 43.75 63.45 40.82
|
||
4345 ACB 0.29 0.29 0.30 0.30 l CAM 0.07* 0.07*
|
||
4348 ACB Q. 1 7 0. 17 Q. 17 _1 QCB 1915Q 43.75 18.19 40.82
|
||
(0 III) 2 A41 40.00 41.07 6678 HE I 1 C 23.00 23.00 21.40 21.40
|
||
1 ACB 6.20 7.37 6.37 6717 (S IT ) 1 B AE2 0.66* 0.61*
|
||
1_ -AM— 11.90X 12.22* 6724 (S II ) 1 C 14.00 14.00 13.01 13.01
|
||
BOO 1.00* 1.03* 6730 (S 1 B AE2 1.00* 0.93*
|
||
C 10. 00 7.37 10.27 7.57 8750 H 1 GU 0.86 0.76 0.76
|
||
8.40 7.37 8.62_ 7.57, 9532 H -2 LAR 1.36» 1.19*
|
||
OCB 6.45 6.62 9546 (S III ) 2 LAR 1.36» 1.19*
|
||
SM 0.49* 0.50* 10830 HE I 1 GU 33.00 28.49
|
||
5.80 8.96 1 LAR 6.12* 5.28*
|
||
4366 ACB 0.29 0.2 9 0.30 0.30 10 MU (S IV ) 1
|
||
4369 ACB 0.26 0.26 0.27 0.27
|
||
4373 n.4Q 0.49 n. sn 0.50- RFGION KEY I REG ION.RFFFRFNCF.FXP1 ANATION I
|
||
4379 ACB 0.44 0.45 0.45 REGIONS A AND 6 PN DIFFERENT SCALES
|
||
4382 ACB 0. 15 0. 15 0.15
|
||
4387 1. 0.71 1.1? . -END NGf. 6210 (PK NO. a
|
||
C , 50 1.09 1.54 1.12
|
||
4392 NE II ACB ,09 0.09 0.09 0.09
|
||
4417- - NF—I-1— 0. 10- BEGIN NGC 6302 (PK NO. 349+ 1 1) C = 1.33 (RADIO-H BETA)
|
||
4417 C II 2 ACB 0. 10
|
||
4467 O II 2 ACB 0. 10
|
||
4467- _S U-I 2_ 0. 10. I PENT
|
||
HE I 1 A41 . 00 6.30 4. 09 6.44 3 299 0 III l A ÛA 15.00 15.00 53.50 53.50
|
||
1 ACB .02 6.30 6.15 6.44 3340 0 III l A OA 18.00 18.00 61.80 61.80
|
||
]_ 12.26X -3345 (NF V ) 1 A □ A -aa^oo- 84.3? ^nn.69 288.13
|
||
C 6.30 10.21 .44 C OA 88.80 84.32 303.42 288.13
|
||
LA 6.30 7.15 .44 E OA 97. 50 84.32 333. 15 288.13
|
||
- VV-?— ¿.An Fm 63-. QQ. . 84.32 ¿15.27 288.13
|
||
4481 MG II 1 ACB .20 0.20 0.20 0.20 (NE V ) l 229.00 181.28 728.82 576.96
|
||
4491 0 II 1 ACB . 10 0. I 0 0. 10 0.10 l OA 91.70 181.28 291.85 576.96
|
||
NF- II 1— Q. 11— DA -?7a.na .1 a 1.-? a. 859.31 516.96.
|
||
4590 II 1 ACB 0.31 0.31 0.31 D OA 159.00 181.28 506.04 576.96
|
||
4596 II 1 ACB 0.22 0.22 0.22 E OA 208.00 181.28 661.99 576.96
|
||
4633- 1— Q. 16- 0.16- F HA 130.QQ 181.28 413.74 576.96
|
||
ACB .51 0.52 A OA 24.00 18.15 75.24 56.90
|
||
C .00 4.05 C OA 16.40 18.15 51.41 56.90
|
||
4637 _C LUL— 4.05 F OA 18.20 18.15 57.Q5 56.9Q
|
||
4640 N III ACB 1.20 1.21 OA 14. 00 18.15 43.89 56.90
|
||
4641 0 11 ACB 0.43 OA 3.30 10.77 8.40 27.39
|
||
4641 N IV ACB 0.43 OA 25.00 10.77 63.60 27.39
|
||
4647 NE II ACB 0.28 0.2 8 0.28 0.28 OA 4. 00 10.77 10. 18 27.39
|
||
4649 0 II ACB 0.50 0.50 0.51 0.51 2. 20 2.90 5.56 7.33
|
||
465.7- AR II L_ ACB 0.14 Q. 14- 0. 14 _QjJl4_ 3.6Q 2.9Q 9. IQ 7.33
|
||
4661 0 11 1 ACB . 17 0.17 0. 17 0.17 7. 10 17. 78
|
||
4685 HE II 1 ACB 2.93 3.34 2.96 3.38 8.40 21.04
|
||
L_ 5. QQ 3.34 5.Q5-- 3.38 10-10 25. 30
|
||
VV2 3.34 2.12 3.38 2 7.00 17.53
|
||
4711 (NE IV ) 1 ACB 1.63 1.64 1.64 I I I ) 2 A OA 7. 10 17.78
|
||
4112- (AR IV ) 2 4. QQ 4.03 2_ C QA 8.4Q- 21.04
|
||
HE I 1 ACB ,63 0.63 0.64 0.64 OA 10.10 25.30
|
||
2 C ,00 4.03 OA 7.00 17.53
|
||
(AR IV ) 1 ACB , 87 2.93 1.88 2.95 (Cl 11)1 EV 1.50 A 3.74 A
|
||
C .00 2.93 4.03 2.95 A OA 41.30 103.08
|
||
4781 ACB .92 0.92 0.92 0.92 C OA 81.90 204.4?
|
||
4861 A 41 IQ-Q.Qfl 1QQ.QQ- 100.00 LQQm.00 - -Q..QA 430.00 1073.26
|
||
ACB 100. 00 100.00 1 39.50 98.59
|
||
AN 100. oox 100.OOX 1 72.70 181.46
|
||
1QQ.0Q 1 QQ.QQ— 100.00 1QQ.QQ II ) 1 18.70 46.16
|
||
CPDA 100, 00 1 00.00 100.00 100.00 C OA 41.50 103.34
|
||
GU 100, 00 100.00 100.00 100.00 D OA 265.00 659.87
|
||
100.00 100.00 1QQ.QQ- LQQ^QQ - E QA 39.IQ. 97.36
|
||
LA54 100 100.00 100.00 100.00 OA 49. 124.01
|
||
OCB 100 00 100.00 100.00 100.00 OA 3.40 4.60 8.43 11.40
|
||
VV2 100 ,00 100.00 100.00 100.00 E OA 6. 50 .AO .16. LI IJL. 4Q_.
|
||
HE I 1 ACB .69 2.84 1.69 2.84 F OA 3.90 4.60 9.67 11.40
|
||
1 c .00 2.84 3.99 2.84 A OA 3.60 5.17 8.80 12.63
|
||
- 4918 . (Q in.) L A41 340.00 360.42 338.51 3.58 ».85 . E OA 6. 10 5.17 14.92 12.63
|
||
377. 00 360.42 375.35 358.85 OA 5.80 5.17 14. 18 12.63
|
||
292. OOX 290.72X 3759 EV 0. 0 7.10 0.0 17.22
|
||
CPDA. 363. 10 360.42 361.51 QA 8.00 7.IQ 19.40 - LlmZZ
|
||
LA 337 ,00 360.42 335.53 358.85 C OA 7.60 7.10 18.43 17.22
|
||
LA54 385, ,00 360.42 383.32 358.85 E i 7.70 7.10 18. 67 17.22
|
||
VV2 155Q.ÜQ A- 1543.23-A F QA 5 .-LQ . - 7.10 12.37 U-.22
|
||
(0 III ) l A41 920 00 1037.00 913.97 1030.20 EV 0.0 6.17 0.0 A 14.82
|
||
l ACB 1051, 00 1037.00 1044.II 1030.20 A OA 5.40 6.17 12.97 14.82
|
||
BDD 234.00» 232.47». -E- QA- 7^30 - 6.17 17.54 1.4.82
|
||
BE 1000, 00« 993.44* F OA 5. 80 6.17 13.93 14.82
|
||
CPDA 1096 00 1037.00 1088.81 1030.20 A OA 1.20 3.64 2.83 3.59
|
||
LA 993.00 1Q37« QQ- 986.49 1Q3Q.2Q C OA 3t_lQ . 3.64 «-3.2— 3.59.
|
||
LA54 1125. 00 1037.00 1117.62 D OA 10.00 3.64 23.60 8.59
|
||
SM 100. 00* 99.34* E OA 2.00 3.64 4.72 8.59
|
||
-VV2 155Q. QQ A 1539.83 A F QA ■ 1.90 -3^64 4.48 8.59
|
||
5017 HF I l BE 26* 2.24* 3 796 HE I I 1 OA 1.40 1.40 3.29 3.29
|
||
5411 HE II 1 C 50 1.46 3797 H I 1 EV 0.0 7.60 0.0 17.84
|
||
NGC 6210 ( PK NO. 43 + 37 1) NGC 6302 1PK NO. 349+ 1 1)
|
||
|
||
547
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6302 CPK NO. 349+ l 1) NGC-6302 (PK NQ. 3LÉ9t 1 11
|
||
WAVE ÎDENT N RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3797 H I 1 A OA I» 31L- 7,6Q 17.13 17.84 4387 HE I _1 EV Q.Q _L.33. CM? - 3.38
|
||
1 E OA 9.30 7.60 21.83 17.84 A OA 1.50 2.33 2.17 3.38
|
||
1 F OA 6.20 7.60 14.55 17.84 E OA 2.40 2.33 3.48 3.38
|
||
_1 ELY— ^Q_ .5.-43 . - QML A 12.50 -f OA 3. 10 . 2.33 .-49 3.38
|
||
A OA 2.60 5.43 5.98 12.50 l A W70 7.70 10.51
|
||
l E OA 4.40 5.43 10. 12 12.50 1 EV 0. 10 0.14
|
||
1 F OA 9.30 5.43 21.40 12.50 â_Q4 -8.70- 9.14 11.87 -12.41
|
||
EV 0.0 10.97 0.0 24.87 1 B OA 11.80 9.14 16.11 12.47
|
||
OA 10.00 10.97 22.68 24.87 1 C OA 4.95 9.14 6.76 12.47
|
||
B..QA. -L5.4Q- 10.97 34.93 24.87 _1 D OA 11.QQ-. .14_ ia^?i . -12.43-
|
||
1 C 8.40 10.97 19.05 24.87 l E OA 10.90 9.14 14.88 12.47
|
||
1 0 11.00 10.97 24.95 24.87 1 F OA 8.90 9.14 12. 15 12.47
|
||
1 E OA 12.10 10.97 27.44 -24.87_ 1 AW7Q 4.60 5*15 5.95 6.66
|
||
8.90 20. 18 1 EV 5.15 0.0 6.66
|
||
(NF III) 12.00 26.39 1 A OA 5.50 5.15 7.11 6.66
|
||
B OA 235.00 216.4Q 516.8.7 475.96_ _1 C OA -3.80- 5j 15. .31
|
||
194.00 216.40 426.69 475.96 1 D OA 7.50 5.15 9.69 6.66
|
||
358.00 216.40 787.40 475.96 1 E OA 4.80 5.15 6.20 6.66
|
||
171.00 216.40 376.10 475.96 1 F OA 4.70 5.15 6.66
|
||
F OA 124. 00 272.73 4571 MG I 1 AW70 0.30 0.30 0.38 0.38
|
||
A OA 23.00 49.67 4606 (FE III) 1 A W70 1.90 1.90 2.33 2.33
|
||
B-OA.. ft*- 3ft . 48-QI- 1 A OA 1.60 1.75 1*36- 2.14
|
||
C OA 30. 90 66. 73 OA 1.90 1.75 2.33 2.14
|
||
0 OA 52.50 113.38 4628 EV 0.0 0.0 0.0 0.0
|
||
35-00 75.59 4634 AW7.Q 6.QQ 5.2 8 7. 19 6.33
|
||
EV 0. 20 0.43 A 1 EV 0.0 5.28 0.0 6.33
|
||
OA 23.00 49.66 1 A OA 5.80 5.28 6. 95 6.33
|
||
40.00 . 86.37 _J r OA 4.20 -.2 8 5-.Q3 6.33
|
||
30.90 66.72 i E OA 5.70 5.28 6.83 6.33
|
||
OA 52.50 113.36 1 F OA 4.70 5.28 5.63 6.33
|
||
OA 35.00 75.57 _J A W7Q 11.50 B.RQ 13.71 10.49
|
||
3888 HF I 0.20 0.43 EV 0.90 1.07
|
||
3967 (NE I II ) 3.00 6. 09 A OA 11.30 8.80 13.47 10.49
|
||
ioi.no 204.99 C OA 5.30- B.flO 6.32 -10.49
|
||
C OA 51.50 75.16 104.52 152.54 1 E OA 9.30 8.80 11.09 10.49
|
||
D OA 117.00 75.16 237.46 152.54 1 F OA 6.60 8.80 7. 87 10.49
|
||
£_ QA— 62.80 75.-16 127.46 152.56 _j n na 66.00 55. 1 5 77^57 64.82
|
||
F OA 43.50 88.29 152.54 OA 44.30 55.15 52.07 64.82
|
||
EV 0. 20 0.41 AW70 62.00 61.12 71.32 70.31
|
||
-A- OA— 39.90 EV
|
||
l B OA 14. 50 18.53 29. 37 37.54 1 B OA 46.30 61.12 53.26 70.31
|
||
1 C OA 17.60 18.53 35.65 37.54 l C OA 71.70 61.12 82.48 70.31
|
||
_J CL QA- 21.2.0 18.53 42.94 37.54 -J E— 64. 50 6L. 1 2
|
||
OA 23. 80 18.53 48. 21 37.54 IAR IV ) 1 AW70 18.50 20.84
|
||
OA 14.40 18.53 29.17 37.54 2 EV 3.00 3.38
|
||
CUD CU-0 2 A CIA
|
||
5.80 11.23 11.90 13.41
|
||
10.00 19.37 19. 50 21.97
|
||
4.60 8.91
|
||
8.80 17.04 E OA 14.50 16.34
|
||
7.70 14.91 F OA 12.40 13.97
|
||
-5.40 10.46 A W 70
|
||
EV 0.0 0.0 2 FV 3.00 3. 38
|
||
A OA 5. 80 11.23 2 A OA 21.00 23.65
|
||
a QA . in.no 19.36 -2 B—QA— 11.90- 13. 40
|
||
4.60 8.90 19.50 21.96-
|
||
8.80 17.04 OA 10.00 11.26
|
||
7.70 14.91 OA 14.50 16.33
|
||
5.40 10.45 OA 12.40 13.96
|
||
( S 11)1 0. 30 0. 56 AW70 6.60 7. 36
|
||
QA L6.QQ.. 20.40 29.87 _QA 6.,40- Ml 4-
|
||
1 B OA 23.60 20.40 44.05 38.08 6.00 6.69
|
||
1 C OA 16. 80 20.40 31. 36 38.08 OA 3.90 4.35
|
||
_i D QA 25.00 20.40 46.66 33.08 (AR TV 1 1 AW70 30.00 33^01
|
||
1 27.40 20.40 51.14 33.08 EV 10.00 11.00
|
||
1 OA 13.60 20.40 25. 39 38.08 A OA 32.80 22.03 36.09 24.24
|
||
_4076 < S Till EV 0.0 A 9.35 Q.Q 17.34 -C ..QA— 18.30 22.03 20.13 . 24.24
|
||
A üA 7.30 9.35 13.54 17.34 1 12. 50 22.03 13.75 24.24
|
||
1 B OA 10.00 9.35 18.54 17.34 1 E 22.60 22.03 24.87 24.24
|
||
1 C QA 5.QQ 9.35 9.27 17.34 _J E— -16.QQ- 22.03- LM60-. 24.24
|
||
l D OA 17. 50 9.35 32.45 17.34 100.00 99.98
|
||
l E OA 10.10 9.35 18.73 17.34 100.00 100.00 99.98 99.98
|
||
_1 F OA 6« 20 9.35 11.50 17.34 _1 C OA 100.00 100.00 99-«-98 99.98
|
||
5.60 .59 10. 20 8.36 l D OA 100.00 100.00 99.98 99.98
|
||
R OA 5.55 .59 10. 11 8.36 1 E OA 100.00 100.00 99.98 99.98
|
||
.-C ..QA— 2« 7.0— . 4* 59 4*32 .36- 1 F OA 100.00 100.00 99.98 99.98
|
||
E OA 5.60 4. 59 10.20 .36 1 B OA 453.00 451.60 453.71 452.31
|
||
F OA .50 4.59 6.37 .36 1 C OA 568.00 451.60 568.90 452.31
|
||
4101 _1 E_y_ 3.63 A _1 D QA . 496.QQ 451.6Q
|
||
341.00 451.60 496.78 452.31
|
||
341.54 452.31
|
||
26. 10 31.32 47.36 56.82
|
||
29.00 31.32 52.62 56.82 400.00 451.60 400.63 452.31
|
||
_1 C QA ,. 28.60 31.52 51 *.89 —56 »..82 2.30 2.30 2.21 2*21
|
||
0 OA 45.00 31.32 81.65 56.82 4931 (0 III) AW70 0.90 0. 86
|
||
1 E OA 35. 10 31.32 63.68 56.82 4958 (0 III) EV 320.00 299.94
|
||
1 F OA 24.10 31.32 43.73 56.82 5006 (0 III) IQQQ.QQ- 9Q7.46
|
||
EV 0.0 3.90 0.0 6.52 1504.00 1364.40 1364.81 1238.13
|
||
A OA 3.00 3.90 5.02 6.52 C OA 2070.00 1364.40 1878.43 1238.13
|
||
E QA 4« 8Q.. 3.90 8.03 -JM .0 QA... 1370.00 1364.40 I 243.?? 1238.13
|
||
17. 00 25. 54 l E OA 944.00 1364.40 856.64 1238.13
|
||
A OA 57.90 55.03 86.98 82.67 1 F OA 934.00 1364.40 847.56 1238.13
|
||
-B QA„ 57.00 55.03 85.-63 82.67 _J AW70 3-60 -3.60 3.25 3.25
|
||
1 C OA 52.60 55.03 79.02 82.67 5041 SI II AW70 2.70 2.70 2.39 2.39
|
||
L D OA 75.00 55.03 112.67 82.67 5047 HE I AW70 1 .40 1.40 1.23 1.23
|
||
_J F ÛA -49.2H- 55.03 73.91 _82.ai . 5056 SI II AWZQ 3.20 2.BO 2-80
|
||
F 38.50 57.84 5113 0 AW70 0.40 0.40 0.33 0.33
|
||
EV 16. 00 23.62 5158 (FE VII ) AW70 0.50 0.50 0.41 0.41
|
||
-A QA- 54.30 41.48 80*16 5176 ÇFE VI. 1 AW70 0 « 30 0.30- 0.24 0*2.4
|
||
B OA 37. 00 41.48 54.62 61.24 5191 (AR III) AW70 1.30 1.30 1.03 1.03
|
||
C 0A 41.60 41.48 61. 41 61.24 5198 (NI ) A W70 8.40 8.40 6.62 6.62
|
||
0 OA 45.00 41.48 66.43 61.24 EV Q.Q A B.4Q— . .0*0 _A 6.62
|
||
OA 40.70 41.48 60.09 61.24 5200 A W70 6.60 6.60 5.20 5.20
|
||
OA 30. 30 41.48 44. 73 61.24 5207 EV 0.0 0.0 0.0 0.0
|
||
NGC 6302 (PK NO. 349+ 1 1) NGC 6302 (PK NO. 349+ 1 1)
|
||
|
||
548
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 63Q2 (PK NQ. 349» 1 1) NGC 6309 (PK Nfl. 9+U 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
5270 (FE III I 1 AW7CL. Q »30. Q.3.0 0*23. 0.23 3726 (0 II) I O CA70 26,40 27.70
|
||
5297 1 AW70 1.00 1.00 0.74 0.74 1 P CA70 61.00 64.01
|
||
5304 I AW70 0.40 0.40 0.29 0.29 1 PER 24.00 25. 18
|
||
5309 (CA V L J AW7Q_ 0170 Q*-.7jQ— _0*. 372 8 _i_Q U ) l. AW 23» 00 30».*3
|
||
5313 1 AW70 0.60 0.60 0.44 0.44 1 2 AW 4. 4.83
|
||
5335 (FE VI I 1 AW70 0.30 0.30 0.22 0.22 1 3 AW 4.20 4.41
|
||
5411 _ HE II AH7 0_ 12.40 12.40 8..5Q -J 4_A W -2.30 2.41
|
||
5517 1 A AE2 0.32* 0. 20* 1 C CA70 4. 50 4.72
|
||
1 AW7 0 0.70 0.45 1 C2 CA70 6. 10 6.40
|
||
_I A AE2 -1.00*— Q.-634 . _1 Q C A 70 20.30 21.30
|
||
l AW7 0 2.30 2.30 1.45 1.45 1 1 AW 2.90 2.63 3.04 2.76
|
||
5630 (FE VI ) l AW70 0.20 0.2 0 0. 12 0.12 l 2 AW 2.30 2.63 2.41 2.76
|
||
5 <>.77 . (FE ..VI > J AH70- 0.50 CL»50 0*29 0.29 _J C_CA70 2.7Q - 2.63 2.83 2.76
|
||
5721 (FE VIII l AW70 1.10 A 0.62 A I C2 CA70 3.00 .15 A
|
||
5754 (N II I l AW70 33.00 33.00 18.31 1 O CA70 2. 80 2.94 A
|
||
.EV 14.00 A 7.77 A- 3 740 HE II __l C CA7Q JL. 6Q _ 0.63
|
||
5801 C IV l AW 70 0.80 A 0.43 A 1 C2 CA70 0.70 0.65 .73 0.68
|
||
5812 C IV l A W70 0.30 A 0.16 A l 1 AW 2.90 3.05 3.04 3.20
|
||
5875 —HE I— J A W7 0 40.00 20.73 _l 2 AW .2.70 3.05 ¿.83 3.20
|
||
1 EV 15.00 A 7.77 A l C CA70 3. 00 3.05 3. 14 3.20
|
||
5978 SI II 1 EV 5.00 A 2.44 A 1 C2 CA70 3.60 3.05 3.77 3.20
|
||
6300 _JJD I L J E-V 35.00 A 14*35 A_ _1 C CA70 3.30 A 3.46 A
|
||
6312 III I 1 EV 4.00 A 1.63 A 1 1 AW 0.60 2. 50 0.63 2.62
|
||
6363 ) 1 EV 11.00 A 4.38 A l 2 AW 3.60 2.50 3.77 2.62
|
||
64.03 J E-V— 6.00 A 7.35 A _1 C CA7Q ■3» 6Q - 2.5Q 3*77 2 «-62
|
||
6435 ( AR V ) EV 8.00 A 3.08 A 1 C2 CA70 2.20 2.50 2.31 2.62
|
||
6548 (N II) EV 470.00 A 171.77 A l 1 AW 1.40 5.24 1.47 5.49
|
||
i?n.Q.nn ^ 435.40 A -J 2-AW 7.5Q 5.24
|
||
6583 (N III EV 2100.00 A 754.31 A l C CA70 .20 5.24 7.54 5.49
|
||
6716 (S II I AE2 0.48* 0. 16* l C2 CA70 6.60 5.24 6.91 5.49
|
||
3(U0n . 10.17 A _J H f.A70
|
||
( S Till 1.00* 0. 34* 6.00 4.58 6.28 4.80
|
||
170.00 A 57.28 A 2 AW 3.80 4.58 3.98 4.80
|
||
3 AW 4.58 4.87 4.80
|
||
REGION KEY (REG I ON,REFERENCE,EXPLANATION) l C CA70 4.00 4.58 4.19 4.80
|
||
A, AE2 , REGIONS A AND B ON DIFFERENT SCALES 1 C2 CA70 4. 50 4.58 4. 71 4.80
|
||
A, PA , ? ARP.MIN FAST _1 O-C A7Q— 4.60 4*58 4 .-82 4.80
|
||
B, OA ,6 ARCMIN EAST 1 C CA70 0.50 0.55 0.52 0.58
|
||
C, OA , 0.7 ARCHIN WEST 1 C2 CA70 0.60 0.55 0.63 0.58
|
||
0» OA . 5 ARCMIN WEST 1 C7 CA70 0-60 0.60 0-63 0.6.3
|
||
OA , 2.5 ARCHIN NORTHEAST 3791 0 III l C CA70 0.90 0.80 0.94 0.84
|
||
OA , 2.5 ARCHIN SOUTHWEST 1 C 2 CA 70 0. 70 0.80 0. 73 0.84
|
||
3797 H T J 1 AW 7.20 6. 16
|
||
NGC 6302 (PK NO. 349+ l I» l 2 AW 5.60 6.16 5.86 6.44
|
||
1 3 AW 5.80 6. 16 6.07 6.44
|
||
-J C-CA70- -5l-. 80 -
|
||
1 C2 CA 70 6.40 6. 16 6.69 6.44
|
||
BEGIN NGC 6309 (PK NO. 9+14 1) C = 0.07 (HYDROGEN LINES) l O CA70 5. 80 6.16 6.07 6.44
|
||
_L. f-7_C-A70_ 0.60 0.60 0.63 0.63
|
||
WAVE IDENT N RG RFF OBS I AVE 0 CORR I AVE C 3813 HF II 1 C2 CA 70 0.80 0. 80 0.84 0.84
|
||
3132 0 III l C CA70 11.40 11.10 12.29 11.97 3819 HE I l C CA70 0.50 1.17 0.52 1.22
|
||
1 C 7 CA70. 1 1-64 -11.47 1 C2 C.A7C
|
||
1 C CA70 28.00 25.00 30.09. 26.87 1 0 CA70 2. 30 1.17 2.40 1.22
|
||
l C2 CA70 22.00 25.00 23.64 26.87 l l AW 8.80 8.17 9.19 8.53
|
||
_J C CA70 5.50 6. 1 0 3. 88 6.57 —1 2 -AH B-.4Q 8.17 8.77 3.53
|
||
1 C2 CA70 6.70 6.10 7. 16 6.52 1 3 AW 7.90 8.17 8.25 3.53
|
||
3312 0 III 1 C CA70 10.70 11.00 11.43 11.75 l 4 AW 8.50 8.17 8.87 3.53
|
||
l C2 C A 70 11.30 11.00 12.07 11.75 l C CA 70 7.80 8.17 8.14 8.53
|
||
3340 0 III 1 C CA70 17.30 15.65 18.46 16.70 1 C 2 CA 70 7.90 8.25
|
||
l C2 CA70 14.00 15.65 14.94 16.70 i O CA70 7.60 8.17 7.93 8.53
|
||
3342 -1 NE III) _2 C -C-A7 Q _ 74. 70 25.82 _1 0_ 95.00 7<u_BQ 99.03 8J.Q6-.
|
||
2 C2 CA70 11.00 11.74 1 1 AW 63.00 65.67
|
||
2 C CA70 24.20 25. 82 2 AW 49.00 51.08
|
||
_2 C2 C A 7Q _ 11.00 11*7? 3 AW 73. QQ 76.8Q 76. Q9 80.06
|
||
47.00 49.95 1 4 AW 78.00 81.31
|
||
2 C CA70 43.40 46. 13 1 C CA70 87.00 A 90.69 A
|
||
.2 C2 Ç.A7Q- 34.60 36*78 1 C 2 CA 70 66.00 A 68.80 A
|
||
3425 0 III 47.00 49.95 O CA70 74.00 76.80 77.14 80.06
|
||
3428 0 III 2 C CA70 43.40 46. 12 l P CA70 83.60 76.8 0 87. 14 80.06
|
||
2 C2 CA70 34.60 36.77 _1 P£E 71.00 76.80 74. 01 80,(26-.
|
||
1 C CA70 28.30 31.77 30.05 33.74 VV5 73.00 76.09
|
||
1 C2 CA 70 33.00 31.77 35. 05 33.74 2 C2 CA70 17.30 18.02
|
||
1 0 CA70 3^J2_ 31»J7 36. 11 -33.7A 2 0 CA70 17.00 17.70 A
|
||
3682 1 C2 CA70 0.40 0.40 0.42 0.42 1 AW 19.00 19. 79
|
||
3686 1 C CA70 0.70 0.65 0.74 0.68 2 2 AW 13.60 14. 16
|
||
1 C2 CA7Q - 0.60 0.65 0.63 0.68 2 3 AW 15.50 16.14
|
||
H I 1 C CA 70 1.00 1.00 1.05 1.05 2 4 AW 14.00 14.58
|
||
1 C2 CA 70 1.00 1.00 1.05 1.05 2 C CA70 14. 80 15.41
|
||
-3697 _H I— 1 C CA70 L..20 1*25. -l. ¿6. -1.3JL 2 C2 CA70 17.30 18.02
|
||
1 C2 CA 70 1.30 1.25 1.37 1.31 2 O CA7C 17.00 17.70
|
||
1 C CA70 1.40 1.40 1.47 1.47 3 VV5 73.00 76.02
|
||
2 C2 CA70 3.00 3.15 -3 889 . he J_ _22 21__AW 12*.QQ
|
||
3705 1 C CA70 0. 85 0.89 AW 13.60 14. 16
|
||
2 C2 CA70 3.00 3. 15 2 3 AW 15.50 16. 14
|
||
-.3712 1 C CA70 1.80 2 4 AW 14.00 14. 58
|
||
1 C2 CA70 1.70 A 1.78 ? C CA 70 14.80 15.41
|
||
2 C CA70 2. 10 2.20 3 VV5 73.00 76.02
|
||
2 C2 LAID - 2.20 2.11 1 C CA 70 1.00 0.95 1.04
|
||
2 O CA70 .30 4.51 L C2 CA 70 0.90 0.95 0.94 0.99
|
||
2 1 AW 4. 10 4. 30 1 C CA70 1.00 0.90 1.04 0.94
|
||
__2 2 AW ¿-.-40 2.52 1 C2 CA7Q Q_«-8.Q 0*90 0.83 0.94
|
||
2 C CA70 2.10 2.20 (NE III) 2 45.00 46.71
|
||
2 C 2 CA70 2.20 2. 31 1 l AW 34.70 31.10 36. 02 32.28
|
||
_2 Q CA7Q - .30 4.51 _1 2 AW ¿8.40 —31.J-Q - 79- 48 32.28
|
||
3721 (S HI) 2 1 AW 4. 10 4.30 1 3 AW 33.70 31.10 34.98 32.28
|
||
2 2 AW 2.40 2.52 1 4 AW 32.70 31.10 33.94 32.28
|
||
3726 -JLO LL—L- —4.9*32 -J C CA7Q . 26.. 00 31.10 26.-9.2 32.28
|
||
1 1 AW 40.00 41.97 1 C2 CA70 22.00 22.84 A
|
||
1 2 AW 7.90 8. 29 1 O CA70 28.00 29.06 A
|
||
1 3 AW 11.40 LL.96. -2 P CA7Q
|
||
l C CA70 8.10 8.50 30.00 31. 14
|
||
1 C2 CA 70 10.40 10.91 45.00 46.71
|
||
NGC 6309 (PK NO. NGC 6309 (PK NO. 9+14 1)
|
||
|
||
549
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NQC 63Q9 (PK NO*. 9+14. n NGC 63Q9 (PK bill.
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3967 H I _L 1 AJd 11.10 13.8? _X1.?2- 14.38 4740 (AR IV ) 1 AW7Q-. S.feQ 9.70 8.64 9.7?
|
||
1 2 AW 14.50 13.85 15.05 14.38 1 C2 CA70 14.30 9.70 14.37 9.75
|
||
1 3 AW 13.20 13.85 13.70 14.38 i O CA70 6.20 9.70 6.23 9.75
|
||
1 4 AW 11.80 13.85 _L¿ t 2 5_ 14.38 4X4 Q _1 C_CA7Q_ 16. 8Q 16. BQ 16.BB 16-BB
|
||
l C CA70 15.80 16.40 100.00 100.00 100.00 100.00
|
||
1 C2 CA 70 15.00 A 15.57 l C CA70 100.00 100.00 100.00 100.00
|
||
_1 O CA7Q 16.70 13.8? -17.33- 1 C2 CA70 - 1QQ.QQ 10-fl.QQ- 100.00 100.00
|
||
CA70 34.30 35.60 1 P CA 70 100.00 100.00 100.00
|
||
VV5 30. 00 31.14 1 COAL 100.00X 100.OOX
|
||
CA7Q 0.70 Û. 73 _J . 1QQ.-Q0- _ 100.00 100.00 100.00
|
||
1 C2 CA70 0.40 0.41 1 VV 5 100.00 100.00 100.00 100.00
|
||
2 C CA70 3.20 3.31 4864 1 O CA70 100.00 100.00 99.99 99.99
|
||
? r.2 r.A70 3.00 49.58 lili -1 A_ 40Q.Q0 377.50 398.64 376.22
|
||
3.70 3.83 l C CA70 350.00 377.50 346.81 376.22
|
||
2.30 3.10 2.38 3.21 1 C2 CA70 315.00 377.50 313.93 376.22
|
||
3.90 3.10 4.04 3.21 1 P-CA7Q 416«ÚO 377.50 414.59 376^22
|
||
2 C CA70 3.20 3.31 1 PER 445.00 377.50 443.49 376.22
|
||
2 C 2 C A 70 3.00 3. 11 l VV5 339.00 377.50 337.85 376.22
|
||
_2 Q C-A7O 3.70 -3.83 _JLO LLLL J A_ 1Q1Q.0Q 1250.00 1004.85 1243.63
|
||
l C CA70 3.00 4. 10 3. 10 4.24 1 C CA70 1050.00 1250.00 1044.65 1243.63
|
||
l C2 CA70 3. 10 4.10 3.20 4.24 1 P CA70 1160.00 1250.00 1154.09 1243.63
|
||
_L G-£-A7.Q-- 6.20- 4.10 -6.41 4.24 _1 CQAL -1549.QÛX 1341.11X
|
||
4076 1 C CA70 8.50 A 8.78 PER 1340.00 1250.00 1333.17 1243.63
|
||
1 C2 CA70 1.60 l.CO 1.65 1.65 VV5 1690.00 1250.00 1681.39 1243.63
|
||
4097 _1 2 AW 3.60 2^8-Q -3.72 2.8.9 ? 158 (FE VII1 AH70 Q. 23 Û.23 0.23-- Q.23
|
||
1 C CA70 3.20 2.80 3.30 2.89 5176 (FE VI ) AW70 0. 18 0.18 0.18 0.18
|
||
1 C2 C A 70 2.80 2.80 2.89 2.89 5191 (AR III) 1 A W70 0.30 0.30 0.30 0.30
|
||
_J □ XA7Q 1.60 2. BQ -1.65. 2.89 -5X9 8 _LN I L. 1 AW7Q 0-39 Q. 3 9 0.39 0X39
|
||
29.40 30.34 5200 (NI ) 1 AW70 0.46 0.46 0.45 0.45
|
||
26.00 28.20 26.83 29.10 5411 Hc I I l AW70 6.70 6.70 6.57 6.57
|
||
-24.20- 28.20 24.97 29.10 5517 (CL III) 1 IA AE2 0.95* Q. 93*
|
||
28.60 28.20 29. 51 29.10 1 AW70 0.80 0.80 0.78
|
||
28.20 28.20 29. 10 29.10 5537 1 IA AE2 1.00* 0.98*
|
||
26. 30 28.20 -27. 14 29.1-0- _1 AW70-.. 1.07 1.04
|
||
l C CA70 27.60 28.20 28.48 29.10 5754 ( N II) l AW70 0.90 0.90 0.87 0.87
|
||
1 C 2 CA 70 28. 00 28.20 28.89 29.10 5875 HE I 1 AW7C 8.70 26.35 8.40 25.45
|
||
_i O C A 7 O 28.20 29.10. I PER 44.00 26.35 42.50- 25.45
|
||
CA70 29.40 30.34 PER 216.OOX 204.78X
|
||
PER 32.00 28.20 33.02 29.10 VV5 957.00 907.27
|
||
VV5 28.20 29.10 _UI 1I_) 2— VV5 957.00 -907.27
|
||
4143 HE I 1 C CA 7O 1.20 1.20 1.24 1.24 6584 (N II) I PER 150.00 142.13
|
||
4199 HE I I 1 C CA70 2.90 2. 50 2.98 2.57 6717 (S II) I IB AE2 0.72* 0.68*
|
||
l C 2 CA 70 2^57- 2 AE2 0^69* - 0.65*
|
||
1 C CA70 1.30 1.77 1.33 1.81 6730 ( S II) 1 IE AE2 1.00* 0.94*
|
||
1 C2 CA 70 0.80 1.77 0.82 1.81 I 2 AE2 1.00* 0.94*
|
||
-1 C CA7Û 1 n mu XS TV ) J QMS 59 0.-00 502.17
|
||
4275 O I I i C CA70 0. 80 0.70 0.82 0.72
|
||
1 C 2 CA 70 0.60 0.70 0.61 0.72 REGICN KEY (PEG ION»REFER ENCE,EX PLANAT ION)
|
||
4^40 —H I -J A 4T.33 44.-2JL IA. AF2 PA=32D DFG.. 4 ARr.SFf. FROH STAR A.R ON DIF. Sf.AI FÇ
|
||
I r CA70 48.00 49.04 AE2 PA=165 DEG., 8 ARCSEC FROM STAR A,B ON DIF. SCALES
|
||
l C2 CA70 45.00 45.98 A AW STRONGEST 3727 BLOB
|
||
-1 n 0370
|
||
PER 40. 00 40. 87 3, AW FARTHEST AWAY FROM REGION 1
|
||
VV5 50.00 51.08 4, AW FCL-250, WITH IMAGE ROTATOR
|
||
-LO LL LL CA 70 ■ 21.00- 21.44 0-A7 0. O.FNTFR
|
||
1 C 2 C A 70 19.00 19.67 19. 39 20.07 C AT 0, 2 ARCSEC EITHER SIDE OF CENTER
|
||
L 0 CA70 19.00 19.6 7 19.39 20.07 C A7 01 3727 RING 5 ARCSEC FROM CENTER
|
||
2 VV 5 50.00 51.04 CA70, PHOTOELECTRIC SCAN OF WHOLE NEBULA
|
||
4366 0 I I I C2 CA 70 0.50 0.50 0.51 0.51
|
||
4379 N III 1 C CA70 1.60 1.55 1.63 1.58 NGC 6309 (PK NO.
|
||
1 C2 CA7Q 1. 50 L.-55 1.53 1.58-
|
||
4387 C CA70 1.00 0.80 1.02 0.82
|
||
1 C2 CA70 0.60 0.80 0.61 0.82
|
||
4471 HE I -I C CA70 2.80 4.53 -2.85 4.61 -£¿51N NGC 6326 ( PK NO. 338 -8 1) 0.28 (RADI0—H BETA)
|
||
1 C2 CA70 4.00 4. 53 4.07 4.61
|
||
l C CA 70 6. 80 4.53 6.91 4.61 WAVE IDENT N RG RFF OBS I CORR I
|
||
__LK LXJL 1 C2 CA7Q 0. 50 0.50 _0.51 0.51 332 7 —LO II ) 3 XE 93.00 112.73
|
||
C CA70 5.90 5.3 5 5.98 5.42 1 EV 18.00 21.82 A
|
||
L C 2 CA 70 4. 80 5.35 4. 87 5.42 1 EV 0.20 0.24 A
|
||
_1 C CA 70 1.00 l.QQ -J..Q1 1.01 .3370 1 EV 0. 40 Q«-4£_ A -
|
||
1 C CA70 5.00 3.95 5.05 3.99 3797 H T 0.60 0.72 A
|
||
1 C2 CA 70 2.90 3.95 2.93 3.99 3835 H I 1.10 1.31
|
||
__2 O CA7Q 3.70 _3 » 74 3868 (NF III) AF 88.00 9-5.00 _103t?JL 103.90
|
||
1 C CA70 4. 00 5.60 4.04 5.65 EV 23.00 27. 16
|
||
1 C2 CA 70 7.20 5.60 7.27 5.65 3888 EV 3.30 3.98
|
||
-2 ü_3LA7 0_ 3.70 _3.73- 3998 __2 £X_ 3.30 3.88 A
|
||
4647 C III I C CA 70 1.90 2.25 1.92 2.27 3967 (NE III) 12. 00 13.93 A
|
||
1 C2 CA 70 2. 60 2.25 2.62 2.27 3970 H I 34.00 39.45
|
||
4658 _£ LY 3 C C.A70 1.40 1.30 1.41 1.31 1.50 1.7 4- A
|
||
C 2 C A 70 1.20 .30 1.21 1.31 3970 (NF III) 34.00 39.45
|
||
4669 C CA70 0.70 0.70 0.71 0.71 4026 HF I 0. 50 0.57
|
||
4676 C CA70 .90- 0.90 -O^ 0.91 4068 (S II) 0.80 0.91
|
||
77. 00 69.71 77.57 70.23 4101 H I 1 AF 41. 00 46.48 46.48
|
||
1 C CA 70 90.90 69.71 91.57 70.23 1 EV 11.00 12.47 A
|
||
1 C2 CA7P 49.20.- 69.71 -48,5.6 . 70.23 4340 H I_ __2 XE_ 67,00 73.00-
|
||
C A 70 34. 50 69.7 1 34.76 70.23 l 17.00 18.52 A
|
||
CA70 66.40 69.71 66. 89 70.23 1 44.00 47.94 47.94
|
||
PF P 86.00 69.71 86.64 70.23 4363 _LQ 111)2 AF 61X10 72.73
|
||
VV 5 85.00 85.63 EV 5.00 5.43 A
|
||
(AR IV ) A W7 0 9.30 9. 36 4471 HF I 1 EV 23.00 24.56 A
|
||
C CA 70 70.20 -2-Q.33 4541 HE II _1 £Y_ 0^-80 O. 84 A
|
||
2 C? CA7C 18. 60 18.72 4640 III EV 0. 70 0.73 A
|
||
7 C CA70 7.60 7.65 4640 0 II EV 0.70 0.73 A
|
||
__2 P C A 7 Q 18. 00 -L8.11 4685 HE I I AF_ 00 34.00 35.02 3-5, 0-2-
|
||
7 AW70 9.30 9.36 1 EV IS. 00 18.54
|
||
7 C CA70 20.20 20.33 4740 (AR IV ) 1 EV 1.30 A 1.33 A
|
||
2 02—LAXO— - 18.60 18.7? 4861 ü I J AX- 1QQ.-QQ 1QQ.QQ 100 no ion.on
|
||
2 O CA70 7.60 7.65 1 100.00 100.00 A
|
||
2 P CA7C 1 8.00 18.11 l 100.00 100.00 100.00
|
||
__L C. CA70 3. 50 —3.5? 4958 __LQ III) 2 1530.QQ 1509.29
|
||
1 C2 CA70 2.10 2.11 EV 294.00 290.02 A
|
||
1 O CA70 L. 10 1.11 (0 III) AF 1530.00 1499.03
|
||
NGC 6309 (PK NO. NGC 6326 (PK NO. 338 -8 1)
|
||
|
||
550
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGr 6326 (PK NQ. -fl 1> NGC 6445 (PK NO. 8» 3 1)
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
5006 (0 III! 1 EV 1040«00 1018.95 A 3967 I NE III) 1 AV ACCK 41.00 41.00 53.51 53.51
|
||
1 WB 1410.00 1410.00 1381.46 1381.46 3970 H I 1 AV ACCK 10.00 13.04 13.04
|
||
II 1 l EV 232.00 A 187.41 A 2 M 38.00X 49.55X
|
||
_2 a 18.QQX -69.55X—
|
||
END NGC 6326 (PK NO. 338 -8 1) 4026 HE I l AV ACCK 2.20 2.20 2.82 2.82
|
||
4068 (S II ) l AV ACCK 5.40 5.40 6.83 6.83
|
||
4076 (S III 1 AV ACCK 2.70 2,70 3.41 3.41
|
||
1 AV ACCK 22.00 22.25 27.53 27.84
|
||
BEGIN NGC 6369 (PK NO. C = 2.09 (RADIO—H BETA) 1 RH ACCK 24.00 22.25 30.03 27.84
|
||
1 RL ACCK 22.00 22.25 27.53 27.84
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C C ACCK 21.00 22.25 26.28 27.84
|
||
3 869 (NE III ) 1 M 35.00 35.00 120.73 120.73 41.00 44.60 47.78 51.98
|
||
3970 HI 2 M 14.00 6^65. 42.00 44.60 48,95 51.98
|
||
3970 (NE III) 2 14.00 42.45 l RH ACCK 47.00 44.60 54. 78 51.98
|
||
4101 H I 1 8.00 8.00 20.42 20.42 1 RL ACCK 47.00 44.60 54.78 51.98
|
||
4340 2?. OH 23,00 43. 62 43.62 _1 C ACCK 46.00 44.60 53.61 51.98
|
||
4363 (0 III) 10.00 10.00 18.45 18.45 1 M 45.00X 52.45X
|
||
4861 100.00 100.00 100.00 100.00 1 AV ACCK 18.00 17.75 20.84 20.55
|
||
—QD-63 IQQ.Qfl- 100.00 100.00 lQfl.É-QQ 1 RH ACCK 18.00 17.75 20.84 20.55
|
||
4959 (0 i m i 670.00 670.00 605.16 605.16 1 RL ACCK 16.00 17.75 18.52 20.55
|
||
5007 (0 im i M 1990.00 1734.50 1708,03 1488.73 1 C ACCK 19.00 17.75 22.00 20.55
|
||
_L_ ■ flP.63 L4Ig_«_Q-Q_ 1734.50 1269.44 i4aa.73 ln_ 1Q.QQX 11.58X
|
||
10 MU (S IV ) 1 7.07 l AV ACCK 6.00 5.33 6.75 6.00
|
||
l RH ACCK 4.00 5.33 4.50 6.00
|
||
END NGC 6369 { PK. NQ. 2* 5 l) 1 RL ACCK 6 «00 _5.33 6.75 6.00
|
||
HE II 56.00 51.40 59.02 54.17
|
||
l AV ACCK 65.00 51.40 68.51 54.17
|
||
1 RH ACCK 55.00 51.40 57.97 —54.17_
|
||
BEGIN NGC 6439 (PK NO. 11+ 51) = 0.82 (RADIO—H BETA) 1 RL ACCK 5.00 51.40 5.27 54.17
|
||
1 C ACCK 76.00 51.40 80. 10 54.17
|
||
WAV£- IDENT N -RG...REF QBS 1- AVF 0 CORR I 4.0,00 X 42.16X
|
||
3727 (0 II VV4 11.00 19.32 4711 (AR TV ) 2 AV ACCK 5.10 5.33
|
||
3 869 (NF II 64.00 56.00 104.03 91.03 4713 HE I 2 AV ACCK 5. 10 5.33
|
||
48.00 56.00 78.-0? 9-1.03 4740 (AR IV ) 1 AV ACCK «-&Q 3.94
|
||
H I 2 23.00 35.54 100.00 1 CO.00 100.00 100.00
|
||
2 VV4 25.00 38.63 l AV ACCK 100.00 100.00 100.00 100.00
|
||
3970 (NE III) 2 _M - 23.00- ^ 5. 54 1 RH ACCK 100.00 -1 00.00
|
||
25.00 38.63 l RL ACCK 100.00 100.00 100.00 100.00
|
||
14.00 14.00 20.22 20.22 1 C ACCK 100.00 100.00 100.00 100.00
|
||
14.00- 14.-00 20,?? 20.22 -4 X— 100,00 1-00.00 100.00 100.00-
|
||
H I 1 27.00 29.00 34. 71 37.28 100.00 100.00 100.00
|
||
1 31.00 29.00 39. 85 37.28 1100.00 1073.54
|
||
-4-0 I-I-Il 1 - -0*0 A— -0*0 A- ^qn.nn -47.fi . ? 1
|
||
4686 M 14.00 20.50 15.26 22.34 1 RH ACCK 515.00 487.00 502.61 475.28
|
||
VV4 27.00 20.50 29.43 22.34 l RL ACCK 475.00 487.00 463.57 475.28
|
||
4861 100-00 100-00 100-00 100-00 -J f. ACCK 575.00 4.87.00 -561.17 475.?fl
|
||
0D63 100.00 100.00 100.00 100.00 M 380.00 370.86
|
||
VV4 100.00 100.00 100.00 100.00 VV5 180.00* 175.67*
|
||
-VV5 ion.nn inn.nn ion.no 100.00 -Û- 110Ü,ÛQ 1 060.57
|
||
II ) l 340.00 339.33 326.69 326.05 1 AV ACCK 1510.00 1419.33 1455.80 1368.39
|
||
I 360.00 339.33 345.91 326.05 l M 1050.00 1419.33 1012.31 1368.39
|
||
318.00- 339.33 305. 55 326. _j nn \aqr.nn 1419.33 1637.05 4 368.39 .
|
||
(0 III) 970.00 986.25 913.56 928.86 VV5 180.00* 173.54*
|
||
0D63 1122.00 986.25 1056.71 928.86 5517 (CL III) A AE2 0.92* 0.78*
|
||
VV4 1 non-00 986.2-5-. 941.81 928.86 5537 (Cl III) A AE? i . nn* 0.84»
|
||
VV5 853.00 986.25 803.37 5876 HF T AV ACCK 30.00 23.43
|
||
HE67 1.00*A 0. 54*A 6300 (0 I ) AV ACCK 24.00 17. 17
|
||
VV4 960.00 513.79 6312 (S III ) AV ACCK 24.00 17. 13
|
||
VV 5 1000.00 535.20 6548 (N II ) AV ACCK 1820.00 1246.61
|
||
VV4 960.00 513.79 6563 H I AV ACCK 1820.00 1243.17
|
||
VV 5 1000.00 Í>35t¿Q VV5 i*2Q..-00* 218.58*
|
||
6584 (N II ) 1 HE67 0.20*A 0. 11 *A 6563 ( N III 2 VV5 320.00* 218.58*
|
||
6584 (N II ) 3 AV ACCK 1820.00 1238.37
|
||
END -NGC 64.39 ( P>l_NQ., 11+ 5 1) 6717 JLS II ) 1 B AE2 Q« 78* 0.52*
|
||
6723 (S II ) 1 AV ACCK 125.00 83. 14
|
||
6730 (S II ) l B AE2 1.00* 0.66*
|
||
7065 HE I 1 AV ACCK 6.8 4.29 . 4.29..
|
||
BEGIN NGC 6445 (PK NO. C = 0.50 (HYDROGEN LINES) 7135 (AR III) 1 AV ACCK 27.00 27.00 16. 6 16.88
|
||
7325 (0 II ) l AV ACCK 65.00 65.00 39.55 39.55
|
||
WAVE N RG REF OBS I CORR I AVE C
|
||
3722 HI 2 AV ACCK 1.70 2.40 REGION KEY (REG I ON,REFEPENCE,EXPLANAT I ON)
|
||
3722 ( S I II) 2 AV ACCK • 1.70 2.40 AV, ACCK, AVERAGE
|
||
3726 (0 II ) 1 A 20.0,00- 282.Q9 -Ct ACCK^Xf.NJER-
|
||
1 AV ACCK 110.00 155.15 RH, ACCK, HIGH EXCITATION PART OF RING
|
||
1 RH ACCK 136.00 191.82 PL, ACCK, LOW EXCITATION PART OF RING
|
||
1 RL ACCK 158.QQ 222.85 A, AE2 , REGIONS A AND B CN DIFFERENT SCALES
|
||
1 C ACCK 122.00 172.08
|
||
) 1 AV ACCK 101.00 142.32 NGC 6445 (PK NO.
|
||
1 PH ACCK . -HUQQ- 156.41
|
||
RL ACCK 172.00 242.36
|
||
1 C ACCK 118.00 166.27
|
||
1 AV ACCK 1.40 1.97 BEGIN NGC 6537 (PK NO. 1.85 (RADIO-H BETA)
|
||
3750 I 1 AV ACCK 1.90 1.90 2.66 2.66
|
||
3755 III 1 AV ACCK 0.70 0.70 0.98 0.98 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3759 III 1 AV AG.çk . 1.50 1.50 2.09 2.09 3341 0 III ACPG 412.00 412.00 2.290, 2290,30 .
|
||
3770 1 AV ACCK 2.40 2.40 3.34 3.34 3426 (NE V ) 1 ACPG 1125.00 1125.00 5628. 79 5628.79
|
||
3797 1 AV ACCK 3.20 3.20 4.41 4.41 3444 n ii I l ACPG 88.70 88.70 434. 71 434.71
|
||
3835 1 AV ACCK 5.20 5«2..Q 7. 08 7.08 3722 ACPG
|
||
(NE III) 1 A 120.00 123.60 161.43 166.27 3722 ( S II I) 2 ACPG 13.48 48. 35
|
||
l AV ACCK 129.00 123.60 173.54 166.27 3727 (0 II ) 1 ACPG 34.50 23.01
|
||
1 RH ACCK 124.00 123.60 166.81 166.27 1 VV 1 0.0 XA 34.50 0.0 XA 123.01
|
||
RL ACCK 124.00 123.60 166.81 166.27 3729 II ) 1 ACPG 19.90
|
||
C ACCK 121.00 123.60 162.77 166.27 3 734 I 1 ACPG 5.61 5.61
|
||
94.QQX- . 126« 45X 3750 ACPG 6.14 -6.14 21.30 -21.30 -
|
||
2 AV ACCK 14.00 18.70 3755 1 ACPG 3.06 3.06 10. 10.55
|
||
2 RH ACCK 14.00 18.70 3759 l ACPG 7.54 7.54 25. 25.88
|
||
2 RL ACCK . 15. QQ_ 20.03 3770 JL AC.P-G— Lt-83 7.83 -26. 26.52 -
|
||
2 ACCK 15.00 20.03 3774 l ACPG 2.98 2.98 10. 10.05
|
||
HE I 2 ACCK 14.00 18.70 3791 1 ACPG 2.83 2.83 9. 9.35
|
||
? RH ACCK . 14.00- 18-70 3797 _J ACPG 8.22 6.22 26. 26.96
|
||
ACCK 15.00 20.03 3835 ACPG 10.80 10.80 33.75
|
||
ACCK 15.00 20.03 3868 (NE III) l ACPG 139.40 105.20 315.19
|
||
NGC 6445 (PK NO. NGC 6537 (PK NO. 10+ 0 1)
|
||
551
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGf. 6 517 (PK NH. IQt 0 JU _ NGC 6543 (PK NO. 96+29 1>
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
3868 (NE 11 LI. _L y _LL ÜÛ LQ5.20_ 717? T! S. i 9 3624 HF I 1 S6 BCA 0.57* 0.65»
|
||
0. O XA 105.20 0.0 XA 3634.37 HE I l CAK2 0.65 0.74
|
||
? ACPG 19. 80 57.75 1 CS BCA 0.56* 0.64*
|
||
2 VV 1 Q. Q.-XA Q.Q 0.0 XA I FI BCA 0.54» 0« 62*
|
||
2 ACPG 57.75 L F5 BCA 0.49* 0.56*
|
||
2 VV I 0.0 XA 1 F6 BCA 0.37* 0.42*
|
||
(NE III) 2 ACPG 103.91 I SI BCA 0.63* Q.72»
|
||
2 VV 1 14. 70X 39.37X 1 S2 BCA 0.47* 0.54*
|
||
2 ACPG 38. 80 103.58 1 S3 BCA 0.79* 0.
|
||
_2 M _2_L ..82. 75 - 1 S 5 BCA._ Q.98* . 1. 12*
|
||
14. 70X 39.24X 1 S6 BCA 0.73* 0.83*
|
||
3970 31 00 82. 75 3656.60 H I 1 CAK2 0.07 0.08
|
||
4026 ACPG 3. 15 3t 15 7.90 . 3.657.9Q ti L_ -2 CAK2 Q. 25
|
||
4068 ( S II) ACPG 12. 12.30 29.32 29.32 3657.90 H I 2 CAK2 0.22 0.25
|
||
4076 ( S II) ACPG 1. 1.74 4. 11 4.11 3658.50 H I 1 CAK2 0. 36 0.36 0.41 0.41
|
||
4097 N III ACPG _2 2 »56— . 5..9.Q_ 5.90 -3-660.30 ti L _1 CAK.2 0.30 0.30 0.34 0-34
|
||
21.2 18.10 48.59 41.49 3661.20 H I l CAK2 0. 20 0.20 0.23 0.23
|
||
15.0 18.10 34. 38 41.49 3662.26 H I 1 CAK2 0.29 0.29 0.33 0.33
|
||
VV 1 12.8 i F5 3CA Q.Q7* Q. 08*
|
||
4200 II ACPG 1.91 1.91 3. 91 3.91 1 SI BCA 0. 14* 0. 16*
|
||
4340 I ACPG 36.60 33.80 64.50 59.56 1 F 5 BCA 0.09* 0. 10*
|
||
31.QQ . 33-Rfl 54. ¿.3 1 S5 BCA 0.21 f .0.24*-
|
||
7 VV 1 22.56X 3663.65 H I l CAK2 0.42 0.48 0.48
|
||
1 ACPG 23.80 42.30 40.93 1 F5 BCA 0. 16* 0. 18*
|
||
23.80 39.55 4Q.93 1 Si BCA Q. 19* 0.22*
|
||
VV l 80 X 22.01X 1 S5 BCA 0. 15* 0. 17*
|
||
4471 HF I l ACPG 61 3.61 5.57 5.57 3664.89 H I 1 CAK2 0.37 0.42
|
||
-45_4JL_ HE II 1 ACPG 21 3.21 4.59 4.59 1 F5 BCA 0.23* —(Ll¿6*_
|
||
4634 III 1 ACPG 2.80 3.60 3.60 1 SI BCA 0.17* 0. 19*
|
||
4640 III 1 ACPG 5.42 6.93 6.93 1 S5 BCA 0.34* 0. 39*
|
||
_2 VV 1 30.25X 1 S6 BCA 0.15» 0-17*
|
||
4645 M III 1 30.25X 3666.18 H I i CAK2 0.40 0.46
|
||
4686 HF II 1 ACPG 79.75 114.78 96.86 1 F5 BCA 0.27* 0.31*
|
||
-L 79.75 78-. 95 9iw86— 1 SI BCA 0. 17* Q. 19»
|
||
4711 (AR TV ) ACPG 13. 15.42 1 S5 BCA 0.28» 0.32*
|
||
4713 HF I ACPG 13. 15.39 1 S6 BCA 0. 13* 0. 15*
|
||
4725 (NF TV t ACPG 4. .11 3667.7? H I— -J CAK.2 0.36 0.41
|
||
4740 (AR IV ) 1 ACPG 22. 50 22.50 25.70 25.70 1 F 5 BCA 0.43* 0.49*
|
||
4361 H I l AC P 100. 00 100.00 100.00 100.00 1 S5 BCA 0.62* 0.71*
|
||
O AÇB-G— XIÛ ICO.00- 100.00— 100.00 1 S6 BCA 0. 31 * 0. 35»
|
||
100. 00 100.00 100.00 100.00 3669.49 H I 1 CAK2 0. 37 0.42
|
||
100. 00 100.00 100.00 100.00 1 F 5 BCA 0.43* 0.49*
|
||
100. m loo, oo —LOQ.OO— 100.00 1 SI BCA 0.20».- 0.23»
|
||
1 ACP 33 8 00 380.97 308.88 348.15 1 S5 BCA 0.44* 0. 50*
|
||
l ACPG 309. 00 380.97 282.38 348.15 1 S6 BCA 0.37* 0.42*
|
||
CQAL 416. .90 380.97 380.98 343.15 3671.68 H I_ CAK? 0.50 O- 57
|
||
1 460.00 380.97 420.37 1 F 5 BCA 0.46* 0.52*
|
||
2 VV 1 311.80 284.94 l F6 BCA 0. 14* 0. 16*
|
||
_1 ACE 993.00 867.38 1 51 RFA 0. 36» 1-22-4. 0-0—
|
||
1349. 00 1224.00 1178.35 1069.16 l S5 BCA 0. 64* 0.73*
|
||
1330. 00 1224.00 1161.75 1069.16 1 S6 BCA 0.38* 0.43*
|
||
ILL. m 272.36 -3.673.82 ti I_ _J CAK2 0.58 Q- 66
|
||
5411 HF I I 1 VV 1 80 46.80 27.68 27.68 1 F5 BCA 0.57* 0.65*
|
||
5754 (N II) 1 VV 1 ,10 43.10 19.00 19.00 1 F6 BCA 0. 17* 0. 19*
|
||
3 ft 7 6 HF I J VV. I -50 26.50 10.6? 10-62 - -1. SI RCA 0.33». n.38»
|
||
6300 (0 I VV 1 18. 30 5. 30 1 S 5 BCA 0.82* 0.93*
|
||
6563 H T HE67 1. 00*A 0.24*A l S6 BCA 0.47* 0. 53*
|
||
VV 1 458. 50 111.90 3676.28 H I l CAK 2 0.68 0.77
|
||
6563 (N II VV 1 458. 50 111.90 1 F5 BCA 0.63* 0.72*
|
||
6584 ( N II HE67 1. 00*A 0.24*A 1 F6 BCA 0. 19* 0.22*
|
||
6717 _LS II ) AE2 L. HQ* Q.22* 1 S3 BCA Q.34* Om 39*
|
||
6730 (S II ) AE2 1. 0.22* l S 5 BCA 0. 81* 0.92*
|
||
10 HU ( S IV ) GHS 2420. 00 2420.00 34. 18 l S6 BCA 0. 54* 0.61*
|
||
3679.44 ü I— -1 CAK2 0.72 0.82
|
||
NGC 6537 (PK NO. 10+ 0 1) 1 F 5 BCA 0.61* 0.69*
|
||
1 F6 BCA 0.33* 0. 38*
|
||
1 Si BCA 0-44* Q- 50 *_
|
||
1 S2 BCA 0.38* 0.43*
|
||
BEGIN NGC 6543 (°K NO. 96 + 29 1) C = 0.18 (R ADI 0—H BETA) 1 S3 BCA 0.49* 0. 56*
|
||
1 S 5 BCA 0-97* 1. 10*
|
||
WAVE IDFNT N RG REF ORS I CORR I 1 S6 BCA 0.78* 0.89*
|
||
3187.60 HF I 2 CAK2 3.45 4.16 3682.91 H I 1 CAK2 0.81 0.92
|
||
3187.60 NF II 2 CAK2 3.45 4. 16 1 F5 8CA Q. 73* 0.83*
|
||
3211 0 CAK2 0.48 0.48 0. 58 0.58 1 F6 BCA 0.29* 0.33*
|
||
3218.20 1 CAK2 0.30 0.30 0.36 0.36 1 SI BCA 0-52* 0. 59*
|
||
3334 O CAK2 1.26 1.26 1.49 1.49 1 S3 BCA Q. 65* 0.74*
|
||
3348 HE I l CAK2 0. 18 0.18 0.21 0.21 1 S5 BCA 1.25* 1.42*
|
||
3354 HE I l CAK2 0.45 0.45 0.53 0.53 l S6 BCA 0. 87* 0.99*
|
||
3403 _Q CAK, 2.. 0.43 0.43 0-50 3686.73 ti L_ _I CAK2 1-00 -L.14
|
||
3413 CAK2 1. 17 1.37 1 FI BCA 0. 52* 0.59*
|
||
3447.91 0 I I 2 CAK2 0.22 0.26 1 F5 BCA 0.93* 1.06*
|
||
3447.91 HE I 2 CAK2 0.22 0. 26 L F 6 BCA 0.28* 0.32*
|
||
3450 HE I 1 CAK2 0.37 0.37 0.43 0.43 1 SI BCA 0.48* 0.55*
|
||
3479.08 HF I 1 CAK2 0. 37 0.37 0.43 0.43 1 S2 BCA 0.34* 0. 39*
|
||
3498.65 HE I 1 C AK 2 0.13 .13 0.15 0,15 1 S3 BCA 0^ 77*-. 0.88*
|
||
3512.51 HE I 1 CAK2 0. 50 0.50 0.58 0.58 1 S4 BCA 0. 38* 0.43*
|
||
3530.49 HE I 1 CAK2 0. 38 0.38 0.44 0.44 1 S5 BCA 1.55* 1.76*
|
||
_Q CAK2 Q. 30 0.30 0.35 . -Q-.35-- 1 S6 BCA 1.14* ..L«30-*-
|
||
3554.49 HC I 1 CAK2 0.41 0.41 0.47 0.47 3691.56 H I 1 CAK2 1.26 1.43
|
||
3581 0 CAK2 0. 36 0.36 0.41 0.41 1 FI BCA 0. 57* 0.65*
|
||
3587.32 HF I 1 C AK 2 0.52 0. 52 0.60 0.60 1 F3 BCA 0.-44* 0.50*
|
||
1 F 5 BCA 0.28* 0.32* 1 F 5 BCA 1.11* 1.26*
|
||
1 F 6 BCA 0. 18* 0.21* 1 F6 BCA 0-53* 0.60*
|
||
1 S 5 3CA 0.45* 0.52* 1 SI BCA 1. 16* 1.32»
|
||
S6 BCA 0.38* 0.44* l S2 BCA 0.66* 0.75*
|
||
3594 CAK2 0.30 0.30 0. 34 0.34 1 S3 BCA 0.72* 0.82*
|
||
..35.9.9.. CAK2 - 0.39 Q. 3.9 .Û-.45 0.45 1 S4 BCA 0.66* 0-75»
|
||
3613.94 HF I l CAK2 0.60 0.69 1 S5 BCA 1.58* 1.80*
|
||
1 CS BCA 0.83* 0.95* 1 S6 BCA 1.26* 1.43*
|
||
1 F 5 BCA Q . 52* 0.60* 3694.10 NE II CAK2 Q. 16 Q. 18
|
||
1 S3 BCA 0. 58* 0.66* 1 S5 BCA 0.22* 0.25*
|
||
l S 5 BCA 0.83* 0.95* 1 S6 BCA 0- 15* 0. 17*
|
||
NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1)
|
||
552
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC.-&543 i.PK NQ. S6^29_J.) NGC 6543 (PK NO. 96+29 1)
|
||
WAVE IDENT N RG REF AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
3fr97tl5 H I 1 CAK2
|
||
l FI BCA 0.58*
|
||
1.33 1.51
|
||
0.66*
|
||
1.51 37¿6.05 (0 II ) 1 S'! BCA
|
||
1 S5 BCA
|
||
16.Q.Q*
|
||
15.70*
|
||
20.T7*
|
||
17.77*
|
||
l F 2 BCA 0.27* 0.31* 1 S6 BCA 15.70* 17.77*
|
||
F3 B£-A— 0.70* 0.79» 1 WK.CAK2- -Q.U* ^13* .
|
||
1 F5 BCA 0.97* .10* l Cl DG75 2.30* 2.60*
|
||
1 F6 BCA 0.54* .61* 1 SI DG75 1.34* 1.52*
|
||
1 SI BCA 1.59* .81* _1 QiLS .QQ* . 13*
|
||
1 S2 BCA 1.40* ,59* 1 LA 37.30 42.22
|
||
1 S3 BCA 0.90* 02* 1 LU 2.01* 2.27*
|
||
1 S4 BCA 1.02* 16* _J Q 19.00 21. 5Q
|
||
1 S5 BCA 2.20* 50* l TAM 23.60X 26.71X
|
||
1 S6 BCA 1.38* 57* 1 VV 2 39.80X 45.05X
|
||
3702.84 0 LLL _1 CAK2 0.10 0. 10 0.11 3728.80 (0 LI L J CAK2 6.97 . ~Lm B9
|
||
3703.92 H I 1 CAK2 1.66 1.8 1 AH 0.51* 0.58*
|
||
1 FI BCA 0.78* 89* 1 AUV 0.49* 0.55*
|
||
1 F2 BCA 0.52* 59* 1 CS BCA 3.90* 4.41*
|
||
F3 BCA 1.13* 28* 1 FI BCA 16.00* 18.10*
|
||
F 5 BCA 1.32* 50* 1 F2 BCA 13.90* 15.73*
|
||
■1 F6 a£A_ .Q.59* - 67* 1 F3 BCA 28.80* 32. 59*
|
||
SI BCA 1.38* 57* F4 BCA 18.40* 20.82*
|
||
l S2 BCA 1.67* 89* 1 F 5 BCA 23.10* 26.14*
|
||
-_L S3 BCA.. 1.32»- 50* 1 F6 RCA
|
||
1 S4 BCA 0.90* 02* 1 SI BCA 7.57* 8.56*
|
||
S5 BCA 2.47* 80* 1 S2 BCA 7.32* 8.28*
|
||
1 S6 BCA 1.41*- 1.60* 1 S3 BCA 8.65* IQ.01*
|
||
3704.89 HE 1 CAK2 1.30 47 l S4 BCA 8.58* 9.71*
|
||
1 FI BCA 0.37* 42* 1 S5 BCA 6. 11* 6.91*
|
||
1 F 3 BCA Q.73* _ 83* 1 -Sii-BCA
|
||
1 F5 BCA 0.88* 00* 1 WK CAK2 0.17* 0. 19*
|
||
1 F 6 BCA 0.40* 45* 1 Cl DG75 1.00* 1. 13*
|
||
1 SI BCA 0.71* - 81* 1 -SI DG75 _1. QÛ» 1-13*
|
||
1 S2 BCA 0.75* 85* l DRS 0.48* 0.54*
|
||
1 S3 BCA 1.37* 55* l LU 1.00* 1.13*
|
||
-1 S4 BCA 0.56» _ 64» 3734.33 ti L_ _1 CAK2 _3_. QQ 3.39
|
||
1 S5 BCA 1.41* ,60* 1 CS BCA 1.85* 2.09*
|
||
l S6 BCA 1.04* 18* l FI BCA 1.95* 2.20*
|
||
3 707.95 0 I 11 -1 CAK? 0.38 1 F-2 -BCA
|
||
1 S5 BCA 0.16* 18* i F3 BCA 2.18* 2.47*
|
||
l S6 BCA 0.26* 29* 1 F4 BCA 0.77* 0.87*
|
||
371 1.93 H— _J CAK 2 1 P8 RCA 2.03» -2-.3Q»
|
||
1 CS BCA 1.23* 39* 1 F6 BCA 0.91* 1.03*
|
||
1 FI BCA 1.28* 45* l SI BCA 3.80* 4.30*
|
||
-1 F2 BCA- 49* 1 .S2-.BCA 3.0?» 3.41»
|
||
1 F3 BCA 1.56* 77* S3 BCA 2.86* 3.23*
|
||
1 F4 BCA 0.31* 35* 1 S4 BCA 2.77* 3. 13*
|
||
1 F 5 BCA 51» 1 S5 BCA
|
||
1 F6 BCA 0. 86* 76* 1 S6 BCA 2.4?* 2.74*
|
||
1 SI BCA 1.90* 15* 3740.30 H II l CAK2 0.17 0. 19 0. 19
|
||
■ 1 S? BCA . 1. 13* 3750.1-5 BB»
|
||
Id I _J CAK? 5.73-
|
||
-
|
||
1 S3 BCA 2.41* 73* 1 CS BCA 2.01* 2.27*
|
||
1 S4 BCA 1.54* 75* 1 FI BCA 2.20* 2.48*
|
||
1 S5 BCA 1 F? BCA I-.03-*-
|
||
1 S6 BCA 1.53* 73* 1 F 3 BCA 2.43* 2.74*
|
||
3713.92 0 III 1 CAK2 0.15 17 1 F4 BCA 1.38* 1.56*
|
||
2 S5 BCA 0.16* - 1 F5 BCA ? » 90» -3.-?7*
|
||
S6 BCA 0.17* 19* 1 F6 BCA 1.29* 1.46*
|
||
3713 NE II 55 BCA 0. 16* 18* l SI BCA 5.11* 5.77*
|
||
56 BCA 0.17* 19* 1 S2 BCA 3.42* 3.86*
|
||
3715.08 0 III CAK2 0.20 23 1 S3 BCA 3.73* 4.21*
|
||
55 BCA 0.22* 25* 1 S4 BCA 3.34* 3.77*
|
||
56 BCA 0.15* 17* -1 S5-.8CA 4.46* 5.06*
|
||
3721.94 H I 2 CAK 2 3.09 50 1 S6 BCA 3.25* 3.67*
|
||
2 CS BCA 1.57* 78* 1 LA 6. 70 5.08 7.56 5.73
|
||
2 FI BCA 2.29* - 59* 3754.90 Q LLL _J CAK2 0.41 Q. 41 0.46 —Q..46 _
|
||
2 F 2 BCA 1.05* 19* i S5 BCA 0.23* 0.26*
|
||
2 F3 BCA 2.70* 06* 1 S6 BCA 0. 12* 0. 14*
|
||
2 F4 BCA Q.91* . 03* 3756.29 HE I _J CAK? 0.15 0.15 0.17 0.17
|
||
2 F5 BCA 2.42* 74* 3757.30 0 III 1 CAK2 0.26 1.44 0.29 1.63
|
||
2 F6 BCA 1.25* 42* 1 0 2.63 1.44 2.97 1.63
|
||
2 SI 8CA 4.24* . 80* 3759.96 J CAK2 Q.35 0.3 5 Q. 39 _Q..39 _
|
||
2 S2 BCA 4.00* 53* l S5 BCA 0.20* 0.23*
|
||
2 S3 BCA 2.91* 30* 1 S6 BCA 0.12* 0.14*
|
||
2 S4 BCA :3.22*. .65* -3-762.70- _11 CM2 -Q. 1L 0.11 0.12 0.12 -
|
||
2 S5 BCA 3.77* 27* 3770.63 CAK2 3.84 4.32
|
||
2 S6 BCA 2.86* 24* 1 CS BCA 2.90* 3.27*
|
||
37-21.94 (S LI I I. _2 CAK2. 3.09 50- 1 FI BCA 2.55* 2.87*
|
||
2 CS BCA 1.57* 78* l F 2 BCA 1.25* 1.41*
|
||
2 FI BCA 2.29* 59* 1 F3 BCA 3.83* 4.31*
|
||
2 F 2 BCA .■■1..Q5* - 19» 1 F4 BCA 1.62* 1.92*
|
||
2 F3 BCA 2.70* 06* 1 F 5 BCA 2.98* 3.36*
|
||
2 F4 BCA 0.91* 03* 1 F6 BCA 1.55* 1.75*
|
||
2 F5 BCA 2.42* 74* 1 SI BCA 5.46» 6. 15*
|
||
2 F6 BCA 1.25* 42* 1 S2 BCA 4.37* 4.92*
|
||
2 SI BCA 4.24* 80* 1 S3 BCA 4.87* 5.48*
|
||
2 S2 BCA 4.00* 53* 1 S4 BCA 4.10* 4.62*
|
||
2 S3 BCA 2.91* 30* i S5 BCA 6.40* 7.21*
|
||
2 S4 BCA 3.22* 65* l S6 BCA 4.33* 4.88*
|
||
2 S5 BCA 3.77* 27*
|
||
2 S6 BCA 2.86* 3. 24* 3774.22 0 III 1 CAK2 0. 14 0. LA 0.16
|
||
3726.05 <0 II) 1 CAK2 12.90 14. 60 3777.13 NF II 1 CAK2 0. 12 0.12 0. 14
|
||
1 A4J 32.20 _3k. 3785.37 O II 1 CAK 2 -0. 16- 0. 18 0.18 -
|
||
1 AH 1.00* 13* 3791.32 0 III 1 CAK2 0.12 0.12 0. 13 0.13
|
||
1 AUV 1.00* 13* 3794.91 S III 1 CAK2 0.0 0.0 0.0 0.0
|
||
1 CS BCA iQ.ao» _L2- ??* 3797.90 H I -CAK 2 4.71 4.50 5.29 5.06
|
||
F2 BCA 33.60* .03* 1 CS BCA 3.68* 4. 13*
|
||
1 F3 BCA 75.00* .88* 1 FI BCA 6.45* 7.24*
|
||
F4 BCA 46.90* -08* 1 F2 BCA 2.48* 2.78*
|
||
1 F5 BCA 53.10* 60. 10* 1 F3 BCA 5.18* 5.81*
|
||
1 F6 BCA 34.40* 38. 93* 1 F4 BCA 2.70* 3.03*
|
||
1 SI BCA 18.50* _2_Q_ 94* 1 F5 BCA .24* .76*
|
||
1 S2 BCA 18.50* 20. 94* 1 F6 BCA 2.00* 2.25*
|
||
1 S3 BCA 17.80* 20. 15* l SI BCA 8.14* 9. 14*
|
||
NGC 6543 (PK NO. NGC 6543 (PK NO. 96+29 1)
|
||
553
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO, 96+29 1)
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I
|
||
3797.9Q H I I S¿ BCA 6.65* 7.46*. 3964.37 > HE I I F5 PÇA 1.25» -1*39»
|
||
1 S3 BCA 7.31* 8.21* F6 BCA 0.55* 0.61*
|
||
1 S4 BCA 6.85* 7.69* 51 BCA 1.60* 1.76*
|
||
I S5 BCA 7.47* 8.39* 52 BCA 1.50» .-L,_6.5*
|
||
l S6 BCA 6.38* 7. 16* 53 BCA 1.86* 2.05*
|
||
1 LA 6.40 4.50 7.18 5.06 54 BCA 1.32* 1.45*
|
||
1 0 2.40 4.50 2.69 5.06 35 BCA 2.17* -¿*.39*
|
||
TAM 3.80X 4.27X S6 BCA 1.54* 1.70*
|
||
l VV 2 4.50X 5.05X 3965 HF I 1 S6 BCA 1.54* 1.70*
|
||
3805.84 hf T _J CAK2... tJJt Qj.14 . Q. 16 3967.00 <NE III> 3 CAK2 23.00 35.3;
|
||
3819.70 HE I 1 CAK2 1.97 2.21 A41 23.30 25.64
|
||
1 CS BCA 1.17* l. 31* FI BCA 15.10* 16.62*
|
||
1 FI BCA Q. 81* 0.91* F 2 BCA 10.30* 11.34*
|
||
l F2 BCA 0.30* 0.34* F 3 BCA 2 8.30* 31.15*
|
||
1 F3 BCA 1.45* 1.62* F4 BCA 15.10* 16.62*
|
||
1 F4 BCA 0.48* Q. 54*... F5 BCA. 27.IQ* 29.83»
|
||
i F 5 BCA 1.43* 1.60* F6 BCA 10.90* 12.00*
|
||
1 F6 BCA 0.68* 0.76* S3 BCA 37.00* 40.72*
|
||
1 SI BCA 2.09» 2.34» S 4 BCA 32.QQ* 35.22»
|
||
I S2 BCA 1.73* 1.94* 55 BCA 38.60* 42.48*
|
||
1 S3 BCA l. 13* 1.26* 56 BCA 33.50* 36.87*
|
||
1 S4 BCA 11 76» 1.97* LA 31.7Q 34. B9
|
||
1 S5 BCA 2.33* 2. 61* 2 30.70X 33.79X
|
||
1 S6 BCA 1.62* 1.81* 2 59.50XA 65.49XA
|
||
3828 O CAK2 Q.Q3 0.03 Q.Q3 _LS I it > i rs ar.A
|
||
3833.78 HP I l CAK2 0. 17 0.17 0.19 0.19 3967.00 III ) 3 CAK2 23.00 25.31
|
||
3835.39 H I 1 CAK2 6.46 7.32 7.22 8.18 3967.00 I 3 CAK2 23.00 25.31
|
||
I CS RCA 7.78* 8-66» 2_ A41 23t 3Q 25t64
|
||
1 FI BCA 5.03* 5.62* CS BCA 26.50* 29.17*
|
||
1 F2 BCA 4.11* 4. 59* FI BCA 16.70* 18.38*
|
||
I F3 RCA 7-68* 8.58» F2 RCA 11.4Q* 12.55*
|
||
1 F4 BCA 5.32* 5.94* F3 BCA 27.30* 30.05*
|
||
1 F 5 BCA 7.40* 8.27* F4 BCA 15.80* 17.39*
|
||
1 F6 BCA 3.38* 3. 78* F 5 RCA 2 0.70* --22.78»
|
||
l SI BCA 13.60* 15. 19* F6 BCA 11.00* 12.11*
|
||
1 S 2 BCA 11.01* 12.30* S3 BCA 33.00* 36.32*
|
||
1 S3 BCA 9.7-Q*— 10.84» S 4 BCA 28.50* 31.37»
|
||
l S4 BCA 8.74* 9.76* S 5 BCA 37.40* 41.16*
|
||
1 S5 BCA 12.50* 13.97* S6 BCA 39.00* 42.92*
|
||
1 S6 RCA 9.85*
|
||
9.20 7.32 10.28 .18 0 27.60 30.38
|
||
6.31 7.32 7. 05 .18 TAM 30.70 X 33.79X
|
||
6.40 X 7.15 X VV 2 59.50XA 65.49XA
|
||
1 VV 2 11.10X 12.40X 3970 (NE III) 2 27.60 30.37
|
||
3838.23 l CAK2 0.06 0.06 0.07 0.07 3978 0 0. 12 0.12 0. 13 0.13
|
||
3847.50 _Q I_L_ _J CAK2_ 0. 10 Q.1Q 0. 11 Q.ll -3-9-84 0.06 0.07
|
||
3851.17 C I I 1 CAK2 0.11 0. 12 3994.63 NU l CAK2 0.08 0.08 0.09 0.09
|
||
3856.30 SI I I 2 CAK2 0. 17 0. 19 4009.27 HE I l CAK2 0.46 0.46 0.50 0.50
|
||
7 Sfc BCA 0-07» 0.08» F 5 Rf.A 0.34* Û.37»
|
||
3856.30 O II 2 CAK2 0.17 0. 19 F6 BCA 0. 16* 0. 18*
|
||
2 S5 BCA 0. 15* 0. 17* S2 BCA 0.40* 0.44*
|
||
7 S6 RCA 0.07*. 0. 08*
|
||
3856 SI II 2 S5 BCA 0.15* 0. 17* S6 BCA 0.41* 0.45*
|
||
3862.76 SI I I l CAK2 0.26 0.26 0. 29 0.29 4016 CAK2 0.09 0.09 0. 10 0.10
|
||
^ 868. 7A (NE III) 1 rAK 7 41-10
|
||
53.00
|
||
45.43 45.73
|
||
58.97
|
||
50.55 4026.20 CAK2 3.21 3.31 3.51 ■3.62
|
||
3 A41 l A41 2.10 2.30
|
||
1 F 2 BCA 30.20* 33.60* 1 CS BCA 3.83* 4. 19*
|
||
l F4 BCA 47.60* 52.96* 1 FI BCA 2.90* 3. 17*
|
||
1 F6 BCA 42.10* 46.84* l F2 BCA 1.35* 1.48*
|
||
1 WK CAK2 0.08* 0.09* 1 F3 BCA 4.42* 4. 83*
|
||
LA 5Q.5.Q 45.43 56. 19 1 F4 BCA —¿■¿A* 2.45*
|
||
1 0 44. 70 49.74 F 5 BCA 3. 59* 3.93*
|
||
1 TAM 45.70X 50.85 X F6 BCA 1.80* 1.97*
|
||
-I V.V—2_ 85.30X 94.91X ¿1..B.CA 7.42*
|
||
3871.23 l CAK2 0. 15 0.15 0. 17 0.17 52 BCA 5.38* 5.88*
|
||
3876 O CAK2 0. 13 0.13 0. 14 0.14 53 BCA 6. 54* 7. 15*
|
||
3882.09 _1 CAK¿._ 0.14- 0.14 0.16 Q. 16 -S.4 BÇA 5.52* 6. 04*
|
||
CAK2 21.50 23. 86 55 BCA . 84* 7.48*
|
||
3 A41 53.00 58.82 56 RCA 6.10* 6.67*
|
||
1 CS BCA 33.9.Q», 37.62* LA- 4.70 -1^31 5. 14 3.62
|
||
FI BCA 16.30* 18.09* 0 3.24 3.54
|
||
1 F2 BCA 11.80* 13.10* TAM 4. 20 X 4.59X
|
||
1 F 3 BCA 25.20* 27.97* VV 2 6.7QXA 7.33XA
|
||
1 F4 BCA 17.80* 19.75* 4041.05 0 I I CAK2 0. 13 0.14
|
||
1 F 5 BCA 20.50* 22.75* 4041.05 N I I CAK2 0. 13 0. 14
|
||
1 F6 BCA 1 Q...Q.Q*_ 11.IQ* 4048.00 -C LI 1_ CAK2 0.40 0.40 0.44 0.44
|
||
S3 BCA 41.50* 46.06* 4057 CS BCA 5.95* .48*
|
||
1 S4 BCA 34.70* 38.51* 4057 CAK2 0.21 0.21 0.23 0.23
|
||
1 S 5 3CA 39.80* 44.17* 4068.75 ii II ) ÇAK2 0.77 0.77 0.84 0.84
|
||
36.70* 40.73* FI BCA 2.60* 2.83*
|
||
21.40 23. 75 F2 BCA 1.45* 1.58*
|
||
16.20 17.98 F3 BCA 5.35* 5.82*
|
||
2 TAM 20.70X 22.97X F4 BCA 2.43* 2.64*
|
||
2 VV 2 53.80XA 59.71XA F 5 BCA 4.77* 5. 19*
|
||
3889 3 A41 53.00 ?e«92 F6 BCA 1.76» 1.92*
|
||
0 16.20 17.98 51 BCA 0.62* 0.
|
||
TAM 20.70X 22.97X 52 BCA 1.09* 1. 19*
|
||
53.80XA 59.71XA 53 BCA 0.74* 0.81*
|
||
3891 CAK2 0.25 0.25 0.28 0.28 54 BCA 0.90* 0.98*
|
||
3919.37 CAK2 0.09 0.09 0. 10 0.10 55 BCA 0.39* 0.42*
|
||
3920.98 CAK2 0.27 0*27 0*30 0.30 56 BCA 0.55* 0.60*
|
||
3926.60 HE I 1 CAK2 0.26 0.29 2 LA 4.30 4.68
|
||
1 F 5 BCA 0.22* 0. 24* 2 0 2.24 2.44
|
||
i S5 ec-¿ 0.28* 0.31* III 3 CAK2 0.63 0.69
|
||
l S6 BCA 0. 11* 0. 12* F 5 BCA 0.12* 0.13*
|
||
392 7 CAK2 0.08 0.08 0.09 0.09 F6 BCA 0. 15* 0. 16*
|
||
3954.40 _l ÉLM¿_ 0-«-lQ_ 0.1Q 0.11 0.11 S4 BCA 0.40» 0.44*
|
||
3964.37 HE I 1 CAK2 1.14 1.26 S 5 BCA 0.61* 0.66*
|
||
l CS BCA 0.54* 0. 59* S6 BCA 0.49* 0.53*
|
||
1 FI BCA 1.04* 1. 14* 4069.85 C II CAK2 0.63 0.69
|
||
1 F3 BCA 0.33* 0. 36* F5 BCA 0.12* 0. 13*
|
||
1 F4 BCA 0.24* 0. 26* F6 BCA 0.15* 0.16*
|
||
NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1)
|
||
554
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6543 I PK NO. <?6+29 11 NGC 6543 IPK NO. 96+29 H
|
||
WAVE IOENT N RG REF OBS I CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
A069.85 0 IT 2 S4 BCA 0.44» 4162.54 C III 1 CAK2 0.05 0.05 0.05 0.05
|
||
2 S5 BCA 0.61* 0.66* 2 CAK2 0.25 0.27
|
||
2 S 6 BCA 0.49* 0.53* 2 S2 BCA 0.23* 0.25*
|
||
A069.85 O II 3 CAK2 0.63 0.69 4168.96 HE 2 CAK2 »27
|
||
1 CAK2 0.35 0.38 2 S5 BCA 0.10* 0.11*
|
||
1 F3 BCA 0.21* 0.23* 2 S6 BCA 0.19* 0.20*
|
||
0. 16» 0. 17* 2 S 5 BCA 0.10* 0.11»
|
||
11 F6
|
||
F 5 BCA
|
||
BCA 0.20* 0.22* 2 S6 BCA 0. 19* 0.20*
|
||
1 SI BCA 0.41* 0.45* 4169 NE I 2 S2 BCA 0.23* 0.25*
|
||
1 S2 BCA 0.19* 0.21* 4175.08 N II 1 CAK2 0.10 O.H o.n
|
||
1 S4 BCA 0.27* 0. 29* 4185.72 O II 1 CAK2 0. 13 0.13 0. 14 0.14
|
||
1 S5 BCA 0.43* 0.47* 4190.07 O II 1 CAK2 0.14 0. 14 0.15 0.15
|
||
1 S6 BCA 0.37* 0.40* 1 S5 BCA 0.13* 0. 14*
|
||
4072 (S II ) 1 TAM 4. 20X 4.57X 1 S6 BCA 0.11* 0. 12*
|
||
4076.05 (S II ) 2 CAK2 0.68 0.74 4195.77 N III 1 CAK2 0.09 0.09 0. 10 0.10
|
||
I F2 BCA 0.19* 0*21* 4220.00 NE II _Jl CAK¿ 0.13 0.13 0. 14 0.14
|
||
1 F3 BCA 1. 19* 1.29* 4236.90 N II 2 CAK2 0.09 0. 10
|
||
1 F4 BCA 0.68* 0.74* 4236.90 N II 2 CAK2 0.09 0. 10
|
||
I F 5 BCA 1.91* 2.08* 4241.93 N II 2 CAK2 0*12- 0*13
|
||
1 F6 BCA 0.55* 0.60* 4241.93 2 CAK2 0. 12 0. 13
|
||
1 SI BCA 0.63* 0.68* 4245 0 CAK2 0.06 0.06 0.06
|
||
1 S2 BCA . 0-37* Q.4Q* 4248 1 F 5 BCA 0.14*
|
||
1 S3 BCA 0.42* 0.46* I F6 BCA 0.96* 1.02*
|
||
S4 BCA 0.39* 0.42* 1 S5 BCA 0.28* 0.30*
|
||
I S5 BCA 0.74» Q.Ba*. 1 S6 BCA 0.92* 0.98*
|
||
1 S6 BCA 0.59* 0.64* 4253.88 S III CAK2 0.12 0.13
|
||
2 LA 4.30 4.67 4253.88 C II CAK2 0. 12 0. 13
|
||
_2 Q 2.24 2.44 4253.88 0 LI _3 CAK2 Q.l¿_ Q. 13
|
||
4076.05 O II 2 CAK2 0.68 0.74 4257 O CAK2 0.05 0.05 0.05 0.05
|
||
4078.95 O II l CAK2 0.06 0.06 0.07 0.07 4260 O CAK2 0. 12 0.12 0. 13 0.13
|
||
4083.62 0 LL_ _J CAX2 Q- 09 Q.Q9- 0. 10 0^1 Q 4267.15 -J CAK2 n.95 0.95 ■I. 01 1 .01
|
||
4084.76 C II 1 CAK2 0. 11 0.11 0. 12 0.12 1 CS BCA 0.89* 0.95*
|
||
4086.95 O II 1 CAK2 0.06 0.06 0.07 0.07 1 F3 BCA 0.33* 0.35*
|
||
I S5 RCA 0.2?* 0.24* 1 F4 BCA Q. 09.» 0.10»
|
||
1 S6 BCA 0. 14* 0. 15* l F 5 BCA 0.67* 0.71*
|
||
4089.11 0 1 CAK2 0.26 0.26 0.28 0.28 1 F6 BCA 0.30* 0.32*
|
||
4092.67 D_ _J CAK7 0.0 0.0 0.0 1 SI BCA
|
||
4097.31 N III 3 CAK2 0.97 1.05 1 S2 BCA 0.67* 0.71*
|
||
2 CS BCA 1.65* 1.79* 1 S3 BCA 1.22* 1.30*
|
||
7 F 5 BCA 1 S4 RCA
|
||
2 S4 BCA 1.18* 1.28* 1 S6 BCA 1.13* 1.20*
|
||
2 S5 BCA 3.01* 3.26* 4267 0 S5 BCA 1.46* l. 55*
|
||
2 S6 BCA 47ft7 1 S 5 BCA 1.46* . -l.«_55*
|
||
3 CAK2 0.97 1.05 4275.65 O II 1 CAK2 0.28 0.2 8 0. 30 0.30
|
||
2 CS BCA 1.65* 1.79* 4282.53 O II l CAK2 0.08 0.08 0.09 0.09
|
||
-2. F 5 BCA 4785.30 S I IT ? CAK7 _Q^_14_ 0.15
|
||
2 S4 BCA 1.18* 1.28* 4285.30 O II 2 CAK 2 0. 14 0.15
|
||
2 S5 BCA 3.01* 3.26* 4288.22 N III l CAK2 0.32 0.34
|
||
7 S6 BCA 4797.09 C U _2 CAK?
|
||
2 SI BCA 0.60* 65* 4292.09 0 2 CAK2 0. 14 0. 15
|
||
2 S2 BCA 0.71* 77* 4294.81 0 l CAK2 0.09 0.09 0.10 0.10
|
||
2 S3 BCA -47-9 8 _0 CAK.? 0.05 nTn5
|
||
4097.31 Q II 3 CAK2 0.97 1.05 4303.81 O II l CAK 2 0.22 0.23
|
||
2 SI BCA 0.60* 0.65* 1 S5 BCA 0. 13* 0. 14*
|
||
S? RCA 0.71* 0.17* 1 56 RCA 0.15*... Q. 16»
|
||
2 S3 BCA 0.92* 1.00* l CAK 2 0.43 0.46
|
||
4101 H I 1 A41 21.40 23.20 1 S 5 BCA 0.21* 0.22*
|
||
1 CS BCA 49.20* 53.34* 1 S6 BCA 0.18* 0. 19*
|
||
1 FI BCA 18.30* 19.84* 4319.83 II 1 CAK2 0. 17 0. 18
|
||
l F2 BCA 17.20* 18.65* 4325.83 III 2 CAK2 0.11 0. 12
|
||
-1. F 3 gQA, 45.96* 4325.83 I I_ _2 CAK2 Q. II 0.12
|
||
l F4 BCA 38.20* 41.41* 4331.77 0 CAK2 0. 11 0.11 0. 12 0.12
|
||
l F 5 BCA 41.10* 44.55* 4340.47 H CAK2 43.90 46.68 46.39 49.33
|
||
1 F 6 BCA 19.50* 21.14* -JL4J 41.30 43.64
|
||
1 S3 BCA 55.20* 59.84* 46.10X 48.71X
|
||
1 S4 BCA 64. 70.25* 1 F2 BCA 19.90* 21.03*
|
||
_1 LA 3Q.7Q 25.93 33.28 2a. _J LA__ 60.40 63.8?
|
||
l 0 25.70 27.86 i MA62 39.80 46.68 42.06 49.33
|
||
1 TAM 31.60X 34.26X 1 0 45. 70 46.68 48. 29 49.33
|
||
1 VV 2 70.50X 76.43 X __L1 OCB 43.6Q- 46.68 46.Q7 49.33
|
||
4103.35 N III 2 CAK2 0.0 0.0 0.0 0.0 TAM 54.50X 57.59 X
|
||
4103.35 O II 2 CAK 2 0.0 0.0 0.0 0.0 l VV 2 100.OOX 105.67X
|
||
4105.00 C II 1 CAK2 0.06 0.06 0.07 0.07 .4345.23 G LI_ _1 CAK2 0-24- Q.24 0-25
|
||
4110.81 0 1 CAK2 0.24 0.24 0.26 0.26 1 S 5 BCA 0.26* 0.27*
|
||
4119.36 0 CAK2 0.62 0.62 0.67 0.67 1 S6 BCA 0.20* 0.21*
|
||
4120.96 HE CAK 2 0.0 ..Q-.Q -Q.Q— -Q--3 4347.80 0 LI_ -L CAK. 2 -.0-56 0.56 0.59 -0.59
|
||
l F 5 BCA 0.58* 0.63* 1 S5 BCA 0.35* 0. 37*
|
||
1 F6 BCA 0. 14* 0. 15* 1 S6 BCA 0.27* 0. 29*
|
||
1 S4 BCLA_. 0-30* 0.32» 4349.30 1 CAK2 0.43 0.43 0.45 -Q.45
|
||
1 S 5 BCA 0.47* 0.51* 4353.54 O II i CAK2 0.30 0.30 0. 32 0.32
|
||
1 S6 BCA 0.44* 0.48* 4356 0 CAK2 0.08 0.08 0.08 0.08
|
||
—4.12-8- O CAK2 0.08 0-09 0. 09 4363.21 (O I III 1 CAK2 2.26 2.19 2. 38 2.31
|
||
4132.79 O II 1 CAK2 0.27 0.29 41.30 43. 54
|
||
1 F 5 BCA 0.95* 1.03* 2.04X 2. 15X
|
||
1 S5 BCA 0.26* 0.28» 2.70» 2. 85*
|
||
1 S6 BCA 0.27* 0.29* l FI BCA 1.33* 1.40*
|
||
4143.76 HE I 1 CAK 2 0.64 0.69 1 F2 BCA 0.83* 0. 87*
|
||
1 F 5 BCA 0.54* 0,58* 1 F 3 BCA 1.77* 1-87*
|
||
1 F6 BCA 0.27* 0.29* l F4 BCA 0.74* 0. 78*
|
||
1 SI BCA 0.60* .65* i F 5 BCA 2.22* 2. 34*
|
||
1 S2 BCA 0.33* 0.36* 1 F 6 BCA _Q.-89* Q--94*
|
||
l S4 BCA 0.70* 0.76* 1 SI BCA 2.80* 2.95*
|
||
1 S 5 BCA 0.86* 0.93* 1 S2 BCA 2. 14* 2. 26*
|
||
1 S6 BCA -74» Q. 80* 1 S3 BCA 2-99* 3.15*
|
||
4145.87 0 2 CAK2 0.09 0. 10 l S4 BCA 2.71* 2.86*
|
||
4145.87 N 2 CAK2 0.09 0.10 1 S 5 BCA 3.41* 3. 59*
|
||
4148 S_ III -1 ÇAK2— O.Q.- -Q.Q Q.Q— Q-Q 1 S6 BCA 3.21*. 3. 38*
|
||
4153 III l S5 BCA 0.28* 0.30* 1 LA 2.50 2.19 2. 64 2.31
|
||
1 S6 BCA 0.28* 0.30* 1 OCB 1.82 2.19 1.92 2.31
|
||
—415J3_. 21 Q LL_ _1 CAK2 .27 0,27 . 0.29 Q.29 -J TAM
|
||
4156.39 0 II CAK2 0.17 0. 18 VV 2 7.40X 7.80X
|
||
4156.39 C III CAK2 0.17 0. 18 10 II ) l BOO 1.00* 1.05*
|
||
NGC 6543 (PK NO. 96*29 1J NGC 6543 (PK NO. 96+29 li
|
||
555
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 6543 tPK NO. 96+29 1) NGC 6543 ( PK .NJD. <?6»29 1)
|
||
WAVE IDENT RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
4-367 - _Q LL_ —I C.AK2 Q.27 Q.27 0.28 Q.za 4641.72 N III 2 $5 BCA 0.66* 0.68»
|
||
I F 5 BC A 0. 81» 0.85» 4641.72 O II 2 CAK2 0.0 0.0
|
||
I S 5 BC A 0.29» 0.31* 2 F5 BCA 0.22* 0.23*
|
||
1 S6 BCA 0.24* -Of 25* 2 S3 BCA Q.6P* Q.61*
|
||
4370.20 NE II CAK2 0.11 0. 12 2 S5 BCA 0.66* 0.68*
|
||
4379.20 N III 2 CAK2 0. 17 0. 18 2 56 BCA 0.52* 0. 53*
|
||
1 S6 BCA 0.22* Q. 23* 4642 LLL 2 S6 BCA 0.52* 0.53*
|
||
4379.20 NF II CAK2 0.17 0. 18 4647.66 C III 1 CAK2 0.0 0.0
|
||
4384.05 NF II CAK2 0. 05 0.05 0.05 0.05 2 F6 BCA 0.27* 0.28*
|
||
4387.93 HE I . .CAK2 1.0? 1*0? -1.09 1 .08 2 S3 BCA 0. 19* 0.19»
|
||
1 F2 BCA 0.19* 0.20* 2 55 BCA 0.73* 0.75*
|
||
1 F3 BCA 0.60* 0.63* 2 56 BCA 0.44* 0.45*
|
||
1 F4 BCA 0. 03* 0.03* 4649.23 Q LL_ _1 0.0
|
||
CAK2... 0.77 -0.27 Q.Q
|
||
1 F5 BCA 0.82* 0.86* l CA AW70 0.27 0.79 0.28
|
||
1 F6 BCA 0.51* 0.54* 1 K AW70 0.05 0.27 0.05 0.28
|
||
i S2 .9.ÇA 1.46* 1.54* 2 F6 BCA 0.27* O.ZB*
|
||
1 S3 BCA 0.78* 0.82* 2 S3 BCA 0. 19* 0.19*
|
||
1 54 BCA 0.98* 1.03* 2 55 BCA 0.73* 0.75*
|
||
1 55 BCA 1.44» 1.51* 2 56 BCA 0.44* Qm 45*
|
||
1 56 BCA 0.95* 1.00* 4649 N III 2 F5 BCA 0.34* 0.35*
|
||
4391.87 NE II 1 CAK 2 0. 10 0.10 0.11 O.ii 4649 O I I 2 F5 BCA 0.34* 0.35*
|
||
4398.00 Æ. IJL -J C-AKl2_ 0.07 —Q.J.Q 7 -Q.Q7 Q.Q.7 4650.»2Q C LLL J CAK2_ 0.84 0.86- -11.86-
|
||
4409.21 CAK2 0. 15 0.15 0. 16 0.16 2 F 5 BCA 0.11* 0. 11*
|
||
4414.90 CAK2 0. 15 0. 15 0. 16 0.16 2 S3 BCA 0.18* 0.18*
|
||
-4-4U « 2 4 _Q LL_ CAK2 0.26 0.26 -Q.22- Q.2I 2 55 BCA Q. 31* 0.37*
|
||
1 55 BCA 0. 12* 0. 13* 2 56 BCA .12* 0. 12*
|
||
1 56 BCA 0.13* 0. 14* 4650.90 O II 1 CAK2 0.0 0.0
|
||
_Q C-AK 2 0.1? 0.15 0.16 0.16 2 F5 BCA 0.11» 0.11*
|
||
4437.54 HF T I CAK2 0.20 0.21 2 S3 BCA 0. 18* 0. 18*
|
||
1 56 BCA 0.15* 0. 16* 2 55 BCA 0.31* 0.32*
|
||
4448.20 P II _2 CAK2 0.05 -0.05 2 S6 BCA 0.12* 0. 12*
|
||
4448.40 0 III CAK2 0.05 0.05 4651.46 C III l CAK2 0.0 0.0 0.0 0.0
|
||
4456.90 NF II CAK 2 0.05 O. 0.05 0.05 4653 O CAK2 0 0.09 0.09 0.09 0.09
|
||
4465.70 C I I CAK2 Q. 13 P. 0.14 465 7 _Q CAK-2—1 --0.0-8-. 0 .OR
|
||
4471.48 HF I CAK 2 6.05 5.77 6.31 6.02 l F 5 BCA 0. 12* 0. 12*
|
||
A41 3.60 5.77 3.75 6.02 1 S3 BCA 0.22* 0.22*
|
||
—AN 10.00X 1 ,56 BCA_
|
||
l CS BCA 8.25* 8.61* IFF III) 2 CA AW70 0. 15 0. 15
|
||
1 F 2 BCA 3.67* 3.83* 2 K AW70 0.34 0.35
|
||
- 1 F3—B.CA 6. 79* 7.OR* -0 CAK2
|
||
1 F4 BCA 5. 01* 5.23* 4658 0 III 2 LA 7.00 7.16
|
||
l F 5 BCA 7.39* 7.71* 4658 C IV 2 CA AW70 0.15 0. 15
|
||
1 F 6 BCA -2 K AW7Q. . 0.34 0.35
|
||
1 PE BCA 4.90 5.11 6.02 4660 0 CAK2 0.29 0.29 0.30 0.30
|
||
1 52 BCA 11.40* 11.89* 4661.17 O II 1 CAK2 0.29 0.23 0.30 0.23
|
||
1 53 BCA 16-90» 17-63* 1 CA AW70 -0.23- 0.23 ■
|
||
1 54 BCA 13.40* 13.98* 1 K AW70 0.16 0. 16
|
||
1 55 BCA 12.60* 13.14* l F5 BCA 0.15* 0. 15*
|
||
1 56 BCA 8.09* 1 56 BCA n.i.B* 0.18-*
|
||
7.40 5.77 7.72 6.02 4673 0 CAK 2 0.0 0.0 0.0 0.0
|
||
5.25 5.77 5.48 6.02 4676.05 O II 1 CAK2 0.23 0.19 0.23 0.19
|
||
7.41 5>J7 6.02 1 CA AW7Q —Q.l-9— 0.19
|
||
TAM 8.90X 9 • 28 X 1 K AW70 0. 13 0.13
|
||
VV 2 10.00X 10.43X 1 55 BCA 0. 19* 0. 19*
|
||
4481.30 MG CAK 2 0^12 -0^12 —CU-L3— 0.13 1 56 RCA 0^-11 ♦ O.-LL*
|
||
4492.00 11 CAK2 0. 10 0.10 0. 10 0.10 4677 0 CAK2 0.26 0.26 0.27 0.27
|
||
4500 CAK2 0.05 0.05 0.05 0.05 4685 1 CA AW70 0. 10 2.25 0. 10 2.30
|
||
4510.80 (K TV ) CAK2 0. 15 0. 15 0. 16 0.16 l K AW70 0.05 2.25 0.05 2.30
|
||
4516.90 C 111 CAK 2 0. 09 0.09 O. 0 .09 l CS BCA 62.70* 0 63.90*
|
||
4523.60 N 111 CAK 2 0.08 0.08 0.08 0.08 l PE BCA 5.90 6. 01 2.30
|
||
452.7.8Q I-LL.. -XAKZ 0.09 Q. 09 P. Q.0-9 _I LA 3.7Q 2.25 0 . 3.77 2-.30—
|
||
4537 0 CAK2 0.04 0.04 0.04 0.04 0 1.51 2.25 1.54 2.30
|
||
4547 N III 1 CS BCA 3.43* 3.55* VV 2 6. 30X 6.42X
|
||
4552.00 II LAK2- O.t-JLP- . 10 CAK7. . 0-09 0.09 Q-.09
|
||
4552.00 SI III CAK2 0. 10 0. 10 4699.20 O II 2 CAK2 0. 13 0. 13
|
||
4571.CO MG I CAK 2 0. 14 0.14 0. 14 0.14 4699.20 C IT 2 CAK2 0.13 0.13
|
||
. 45-90.79 Q_ U _C.AK2— Q. 15 0.15 0.15 Q .15 4701 IFE I.U ) . 1 CA AW7Q 0.06 0.Q6-
|
||
4595.99 II 1 CAK 2 0. 10 0.1C 0. 10 0.10 1 K AW70 0. 12 0. 12
|
||
4603 1 I l CA AW70 0. 12 0.10 0. 12 0.10 4702.22 O II 2 CAK2 0. 20 0.20
|
||
_1 H—A W 70„. . 0103- 0.10 0.08 .10 -4-702.22-1 FE -LU I _2 C AKZ- 0.20 Q. 20.
|
||
4605 0 CAK 2 0.12 0.12 0. 12 0.12 4711.27 (AR IV ) 1 CAK2 1.42 1.44 1.44
|
||
4606 (FE II ) 1 CA AW70 0. 06 0.06 0.06 0.06 2 CA AW70 2.00 2.03
|
||
4609.48 O I I J CAK2 Q.1Q- Q.I 0 0. 10 0.10 2 K AW7C 0.92 0.94
|
||
4611 CAK2 0.20 0.20 0.21 0.21 1 CS BCA 1.33* 1.35*
|
||
4615 CAK2 0. 06 0.06 0.06 0.06 1 F 5 BCA 0. 17* 0. 17*
|
||
4620.68 O I I -CAK2 0. 09- 0.09 0.09 1 F6 BCA Q.94* Q.aa* -
|
||
4624 O CAK2 0. 03 0.03 0.03 0.03 2 PE BCA 0. 80 0. 81
|
||
4629 0 CAK2 0. 17 0.17 0.17 0.17 1 S3 BCA 1.38* 1.40*
|
||
4631 1 CA AW70 0.60 - Q.3 5 0.62 0.36 1 55 BCA 1.50* .52*
|
||
A W70 0. 11 0.35 0.11 0.36 1 56 BCA 0.69* 0.70*
|
||
4633.74 N III l CAK 2 0.67 0.42 0.69 0.43 2 LA 2.60 2.64
|
||
1 CA AW70 «_5-0_ 0.42 —OjJLL- 0.43 _2 Q— 1.41 1.43
|
||
1 K AW70 0. 10 0. 10 4713.14 HE I 1 CAK2 1.42 1.44
|
||
1 S3 BCA 0.21* 0.22* 2 CA AW70 2.00 2.03
|
||
1 55..BÇA 1.12* _ 1115-*- _2 K AU7C Q.-92 0.93
|
||
56 BCA 0.64* 0.66* 1 CS BCA 0.27* 0.27*
|
||
2 TAM 4. 10X 4.20X 1 F 5 BCA 0.43* 0.44*
|
||
1 F 5 BCA 0.26* 0.27* 1 F6 BCA Qjl2.7* _ 0.27*
|
||
S3 BCA 0.32* .33* 2 PE RCA 0.80 .81
|
||
1 56 BCA 0.21* 0.22* l S3 BCA 0.73* 0.74*
|
||
4638.36 _L CAK2 0.69 0.69 -0.71 1 S5 BCA 0.79* O-RO*
|
||
4640.64 N III 1 CAK2 1.56 1.20 1.60 1 .23 0.52* 0.53*
|
||
1 CA AW70 1.35 1.20 1.38 1.23 2.60 2.64
|
||
J. K AW7Q 0.70 1.20 0.72 1.23 1.41 1 «-43
|
||
2 F 5 BCA 0.22* 0.23* 4725 (NE IV ) I CAK2 0. 10 0. 10
|
||
1 S3 BCA 1.04* 1.07* 4734 1 CA AW70 0.03 0.03 0.03 0.03
|
||
L S5 -BCA 2.18* _ 2.23* 4740.00 (AR IV ) l CAK2 QL93 . 0.68 0.94 0.69
|
||
1 56 BCA 1.17* 1.20* 1 CA AW70 0. 78 0.68 0.79 0.69
|
||
2 LA 7.00 7. 17 1 K AW70 0.39 0.68 0.40 0.69
|
||
_2 TAM . IPX 4.70X 1 CS BCA 0.75* Q. 16*
|
||
4641.72 N III 2 CAK2 0.0 0.0 l F 5 BCA 0. 17* 0. 17*
|
||
2 S3 BCA 0.60* 0.61* 1 F6 BCA 0.23* 0.23*
|
||
NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1Í
|
||
|
||
556
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
NGC 6543 (PK NO. 96+29 1) NGC 65*3 (PK NQ, 9fr+¿.9 1)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
197 6ApJS
|
||
|
||
|
||
|
||
|
||
4740.00 1AR _Ly_. ). I-PE. BEA 0.20 0.68 5270 (FE III) 1 KA AW70 0.08 0-13 0.08 0.13
|
||
1 S3 BCA 1.05* 1.06* 1 KB AW70 0. 13 0.13 0. 13 0.13
|
||
1 S5 BCA 1.74* 1.76* 5335 (FE VI ) l KB AW70 0.05 0.05 0.05 0.05
|
||
\ $6 gÇA 0.95* 0.96* -5A11- HE....I I -1 Q_ 1.32 1.32 1.25 1 . ?5
|
||
1.12 0.68 1.13 0.69 l VV 2 3.60X 3.42X
|
||
1 CA AW70 0.06 0.06 0.06 0.07 5484 (FE VI ) i KB AW70 0.04 0.04
|
||
1 K AW7Q Q.Q7 . 0.06 0.07 0.07 .5517- < cu... n n J A_Jl£2 -Q.t.6¿*..
|
||
4756 CAK2 0.21 0.21 0.21 0.21 1 CB AW70 0.38 0.41 0.36 0.39
|
||
4789.20 (F II ) CAK2 0. 05 0.05 0.05 0.05 1 KA AW70 0.30 0.41 0.28 0.39
|
||
A797 CAK2 Q. 11 Q.-LL _Q.11 . 0.11 .1 KB AW.7Q —Q. 55- 0.41 -Q^52_ 0.39
|
||
4805 CAK2 0.08 0.08 0.08 0.08 l C2 DG75 1.00* 0.94*
|
||
^815 CAK2 0.09 0.09 0.09 0.09 l C3 0G75 1.00* 0.94*
|
||
4825 CAK2 0.11 0,11 0.11 0.11 1 NE DG75 l.QQ* 0.94*
|
||
4846 CAK 2 0.08 0.08 0.08 0.08 1 S 2 DG 75 1.00* 0.94*
|
||
4861.30 CAK2 100.00 100.00 100.00 100.00 1 SW DG75 1.00* 0.94*
|
||
. A Al 100.00 100.00 100.00 IQQrQO .5537. (CL III) J1 CBA AW70 AE2 l.QQA- Q.9A»
|
||
100.OOX 100.OOX 0.65 0.64 0.61 0.60
|
||
1 PE BCA 100.00 100.00 100.00 100.00 1 KA AW70 0. 39 0.64 O. 37 0.60
|
||
1 CPDA 100.00 100.00 100.00 100.00 1 KB AW7Q Q. 89 Q.64 Q. 84 Q..6Q
|
||
GU 100.00 100.00 100.00 100.00 1 C2 DG75 1 . 53* 1.44*
|
||
LA 100.00 100.00 100.00 100.00 1 C 3 DG7 5 1.67* 1.57*
|
||
LA54 1QP.QQ . 1PQ.QQ LP.Q» QQ . 100.00 1 NE DG75 It 55* 1.46*
|
||
I WK LKG 100.OOX 100.OOX 1 S2 DG75 1.00* 0.94*
|
||
1 MA62 100.00 100.00 100.00 100.00 i SW DG7 5 1.64* 1.54*
|
||
_J ÜS 1-QO..QQ 100.00 LQQ.QQ 100.00 5592 1 KA AW70 0.09 0.08
|
||
O 100.00 100.00 100.00 100.00 1 CB AW70 0.08 0.08 0. 07 0.07
|
||
OCB 100.00 100.00 100.00 100.00 1 KA AW 70 0.07 0.08 0.07 0.07
|
||
TAM 1QQ.QQX IQQ.QQX- 1 KB AW70 0.08 0.08 0.07 0.07
|
||
l VV 2 100.OOX 100.OOX l CR AW70 0. 18 0. 15 0. 17 0.14
|
||
1 CA AW70 0.05 0.12 0. 05 0.12 l KA AW70 0.07 0.15 0.07 0.14
|
||
_1 K A win _2Ú .12 _20 •-L2— KB A-M7Q 0- »9 0.1 5 n. ir 0^14
|
||
4903 CAK 2 0. 09 0.09 0.09 0.09 i CB AW70 0. 24 0. 76 0.22 0.70
|
||
4906.63 O I I CAK2 0.09 0. 0.09 0.09 i KA AW700 0.83 0.76 0. 0.70
|
||
4921.93 HE I CAK2 1.33 1. -JL.32 1.73 1 KB AW7QZ 1.20 Q. 76 1. 11 0.70
|
||
1 CA AW70 1.80 1.74 1.79 1.73 5801 C IV l KB AW70 0. 06 0.06 0. 06 0.06
|
||
1 K AW70 2. 10 1.74 2.09 1.73 5806 HE U l KB AW70 0.01 0.01 0.01 0.01
|
||
1 f.S BCA 1.46» 1.45*- 5812 _C LV_ -1 ..KB AW.7.Q -O. Q7_ 0. Q 7 Q.Q6 .
|
||
1 F 5 BCA 0.95* 0.94* 5875 1 CB AW70 16.60 15.44 15. 19 14.13
|
||
1 F6 BCA 0.45* 0.45* l KA AW7 0 10.40 15.44 9. 51 14.13
|
||
1-S 5 BCA -1^50* 1.49* .1 KB A.W7 0 . 14. 20. 1 5.44 12.99 14.13
|
||
1 Sfr BCA 1.16* 1.15* 1 PE BCA 17.80 15.44 lo. 29 14.13
|
||
4631 (O III)’ 1 K AW70 0.06 0.06 0.06 0.06 l MA62 18.20 15.44 16.65 14.13
|
||
4931.81 m un J CAK2— r>. ?8 n.l 7 .0.25 0.17 1 VV 2 26. 7Q.X 24.43.X.
|
||
1 CA AW70 O. 09 0.17 0.09 0.17 l PE BCA 1.30 1. 15
|
||
4942 O CAK 2 0.09 0.09 0.09 0.09 1 CA« 0. 00* 0.00*
|
||
4944 CAÜL2- SU- 0.2-8 - -0.23 .-23— _1 V-V 2 21.8QX 19.32X
|
||
4958.90 (P I I I ) 1 CAK2 227.00 210.31 225.02 208.48 6310 ( S II) l PE BCA 1.30 1.30 1. 15 1.15
|
||
A41 210.00 210.31 208.17 208.48 6364 ( G I ) l PE BCA O. 10 0.10 0.09 0.09
|
||
_AiJ 24i.nnx- 248.81X 6548 _1_N II ) 3. PE B£A .381.4Q 332.83
|
||
l PE BCA 163.00 161.58 OCB 15.20 13. 26
|
||
l WK CAK2 0.13* 0. 13* CAM 1.00* 0.87*
|
||
_J CPDA 218.80 2.16. 89 _0 -3.16. nn 274.48
|
||
1 LA 211.00 210.31 209.16 208.48 316.00 275.48
|
||
1 LA54 219.00 210.31 217.09 208.48 VV 2 341.OOX 297. 28X
|
||
1 WK I KG 491. OOX 486.72X —W— 1. OPA.. 0.87*
|
||
MA62 204.00 210.31 202.22 208.48 6563 (N II) PE BCA 381.40 332.50
|
||
MS 211.00 210.31 209.16 208.48 VV 2 34 i.OOX 297.28X
|
||
O 229.00 210.31 227.00 208.48 6583 (N II ) PE BCA 381.40 332.05
|
||
TAM 198.OOX 196.27X CAM 0.17* 0.15*
|
||
VV 2 170.OOX 168.52X O 9. 55 24.22 8. 31 21.09
|
||
5006.80 (0 IIP CAK¿ 665.00 650.46 656.32 641.97 OCB 3-8« 9Q ¿4«_2¿ -33.87 21.Q9
|
||
A41 600.00 592.17 0.03* 0.03*
|
||
AN 692.OOX 682.97X 6678 HF I 1 PF BCA 3.70 3. 20
|
||
1 PE BCA 726.00 650.46 716.52 641.97 6717 ( S II) 1 B AE2 0.50* O. 43*
|
||
1 WK CAK2 0.69* 0.68* l PE BCA 3.90 3. 37
|
||
l CPDA 6o0.70 650.46 652.08 641.97 l WD 0. O. 51*
|
||
_! LA- 644.00 650.46 635.59 641.97 b730 _1 B AE2 1. Q. 86*
|
||
LA54 667.00 658.29 1 PE BCA 3.50 3.02
|
||
1 WK LKG 1508.OOX 1488.32X 1 WO 1.00* 0. 86*
|
||
_J MAfrZ. 645.00
|
||
596.00
|
||
636.58
|
||
588.22
|
||
6678 HE I 2 PE BCA 11.1Q 9.61-
|
||
6724 ( S II) 2 PE BCA 1 1. 10 9. 58
|
||
TAM 488.OOX 481.63X 7065 HE I 1 PE BCA 6. 00 5. 09 5.98
|
||
VV-2- 63 ¿.OOX 621.78X l O i_L2_ 5.98
|
||
5007 (0 II) l BDO 398.00* 392.80* (AP III) 1 PE BCA 23.20 22.80 19. 59 19.25
|
||
5016.83 HE I l CAK2 2. 17 2. 14 I O 22.40 22.80 18.92 19.25
|
||
1 F 5 BCA -Q.-S.9* Q«98* . -LO U ) l. PE ßC.A 1.35 U35 1. 13,., U13
|
||
1 F 6 BCA 0.66* 0.65* 7325 (n ii) 5. 01 5.01 4. 19 4.19
|
||
1 S5 BCA 1.68* 1.66* 7330 (C II) 1 PE BCA 1.35 1.35 1. 13 1.13
|
||
1 S6 BCA 1.07* 1.05* —Z-751 . t AR III) 1 Q 7.25 .25 —5-«-93_ 5.93
|
||
5032.97 C I I 1 CAK2 0.49 0.49 0.48 0.48 1.23 1.90 0.97 1.50
|
||
5041 SI II 1 CA AW 7 O O. 13 0.17 O. 13 0.17 2.58 i .90 2.03 1.50
|
||
1 K AW70 0.21 0. 17 0.21 0.17 3.32 3.32 ?. 60 2.60
|
||
HE I l CA AW70 0.26 0.26 0.26 0.26 9069 (S III) 41. 70 41.70 32.49 32.49
|
||
1 K AW70 0.27 0.26 0.27 0.26 9229 H I 4.26 4.26 3.30 3.30
|
||
. ,5JÍ¿.6 $1 II 1 CA AW70 Q.14 Q.L2- . Q..14 Q.12 .9539 _EL -.51« 40... 39. 50
|
||
A W 70 0. II 0. 12 O. II 0.12 9539 ( S III) 51.40 39. 50
|
||
5081 0 CAK2 0.60 0.60 0.59 0.59 10049 I 8.91 8.91 6. 76 6.76
|
||
5.158 (FE VID 1 CA AW7Q 0.Q2 Q.Q2 0.02 Q.Q2 10120 HE —1 I 3. 89 3.89 95_ 2.95
|
||
i K AW70 0.02 0.02 0.02 0.02 10320 { S II) O 129.00 129.00 97. 29 97.29
|
||
5175 0 CAK 2 0.48 0.48 0.47 0.47 10829 HE I GU 41. 00 36.70 30. 57 27.36
|
||
5-191 -LAR OI) 1 CA AW7Q Q.Q7 0« 08 -Q..Q7 0.08 37- An 36.« 7Q -24« 15- 2 7^36
|
||
l K AW70 0.11 0.08 0.11 0.08
|
||
1 KA AW70 0.06 0.08 0.06 0.08 REGIEN KEY (REGION,RE FER PNCE,FXPLANAT ION)
|
||
1 _KB AH7Q fl.QB Q« QB— Q.Qfl -Q,QB AE2 REGIONS A AND B ON DIFFERENT SCALPS
|
||
l CA AW70 0.01 0.22 0. 01 0.22 CA, AW70, 5.5 ARCSEC NORTHWEST OF STAR
|
||
1 K AW70 0.54 0.22 0. 52 0.22 CB, AW70, 4.5 ARCSEC WEST OF STAR
|
||
.1 KA AW7Q 0.23 Q« 22 0.2? Q.22 K. AW7 0, KNOT ON PLATE WITH REGION CA
|
||
1 KB AW70 0. 11 0.22 0.11 0.22 AW70, KNOT A ON PLATE WITH REGION CB
|
||
5200 (NI ) 1 CA AW70 0.03 0.03 0.03 0.03 KB, AW70, KNOT B ON PLATE WITH REGION CB
|
||
5270 (FE HI) 1 CA AW7Q 0.08 Q. 13 Q.Q8 Q. 13 CS. BCA , OBSERVED AT CENTRAL STAR
|
||
1 CB AW70 0.10 0.13 0.10 0.13 BCA FILAMENT SOUTHWEST OF STAR, REGION 1
|
||
l K AW70 0.28 0.13 0.27 0.13 BCA FILAMENT WEST OF STAR, REGION 1
|
||
NGC 6543 (PK NO. 96+29 1) NGC 6543 (PK NO. 96+29 1)
|
||
557
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
_NGC-6¿43 1 PK N CL 96t29 H . BEGIN NGC j6567 ( PK NQ. U -Q_21 Q.71 (RADIQ-H BETA)
|
||
F3» BCA FILAMENT S OF ST AP « REGION 2 WAVE ÎOENT N RG REF OBS I AVE CORR I AVE C
|
||
F4t BCA FILAMENT N OF STAR, REGION 3692 _HH II L. AÇPQ 3.» 84 3 «9-4 6.35 6.35
|
||
BCA FILA ME NT SW OF STAR» REGION 3 3697 ACP G 4.36 4.36 7.20 7.20
|
||
F6 BCA FILAMENT NW OF STAR, REGION 3 3703 H I ACPG .76 4.76 7.84 7.84
|
||
PE, BCA » PHOTOELECTRIC 3705 HE I ACPG «40 9.40 47 15.47
|
||
51, BCA , I NT E PF ILA MENT WEST OF STAR, REGION 1 3712 H I 1 ACPG 5.46 8.96
|
||
52, BCA , INTERFILAMENT WEST GF STAR, REGION 1 3722 H I 2 ACPG 4.49 7.33
|
||
53, BCA , TNTEFFILAMENT S OF STAR. REGION 2 . 3722 _i_S III) 2 -ACPG 4.49 .33
|
||
$4, BCA , INTERFILAMFNT N OF STAR, REGION 2 23.00 37.46
|
||
S 5, BCA , INTPRFILAMENT SW OF STAR, REGION 3 ACP 27.80 45.28
|
||
-SA, BCA , INTERFILAMENT NW OF STAR. REGION 3 ACPG 40.90 66.62
|
||
WK, CAK2, WF ST KNOT 3729 (0 II ) 1 ACPG 24.20 39.38
|
||
CI, DG7 5, MAX. GF 95 POSITIONS NEAR CENTER. SEE REF. 3 734 H I 1 ACPG 6.37 6.37 10.34 10.34
|
||
DG75. MAX. IN CENTRAL REGION 3750 H I 1 ACPG 6.94 6.94 11. 19 11.19
|
||
C3, DG75, MAX.OF 148 POINTS,4.5 ARCSEC SW OF CENTER,SEE REF. 3770 H I I ACPG 7.97 7.97 12.73 12.73
|
||
NE, DG75, A PEAK VALUE 15 ARCSEC NE OF CENTER. 3797 H I 1 ACPG 10.00 10.00 15.78 15.78
|
||
SI. DG75, MIN. OF 95 POSITIONS, 14 ARCSEC S OF STAR,SEE REF. 3819 HE I L_ -ACPG 2.21 2.21 —3.45_. 3.45
|
||
DG75, MIN.OF 148 POSITION,13 ARCSEC S CF CENTER,SEE REF. A 9.80 12.07 15. 18 18.69
|
||
SW, 0G7 5, A PFAK VALUE 15 ARCSEC SW OF CENTER. ACP 12.20 12.07 18.89 18.69
|
||
HK. LKG t WEST K.NQI _ ACPG— L4-.2Q 12.-QJ 21.99_ -La^9
|
||
(NE III) 1 56.00 61.60 85.33 93.86
|
||
NGC 6543 (PK NO. 96+29 1) ACP 56. 30 61.60 85.78 93.86
|
||
-ACPG 9.5.. 70 . 61.60 145.82 .93^86
|
||
68. 00 61.60 103.61 93.86
|
||
VV5 32.00 61.60 48.76 93.86
|
||
BEGIN NGC 6563 ( PK NO. 358 -7 1) 0.33 (RADin-H BETA) A 21.QQ 21.00 31.67 31.67
|
||
ACP 19.00 28.65
|
||
WAVE IDE NT N RG REF OBS I CORR I AVE C ACPG 27.00 40.72
|
||
4363 _H I __2 JQ6Q 43.00 42.37 _ ACP 19.00 28.65
|
||
4363 III) 2 J 06 0 43.00 47.37 ACPG 27.00 40.72
|
||
4861 I l J 06 0 100.00 100.00 100.00 (NE III) 2 A 27.00 39.40
|
||
0063 1QQ.QQ 10Q.QQ 1QQ.QQ 1QQ.QQ 2 - ALP 30.10 4.3.93
|
||
4959 (C III ) 1 J06C 75.00 75.00 73.80 73.80 VV 5 21.00 30.65
|
||
5007 (O I 11 ) 1 J060 160.00 536.00 156.19 523.22 A 27.00 39.40
|
||
0063 912.00 53 6.QQ_ 890.26 523.22 _ ACP 30.10 43.92
|
||
(S TI ) l J060 45.0 23.55 34.36
|
||
32.00 46.69
|
||
NGC 6563 < PK NO. 358 -7 1) ? 1-. 00
|
||
3970 (NE III) 2 32.00 46.64
|
||
4026 HE I l 5.30 3.81 7.54 5.43
|
||
L- 2.33 3.8-1 3.3? 5.43
|
||
BEGIN NGC 6565 (PK NO. 0.3Ó (RAOIO-H BETA) 4069 (S 11)2 5.70 7.95
|
||
4076
|
||
4 06 7 (S II ) 2 5.70 7.93
|
||
N LU 2_ ?U 10 —29.06
|
||
3444 III AKI 6.60 6.60 8.99 8.99 A 25.00 23.27 34.37 31.99
|
||
3686 I AKT 1.00 1.00 1.29 1.29 ACP 21.10 29.01
|
||
-AKT— ACPG 25.80 23.27 35.47 31.99
|
||
3 697 AKI 1.30 1.30 1.68 1.68 M 19.00 23.27 26.12 31.99
|
||
3704 AKI 2. 30 2.30 2.96 2.96 VV5 31.00 X 42.62X
|
||
.3704 AKI 2.30 2.30- 2.96 2.96 44.no 41.10 54.69 51 .08
|
||
3712 1 AK I 2.00 2.57 ACP 33.90 42. 13
|
||
3722 2 AKI 4. 50 5.77 ACPG 48.40 41. 10 60. 16 51.08
|
||
-3722 ? AKI 4«-50 - 5.77 35.00 4 1 . 1-0 -43.50- 51^38
|
||
AKI 170.OP 217.76 37. 00 41.10 45.99 51 .08
|
||
VV4 53.00 67.89 (0 III ) I 5.70 7.43 7.02 9.15
|
||
-3729 AKI _ 19QU)0- 243..21 2_ 33.90 41.74
|
||
3734 H I AKI 2.30 2.30 2. 2.94 9.59 7.43 11.81 9.15
|
||
3750 H I AKI 3. 70 3.70 4.71 4.71 7.00 7.43 8.62 9.15
|
||
3771 H ! AKI 5.10 5.10 6.47 6.47 6.00 7.04 7.08 8.31
|
||
3797 H I AKI 6. 40 6.40 8.06 8.06 ACP 8.59 7.04 10. 14 8.31
|
||
3819 HE I AKI 1.00 1.00 1.25 1.25 ACPG 6.53 7.04 7.71 8.31
|
||
—38.3-5— _h I— AKI 8 «00 «9.SL- -«-9-9 - - VV-5 .¿¿L, QQX— 3Q,7QX
|
||
3868 AKI 112.00 83.50 138.66 103.38 4686 HE I I 1 VV5 23.00X 24.78X
|
||
VV4 55.00 83.50 68. 09 103.38 4711 ( AR TV ) 2 ACPG 4.90 5.22
|
||
3889 AKI 22.ÛQ 27. IQ 4713 HE I 2 ACPG 4.90 5;22
|
||
3889 HE I AKI 22. 00 27. 10 100.00 100.00 100.00 100.00
|
||
3967 (NE Id) AKI 38.00 38.00 46.03 46.03 ACP 100.00 100.00 100.00 100.00
|
||
29710. . H L AKI 17.00 17.00 2Q.58 20.58 ACPG 100.00 100.00 100.00 100.00
|
||
VV4 22. 00 26.63 100.00 100.00 100.00 100.00
|
||
3970 (NE TIT) VV4 22.00 26.63 100.00 100.00 100.00 ICO.00
|
||
- 4Q2£_ ..HL.J[ AKI 3.-00 - 3.00 3.59 3.59 VV5 100.00 -IQQ.flQ 100.00 100.00
|
||
4068 ( S II) 1 AKI a. 70 8. 70 10.30 10.30 (C 111)1 320.00 340.77 309. 12 329.18
|
||
4076 ( S II) l AKI 3.00 3.00 3.55 3.55 ACP 353.00 340.77 341.00 329.18
|
||
4097 _ N I IJ JL AKI 1.00 1.00 1.18 1.18 . ACPG 301.00 340.77 329.18
|
||
¿9Q.I-7- 329.18
|
||
4101 H I l AKI 25. 00 17.50 29.38 20.57 323.60 340.77 312.60
|
||
1 VV4 10.00 17.50 11.75 20.57 400.00 340.77 386.40 329. I 8
|
||
4340 __H I 1 AKI - 42-«-QQ_ 32.5.0. 46. 90 3fr_«29 347.00 340.77 335.20 329.18
|
||
2 VV 37. 00 41.31 (0 III ) 1 790.00 979.40 750.04 929.86
|
||
l VV4 23.00 32.50 25.68 36.29 ACP 1094.00 979.40 1038.66 929.86
|
||
4363 _LC 1 I I I 1 AKI 8.70 8.70 9.67 9.67 COAL 1QQQ.QQ 979.4Q 949.42 929*86
|
||
37.00 41.12 1120.00 979.40 1063.35 929.86
|
||
4471 HF I AKI 5. 10 5.10 5.55 5.55 VV5 893.00 979.40 847.83 929.86
|
||
4541 HE I I AKI 1.00 l.OQ- 1.07 1-..07 5876 HE I- . VV5 . 28.00 28.00 19.71 19.71
|
||
4571 MG I AKI 1.20 1.20 1.28 1.28 6300 I ) 1 VV5 15.00 9.32
|
||
4686 HE I I AKI 17. 00 12.75 17.66 13.24 6563 H I 2 VV5 427.00 248.52
|
||
-VV4- 8.50 12.75 .83 . 13.24 6563 (N II ) 2 VV5 427.00 248.52
|
||
4740 (AR IV ) AKI 1.30 1.30 1.33 1.33
|
||
4861 H I AKI 100.00 1 CO.00 100.00 100.00 NGC 6567 (PK NO.
|
||
Q063 IQQ.OQ _1 QQ.Q-Q- 1QQ.QQ 1QQ.QO
|
||
VV 3 100.00 100.00 100.00 100.00
|
||
VV4 100.00 100.00 100.00 100.00
|
||
.4959 . __LC I III -VV. .3— 324.00 272.Q.Q 31B.37 267.27 BEGIN NGC 6572 tPK NO. 34+11 1) C = 0.41 (RADIO-H BETA)
|
||
1 VV4 220.00 272.00 216.18 267.27
|
||
1 00 6 3 1380.00 1026.67 1344.15 1000.00 WAVE IDENT N RG REE OBS I AVE O CORR I AVE C
|
||
_1 1026.67 974.0? 1 000.00
|
||
VV 3 IQJQ^OQ- 1026.67 3107 O AK2 0.25 0.2 5 0.39 0.39
|
||
1 VV4 700.00 681.82 1000.00 3109.00 (AR III) 1 KA 0.25 0.25 0.39 0.39
|
||
6300 (01 ) I VV 3 66.00 66.00 51.85 51.85 3120.80 0 III 1 A K2 0.42 0.42 0.65 0.65
|
||
6563 _y L _2 VV4— 65Q.QQ 49:4.00..- 3127 0 AK2 0^2] Q*2J 0.33 0.33
|
||
( N 11)2 VV 3 1550.00 l 177.99 3131.98 0 III A K2 0. 59 0.92
|
||
VV4 650.00 494.00 3187.55 HE I AK 2 2.00 3.06
|
||
VV 3 155Q^QQ._ 1 177.68 3187.55 NF I 1 AK2 2.00
|
||
( S II)I 3201.20 0 0.15 0.15 0.23 0.23
|
||
3206 0.22 0.22 0.34 0.34
|
||
NGC 6565 (PK -NO.
|
||
NGC 6572 (PK NO.
|
||
|
||
558
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 6572 (PK NQ. 34tll 11 NP,r 6S72 (PK ND. 34U.1. 1)
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT □ BS I CORR I
|
||
_^?Q7t93- AR II 1 AK2 Q. 15 0.15 Q.23 ^7?7.00 n ! T 1 1 « QQ*_ .33*
|
||
3211 O AK2 0.15 0.15 0.23 AUV 1.00* 1.33*
|
||
3234 0 KA 0. 16 0.16 0.24 LA 45.00 59.66
|
||
0.09 0.09 ^2t40
|
||
3239
|
||
3241.91 SI III
|
||
_Q AK2
|
||
AK2 0. 08
|
||
_ûm.
|
||
0.12 l LA-Q.P-Ç
|
||
PTP 35.50 47.07
|
||
3243.91 NE II AK2 0.12 O. 18 1 VV 2 26.40X 35.00X
|
||
3243.91 NE. .11— AK2 Q. 12 O. 18 in ir) -l Atí_ 0.46* 0.61*
|
||
3246 AK2 0.12 0.12 0. 18 0.18 1 AUV 0.45* 0.60*
|
||
3258.38 SI III AK2 0.23 0.23 0.34 0.34 3732.85 HE I 1 AK2 0. 11 O.ll 0. 15 0.15
|
||
3260.70 O III KA 0.17 Q»17 -Q_^2JL- -0.^2? 3734.38 _H L_ _J. AK2 2.64 -¿.64_ 3.49 3.49
|
||
3262.60 C III 1 KA 0.08 0.08 0. 12 0.12 3737 KA 0.04 0.04 0.05 0.05
|
||
3293.33 AR II l AK2 O. 15 0.15 0.22 0.22 3740 AK2 0. 05 0.05 0.07 0.07
|
||
3296.76 HE I 1 AK2 0.20 0.20 Ot 30 _0-.3Q 3745.91 AK? Q.Q5 0.05- 0.07- O .01—
|
||
3299.30 O III 1 AK2 0.05 0.07 0.07 0.10 I 3.65 5.93 4.81
|
||
1 KA 0.09 0.07 O. 13 0.10 3.65 3.69 4.81
|
||
3312.30 D LLL J AK2 .10 -0.15 0. 1 5 3754.69 Q_ I T I -0-^20- 0.20. 0.26- 0.26-
|
||
3334, 1 AK2 0.14 0.14 0.21 0.21 3755.94 HE I l AK2 0.09 0.09 0. 12 0.12
|
||
3338 0 AK2 0.08 0.08 0. 12 0.12 3757.33 O III l AK 2 0.07 0.07 0.09 0.09
|
||
3340, SJQ Q LLL 1 AK2 0.13 -0.13 . O,. 19- 0.19 3759.84 O III 1 AK2 O. 14 0.97 Qtl8_ U27_
|
||
3342. 81 (NE III) AK2 0.20 0.29 1 A41 1.80 C. 97 2.37 1.27
|
||
3345. 82 NE 11 A K2 0. 13 0. 19 3762.43 1 A K2 0.05 0.05 0.07 0.07
|
||
3345. Â2 N£_ U_ AK2 Q-t-L3 0.19 ?7fr4 _Q KA_ -0.03 - 0.03 0.04_ 0.04-
|
||
3345. 82 NE I I AK2 0. 13 0. 19 3768.77 HE I AK2 0.11 0.11 0. 14 0.14
|
||
3345, 82 (NE V ) A K2 0. 13 0. 19 3770.61 H I AK2 5.40 3.87 7.08 5.07
|
||
3347.94 0 III 1 AK2 -Q..Q8- 0.12 A41 -2.30- -3.8 7- 3.01_ -5..Q7_
|
||
3353. 32 NE I I 2 AK2 0.09 0. 13 1 LA 3.90 3.87 5. 11 5.07
|
||
3353, 32 (CL III ) 2 AK2 0.09 0. 13 3773.94 0 III 1 A K2 O'. 08 0.08 0. 10 0.10
|
||
—3354.16 HE I 2 AK2 0.15 0.22 3777.10 NF IT _J AK2 n.ofl
|
||
3354. NE I I 0. 15 0.22 3780 0.05 0.05 0.07 0.07
|
||
3356. Q III 0.15 0.22 3783.10 0.05 0.05 0.07 0.07
|
||
3367. -0 U AK2 0.09 Q. 13 3784.86 . 0.09 _ 0.09 0. 12 0.12-
|
||
3367. 16 NE 11 AK2 0.09 0. 13 3791.14 0 III AK2 0.06 0.08
|
||
3367. 16 S 0.09 0. 13 3791.14 NE II AK 2 0.06 0.08
|
||
33Rt>. &n o_ inhi
|
||
AK2
|
||
Q. IQ JCL.14 31-95 —A-K.2 -Q.Q5 _ -JQ.07-
|
||
3385. 8C NF I I 0. 10 0. 14 3797.81 H I AK2 5.47 4.69 6.11
|
||
3387. 00 S III 0.15 0.15 0.22 0.22 A41 3.40 4.69 6.11
|
||
3411. _42 NE_ U Q^-1.5— 0.1 5 0.22 0.22 -■inn _
|
||
3439, 92 0 III l AK2 0.0 0.0 0.0 0.0 l OPC 4.80 4.69 6.25 6.11
|
||
3444. 10 0 III 1 AK2 0.11 0.11 0. 16 0.16 3805.65 l A K2 0. 13 0. 13 0. 17 0.17
|
||
-3447. HO HE_ I -1 AK 2 0.26 -0.37 0.37 3 AO 8 _0 KA 0. 06 0.08-
|
||
3450. 2 7 HE AK2 0.06 0.09 3811.20 P III 0.07 0.07 0.09 0.09
|
||
3450. 27 0 III AK2 0.06 0.09 3817 KA 0.06 0.06 0. 08 0.08
|
||
—3-454. A3 HE- J AK2 0.05 -0.07 3B19.59 HF I . AK2 _ 1-.7A _ 1.78- -?_nn- —2-^30—
|
||
3454. 43 0 AK2 0.05 0.07 3831.75 S III 1 AK2 0.03 0.04
|
||
3456. 87' HE AK2 0.08 0. II O.ll 3833.55 HE T 2 AK 2 0.13 0. 17
|
||
3466. .2-8 HE- AK 2 CUQB 0. 11 ^833.«S8 HF II _2 AK2 0.13 _ -0.17-
|
||
3466, 28 0 III 2 AK2 0.08 0.11 A K2 7.30 7.02 9.40 9.04
|
||
3470. 50 0 I I 1 KA 0.08 0.08 0. 11 O.ll A41 6.00 7.02 7.72 9.04
|
||
3471.89 HE- -I AJL2— 0.12 0.17 - 8.50 -
|
||
3479. 06 HE AK2 0.14 0.14 0.20 0.20 1 OPC 7.60 7.02 9. 78 9.04
|
||
3481. 95 NE AK2 0.08 0.10 0. 11 0.14 1 LA PTP 5. 70 7.02 7.34 9.04
|
||
-KA 3838.26 HE ! 3 AK2 Q. 06 -Q.Q8-
|
||
3487.79 HE I l AK2 0.14 0.14 0.20 0.20 3838.26 TI AK2 0.06 0.08
|
||
3498.69 HE I l A K2 0.17 0. 17 0. 24 0.24 3838.26 III AK2 0.06 0.08
|
||
3503.5fl NF II- _J KA- 0.06 0.06 0.08 0.08 3841 .95 AR II AK 2 o. ns n. nA
|
||
3512, AK2 0. 18 0. 0.25 0.25 3848.10 II AK 2 0.09 0. 12
|
||
3530. AK2 0. 19 0.19 0.26 0.26 3856.06 SI II AK2 0.09 0. 12
|
||
3543. 0.07 0.07 0. 10 0.10 3856.06 AR I I A K2 0. 09 0. 12
|
||
3554, 0.28 0.2 8 0.39 0.39 3856.06 N T I AK2 0.09 0. 12
|
||
3563, 0.08 0.08 0. 11 0.11 3856.06 0 I I AK2 0.09 0. 12
|
||
3587. AK2 0.34 0.34 0.47 0.47 3857.58 0 I I A K2 0.04 QtO* 0.05
|
||
3599 .80 HE 0.08 0. H 3858 0 AK2 0.04 0.04 0. 05 0.05
|
||
3599 .80 HE 0.08 0. 11 3862.41 SI I I 1 AK2 0. 14 0. 14 0. 18 0.18
|
||
3613 LÍO tiE_ Q.45. Q. 61 J] LL_ AK 2 Q. 14 0.14 Q. 18 0.18
|
||
3615. 60 0. 10 0. 14 3868.73 1 AK 2 81.10 78.34 103.43 99.91
|
||
3615, 60 N KA 0. 10 0. 14 1 A41 58.50 78.34 74.61 99.91
|
||
3628. Jü NE— KA— Q»QB .11 1 Lô_ -86.90 - 78.34- . 110.82- 99.91
|
||
3634. 0. 55 0.55 0.75 0.75 1 OPC 100.20 78.34 127.79 99.91
|
||
3640 0.06 0.06 0.08 0.08 1 LA PTP 65.00 78.34 82.90 99.91
|
||
3658. 70 H L_ 0.0 0.0 1 VV ? 6I.9QX _7-8.t .9 4 X—
|
||
3659. 43 AK2 0.38 0.38 0.51 0.51 3870 0 AK2 0.29 0.29 0. 37 0.37
|
||
3660. 33 H AK2 0.36 0.36 0.48 0.48 3871.69 HF I 1 AK2 0.23 0.23 0. 29 0.29
|
||
3661. 12 tl_ AK2 '0.38 0.38 0.51 0.51 3884.20 _C LLL _1 KA— 0.05 0.05 0.06 0.06
|
||
3662. 29 l AK2 0. 36 0. 0.48 0.48 2 A K2 18. 10 22.95
|
||
3663. 39 H 1 AK 2 0.43 0.43 0.58 0.58 2 A41 14.30 18. 13
|
||
3664. ¿5 H_ 1 AK2 0.40 0.40 Q. 54 0.54 2 LA 14.30 -18 ■ 13-
|
||
3666, 09 1 AK2 0.44 0.44 0.59 0.59 18.40 23.33
|
||
3667. 69 H 1 AK2 0.55 0.55 0.74 0.74 22.50X 28. 53 X
|
||
-3669. A3 t!_ _J AK 2 0.50 ■0.5 Q 0.67 -0.67 3888.89 HE I AK2 .18.10 _ 22.95
|
||
3671, 45 AK2 0.62 0.62 0.83 0.83 2 A41 14.30 18.13
|
||
3673, 72 H AK2 0.62 0.62 0.83 0.83 2 LA 14.30 18.13
|
||
3676, 13 H_ AK2 Q-..73 .73 .98 0.98 _2 VV 2 22.5QX-
|
||
3679, 35 1 AK2 0.77 0.77 1.03 1.03 3892 0 KA 0.05 0.05 0.06 0.06
|
||
3682. 79 1 AK2 0.89 0.89 1. 19 1.19 3896.30 1 KA 0. 05 0.05 0.06 0.06
|
||
.3686, 12 H_ _1 AK2 0.98 Q. 98 1.31 -1.31 3909 _Q ÜA_ 0.07 0.07 0.09 ...0.09
|
||
3689 AK2 0. 0. 0. 0.07 3911 05 0 0.05 0 0.06
|
||
3691. AK2 1. 14 1. 14 1. 52 1.52 3912.50 0.05 0.06
|
||
3694. AK2- 0.10 Q.1Q ■Q-. 13 0.13 3912.50 -K A 0.05 —Qj.fl.6 _
|
||
3697. T AK2 1.51 1.51 2.02 2.02 3914 0 KA 0.05 0.06
|
||
3702. III AK2 0.21 0.21 0.28 0.28 3918.91 II 2 A K2 0.04 0.05
|
||
3703. _I A K2_ 1.70 1.70 ?.?7 3918 91 C T I 2 AK2 0.04 . 0.05 _
|
||
3704. 97 HE I A K2 0.-93 0.93 1.24 1.24 3920.68 C I I I AK2 0.08 0.08 0. 10 0. 10
|
||
3707, 19 0 III AK2 0.22 0.22 0. 29 0.29 3926.48 HE I 1 A K2 0. 19 0. 19 0.24 0.24
|
||
-3.711 3A tL AK2 _2*. 2.1Q 2.79 3935.90 HE I.. _1 KA- 0.04 - Q.Q4 - —Q.^QS _ _Q.«Q5_
|
||
3713, III AK2 0. 16 0.16 0.21 0.21 3946.00 II 0.04 0.05
|
||
3715, III l AK2 0. 21 0.21 0.28 0.28 3946.00 TI KA 0.04 0.05
|
||
3717 _0 KA Qm Q6 Q.« .06 - Q. 08 ■ JL. 08 3947.90 C LL KA -JLQ4
|
||
3721. I AK2 2.72 3.61 3951 0 KA 0.04 0.04 0.05 0.05
|
||
3721. III AK2 2.72 3.61 3954.50 1 AK2 0.06 0.06 0.07 0.07
|
||
-3-Z21. _LI AK2 2.72 3.61 _Q KA O.Qft
|
||
3727.00 (0 11)1 AK2 48.00 63.64 3963.00 Q I I 0.06 0.06 0. 0.07
|
||
A41 35.30 46.80 3964.74 HE I 1.35 1.35 1. 68 1.68
|
||
NGC 6572 (PK NO. 34+11 1) NGC 6572 (PK NO. 34+11 1)
|
||
559
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGf. 6 577 (P_K_ MO. ^4+11 1 L_ NGC_ 6572 (PK NO. B4tll 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CQRR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
1967.45 (NF III) J AK? 19.BO 19.BQ 49.51 4-9.51 _434il«38 H I _i m 45-jJQX 51.81X
|
||
A41 35. 00 43. 54 1 LA 56.60 40.64 64.17 46.08
|
||
2 LA 42.70 53. 12 1 OCB 36.20 40.64 41.04 46.08
|
||
2 OPC 37.10 46.15 _J1 LA QEC 38. 5Q 40.64 -43^65 46.08
|
||
2 VV 2 37.20X 46.28 X PTP 41.70 40.64 47.28 46.08
|
||
1 AK2 39.80 49.48 1 EW PTP 40.70 40.64 46. 14 46.08
|
||
? A 41 35.00 43.51 _2 VV 2 5Q.60X
|
||
LA 42.70 53.08 4342.70 T I 2 AK2 0.22 0.25
|
||
OPC 37.10 46. 12 4342.70 I I 2 AK2 0.22 0.25
|
||
VV 2 37.2QX 46.24X 4345.38 _L A.K2 0.16 0. 18
|
||
3988 0.06 0.06 0.07 0.07 4346.80 (FE II > l AK2 0.08 0.08 0.09 0.09
|
||
3995.06 N II AK2 0.05 0.05 0.06 0.06 4348.24 N III l AK2 0.09 0.09 0. 10 0.10
|
||
4009.21 H£_J_ AK? 0.32 0.3.2 0.39 Q.39_ 4349.45 XL I âÜ2_ Qt 15 0.15 . 0.17
|
||
4024.01 1 AK? 0. 02 0.02 0.02 0.02 4363.10 (O I II) 1 AK? 8. 10 8.29 9. 13 9.35
|
||
4026.20 HF I I AK 2 2.96 2.52 3.63 3.10 1 A41 9.00 8.29 10. 15 9.35
|
||
_J A 41 2. QQ 2.52 2.45 3.10 J äh 14.8QX
|
||
1 LA 3. 10 2.52 3.80 10.80 8.29 12. 18 9.35
|
||
1 LA PTP 2.04 2.52 2. 50 OCR 8.68 8.29 9.79 9.35
|
||
4041.60 N II 2 KA 0.06 0.07 □ PC 7.60 8.29 8.57
|
||
4041.60 II 0. 06 0.07 1 LA PTP 7. 10 8.29 8.01 9.35
|
||
4056.40 I IT 0.05 0.05 0.06 0.06 l EW PTP 6. 75 8.29 7.61 9.35
|
||
4Q6Q.23 (FE IIVI )) 1-1 AK2 Q.Q5 0.05 . Q. 06- . 0.Q6- 5Q.6QX . 57.06 X
|
||
4068.52 (S 1.85 2.24 4365 0 AK2 0.07 0.07 0. 08 0.08
|
||
4069.90 0 I I 2 A K2 0.21 0.25 4366.78 1 AK2 0. 13 0.13 0. 15 0.15
|
||
...40.6^90 Q_ _LL 2 A K2 Q.21 . Q. 2-5- 4368.25 1 AK2 Qtlß 0* 17 Q117
|
||
l A41 2.40 2.59 2.91 3.14 4372.04 0 I I 2 AK2 0.04 0.05
|
||
l LA 3.20 2.59 3.88 3.14 4372.04 AR I I 2 AK2 0. 0.05
|
||
1 1 A PXP 2. 18 7-59 2.64 3.14 - - 43 73 _fl A_K_2_ 0.Q4 0-04
|
||
4072.01 0AR II II 2 A K2 0.18 0.22 4375 0 AK2 0.04 0.04 0.04
|
||
4072.03 2 A K2 0. 18 0.22 4379.11 N III 1 AK2 0.06 0.06 0.07
|
||
__2 A-K.2.. 0-80 4387.84 -HE. .1 _l A-K2 0.65 0.65
|
||
4076.19 (S II AK? 0.66 0.80 4390.30 MG I I 1 A K2 0.05 0.06
|
||
4085.00 n II AK2 0. 05 0.06 4391.78 S I I 2 AK2 0.06 0.07
|
||
4087.20 Q. 06 . 0. 02. hi LE- 4391.78 NP T T _2 AK? 0.06
|
||
0.14 0.17 4411.13 I I 1 AK2 0.06 0.06 0.07 0.07
|
||
0. 06 0.07 4414.81 I I 1 AK2 0.07 0.07 0.08 0.08
|
||
4089. I 7 81 TV 0.14 0. I-Z -4416.94 —LI— _2 AK?
|
||
4093.20 II 0.06 0.06 0.07 0.07 4416.94 NF I I 2 AK2 0.06 0.07
|
||
4097.31 III A K2 0. 57 0.57 0.69 0.69 4428.28 NE I I 2 AK2 0.07 0.08
|
||
A41 - 4428.28 -NE—LX _2 UK-2—
|
||
4101.70 H l AK2 21.60 25.96 4430.50 AK2 0.04 0.04 0.04 0.04
|
||
1 A41 21. 10 25.36 4432.93 AK2 0.04 0.04 0.04 0.04
|
||
_J LA - 4437.41 AK?
|
||
1 OPC 22.20 23.18 26.68 27.86 4446.90 I I 1 KA 0.05 0.05 0.06 0.06
|
||
1 LA PTP 22.90 23.18 27. 52 27.86 4448.90 II 1 KA 0.05 0.05 0. 06 0.06
|
||
1 EW PTP 2 2^40 21.18 -26.92 -27.86- 4452.90 T I -J KA_ 0^115 0*115 0.06 0-06
|
||
l VV 2 25.90X 31.13 X 4465.16 II 1 AK2 0.03 0.03
|
||
4103.32 N III 1 AK2 0. 20 0.24 4467.82 I I 2 AK2 0.05 0.06
|
||
A-41 - 25.15 - 4467.8? I IT -2 AK? 0.05 0.06
|
||
4104.70 O II 1 AK2 0. 22 0.22 0. 26 0.26 4471.37 HE I 1 AK2 5.02 5.68 5.53 6.26
|
||
4116.50 SI IV l A K2 0.06 0.06 0.07 0.07 l A41 5. 80 5.68 6.38 6.26
|
||
- 4 1 1.9_ 2 6 0 LI— _1 AK?... 0. 10 0. 1 0 0. 1? 0.1? -J AN 16.-Q0 X. . -1 7.61 X
|
||
4120.79 ME I l AK2 0. 39 0.39 0.47 0.47 l LA 7. 40 5.68 8.15 6.26
|
||
4128.75 A» II l AK2 0.06 0.06 0.07 0.07 l OPC 5.20 5.68 5.72 6.26
|
||
4132.87 P II 1 AK? 0.08 0.08 Q.-LQ 0.10 1 I A PTP 5*00 5*68 5.50
|
||
4135 AK2 0.04 0.04 0.05 0.05 10.70X 11.78X
|
||
4143.63 AK 2 0. 55 0.49 0.65 0.53 4480.94 MG I I AK2 0.04 0.04
|
||
A41 0.34 0.44 0.40 0.53 4511.08 N III AK2 0.05 0.05
|
||
4145. AK2 0.04 0.05 4511.08 (K IV ) AK2 0.05 0.05
|
||
4145. 95 0 II AK 2 0.04 0.05 4513 KA 0.05 0.05 0.05 0.05
|
||
4153. AK2 0.09 0. 11 4518 _AJL2_ 0. 04 Qt.Q4 0.04 -QtQ4_
|
||
4155 AK2 0.03 0.03 0. 04 0.04 4529 0 AK2 0.03 0.03 0.03
|
||
4163, 25 ( K V AK2 0.04 0.04 0.05 0.05 4534.29 MG I I 1 AK 2 0.05 0.05 0.05
|
||
4169. 04 _HE L_ AK2- Q. 10 Q. 12 _4562.12. - NF I I _1 AK2 Ü«-Q6
|
||
4169, 04 G II 3 AK2 0.10 0.12 4571.01 AK2 0.70 0.57 0.75 0.61
|
||
4169, 04 AR I I 3 A K2 0. 10 0. 12 A41 0. 44 0.57 0.47 0.61
|
||
-4185. AT □ LL _J A_K2__ Q.09 . 0*1-1 4590.81 G II AK 2 0.08 0.0 8 0.09 0.09
|
||
4186, l AK2 0.04 0.04 0.05 0.05 4596.12 0 I I I AK2 0.06 0.06 0.06 0.06
|
||
4189, 1 A K2 0.08 0. 08 0.09 0.09 4598.66 AR I I l A K2 0.05 0. 05 0.05 0.05
|
||
4192. 1 KA 0.04 0.04 0*05 Q «05 4604.55 (fe n ) 1 AK2 Q.Q5 Q. 05 _Q*- - 0 «05
|
||
4199 O AK2 0.04 0.04 0.05 0.05 4606.80 II 1 AK2 0.05 0.05
|
||
4220 O A K2 0.05 0.05 0.06 0.06 4609.87 0 I I 2 AK2 0.07 0.07
|
||
- 4 24-L. _2 A K2 a*-Q7 . O.-QB - 4609.87 -Q LI_ —2 AK2 Q.Q7 0.07
|
||
4241 80 N II 2 AK2 0.07 0. 08 4621.60 I I 2 AK2 .07 0.07
|
||
4245 0 AK 2 0. 07 0.07 0. 08 0.08 4621.6C I I 2 A K2 0.07 0.07
|
||
42-53,, A<] S ILL- A AK2_ Q.Q5 *35_ 0.06 4630 U —AJW.7-Q 0.07 Q.QJ
|
||
4257 0.06 0.06 0. 07 0.07 4630.50 2 A K2 0. 06 0.06
|
||
4267. AK2 0.63 0. 56 0. 73 0.65 4630.50 I I ? AK2 0.06 0.06
|
||
AA1 Q.5Q 0.56 0-58 0.65- 4634.05 TIT 1 AK2 0.28 0.30
|
||
4275.69 0 A K2 0. 07 0. 08 4 A41 1.60 1.69
|
||
4276.55 0 AK 2 0.05 0.06 l AW 7 0 0.21 0.24 0.22 0.26
|
||
4276.55 O AK? 0*-Q5— ...Q..-Û6 4638.58 O II _1 AK2 0.12 Q.12 0.^13 - 0.13
|
||
4283.70 0.06 0. 06 0.07 0.07 l AW70 0. 12 0. 12 0. 13 0.13
|
||
4288.00 N I I I A K2 0.08 0.08 0.09 0.09 4640.50 N III 1 AK2 0.50 0.50 0.53 0.53
|
||
4292.50 n JJ —ÄK-2 Q.Q7 0.07 0.08 0.08 _42 A.41 1-60 1*69
|
||
4295.30 II . 06 0. 07 AW70 0.69 0.73
|
||
4295.30 II 0.06 0.07 2 AK2 0.28 0.30
|
||
4303.82_ .11 Qj-Q6 - Q.QJ 2 AW 7 0 0.69 0.-I3
|
||
4313.60 C 0.04 0.05 4641.81 0 I I AK 2 0. 28 0.30
|
||
4313.60 G 0.04 0.05 4647.20 C III AK2 0. 0.09
|
||
4317.50 0 0. 10 QjJJ 4647.20 NE II -AK2 __a*
|
||
KA 0.06 0.07 1 AK2 0. 0.31
|
||
4317.50 A K2 0.10 0. 11 2 A W70 0.45 0.47
|
||
4319.45 A_K2_ Q. 09 Q. 10 __4 A-41 1.60 1.69
|
||
0.09 0.09 0. 10 0.10 A K2 0. 17 0.17 0. 18 0.18
|
||
4322.00 C I I AK? 0.07 0.07 0.08 0.08 A W7 0 0.45 0.47
|
||
4325.90 -AK2._ 0.04 4653.7C 0 I_ _KA
|
||
4325.90 C_ -LE- 3 AK2 0.04 0.05
|
||
0.05 4657 (FE III) AW7 0
|
||
0*05
|
||
0.16
|
||
0-05 0.05
|
||
0.17
|
||
0.05
|
||
4325.90 3 AK2 0. 04 0.05 4657.97 AR I I AK 2 0.17 0. 18
|
||
4338 __Q AK2 -0*0 0.0 4657.97 iFE nn _JlK2 0. 17
|
||
AK2 34.80 40.64 39.46 46.08 A41 1.60 1.68
|
||
A41 36. 00 40.64 40. 82 46.08 AW7 0 0. 16 0. 17
|
||
NGC 6572 (PK NO. 34+11 1) NGC 6572 (PK NO. 34+11 II
|
||
560
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 6572 (PK NQ. 3*+H 1) NGC 6572 (PK NO. 34+11 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 AVE C WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
*661.58 J] LI_ _1 AK2 Q.J.5- 0.15 0.16 5411 HE II 1 W 2 ^SQX 4.-Q1X
|
||
l AW70 0.15 0.15 0. 16 0.16 l WYSE 0.80 0.71
|
||
4676.06 O II 1 AK2 0. 12 0.12 0.13 0.13 5418 l WYSE 0.70 A 0.62 A
|
||
1 AW70 -0-12 q»i2 0. 13 0-13 5464 1 AW70 0.10 . Q-v l O 0.09
|
||
4685 HE II l AW70 0.08 0.08 5503 1 AW70 0.05 0.05 0.04 0.04
|
||
1 VV 2 5.60X 5.85 X 5511 1 AW70 0.07 0.07 0.06 0.06
|
||
4702.00 IFF III) 3 ÜLA 0.06 0.06 5517 1 A AF7 Qj5Q* Q.44*
|
||
0. 13 0. 14 1 AW70 0. 76 0.66
|
||
4702.00 0.06 0.06 1 WYSE 1.50 A 1.31 A
|
||
4702.QQ KA 0.06 0.06 553? (CL III) 1 A AE2 IjlQQ* 0.87*
|
||
4711.21 (AR IV ) 1 AK2 0.80 0.83 1 AW70 1.45 1.26
|
||
2 A41 1.30 1.35 1 WYSE 3.00 A 2.60 A
|
||
Z AW7Q . 1.73 1-79 5554 1 VV 2 9.60X 8. 30X
|
||
LA 1.80 1.87 5577 (0 I ) l WYSE 2.00 A 1.72 A
|
||
OPC 1.90 1.97 5626 1 AW 70 0.10 A O.
|
||
■ 4713.02 HE .1 -1 AK2 ■0.B9 . a.B9 Q.92 5635 1 AW7Q 0-20 A P.
|
||
2 A41 1.30 .35 5665 l AW 70 0.20 0.20 0. 17 0.17
|
||
2 A W70 1.73 1. 79 5677 (FE VI ) l AW70 0.20 0.20 0. 17 0.17
|
||
_2 LA_ 1« 80 1.87 5 754. _LN LL-L J AW 70 6.50 4.69 5..42 . 3»91—
|
||
.2 OPC 1.90 1.97 1 LA PTP 2.88 2.40
|
||
4740.07 (AR IV ) l AK2 1.64 1.77 1.69 1.82 1 WYSE 12.00 A 10.01 A
|
||
1 A41 1.20 1.77 L.24. -L.B2 5800 _1 AH7C 4.00 A 3.31 A
|
||
1 A W70 1.50 1.77 1.54 1.82 1 WYSE 7.00 A 5.79 A
|
||
l LA 2.90 1.77 2.99 1.82 l A W70 3.00 A 2.48 A
|
||
1 OPC .1^60 L.77 1.65 ...iJ.a2 _] WY-SJE. 6.00 A 4.45 A
|
||
4754 ( fe i in 1 AW70 0.06 0.06 0.06 0.06 l AHX 56.00* 45.73*
|
||
4781 N II l A W7 0 0.05 0.05 0. 05 0.05 1 AW 70 20.00 20.83 16.33 17.01
|
||
4804 0 WYSE 0.60 A-. Q.61 A _j npr ?•*. Qf> 20.83 1 9^-52 -17.QJ
|
||
4821 [FE III) l WYSE 0.60 A 0.61 A 1 LA PTP 18.60 15.19
|
||
4830 1 WYSE 0.70 A 0.70 A l VV 2 31.50X 25.72 X
|
||
.4861.21 _ti I J AK2 100.00 100.QQ _1 WYSF 60.OP A 49.00 A
|
||
l A41 100.00 100.00 100.00 5885 l WYSE 3.00 A 2.45 A
|
||
1 AN 100.OOX 100.OOX 5954 1 WYSE 2.00 A 1.61 A
|
||
_L CPDA 100.00 i no.no inn.nn -616J _1 WYSE 1.50 A 1.-1J A
|
||
1 LA 100.00 100.00 100.00 100.00 6243 N II WYSE 1.50 A . 15 A
|
||
1 L A 54 100.00 100.00 100.00 100.00 6300 (0 1 > AHX 28. 10* 21.35*
|
||
-J flS IQO.no 100.no 100.00 100.00 CAM 0.02* —0.02*
|
||
1 OCR 100.00 100.00 100.00 100.00 1 LA PTP 8. 10 A 6.15 A
|
||
1 LA PTP 100.00 100.00 100.00 100.00 l VV 2 31.50 X 23.93X
|
||
1 PW PTP 1 00.00 1 00.00 .100.00 —l WYSE 15.OP A 11-40 A
|
||
1 VV 2 100. OOX 100.OOX 6311 I WYSE 6.00 A 4.55 A
|
||
l WYSE 100.00 A 100.00 A 6331 1 WYSE 1.50 A 1. 13 A
|
||
(FF ITT ) J AW70 0.14 WYSE L—50 A 1.13 A
|
||
0.90 0.89 A (0 1 ) 1 AHX 7.70* 5.80*
|
||
0.0 0.0 l WYSE 8.00 A 6.02 A
|
||
0.99 A J WYSF ?.un a 1.49 A
|
||
4921.81 HE I l AK2 0.0 1.02 0.0 1.01 l OCR 35.00 33.30 25.66 24.42
|
||
1 AW70 2.04 1.02 2.01 l.Ol l LA PTP 31.60 33.30 23. 17 24.42
|
||
-I WYSE 3.95 A -1 WYSE 40.00 A 29. 33 A
|
||
4931.19 (0 III ) 1 AK2 0.0 0.09 0.0 0.09 1 CAM 1.00* 0.73*
|
||
1 AW70 0. 18 0.09 0. 18 0.09 1 LAP 10.00* 7. 32*
|
||
2 0.89 A -JWYSE ELLE. 371.00 271.41 774.71
|
||
4931 (FE III) 2 WYSE 0.90 A 0. 89 A 1 LA PTP 380.CO 278.00
|
||
4937 0.59 2 VV 2 5p3.OOX
|
||
(FE III) 1
|
||
_4943 —o n J
|
||
WYSE
|
||
WYSF
|
||
0.60 A
|
||
0.50 A— nT ¿o Aa 1.00*
|
||
404. 56 X
|
||
0.-Z3»
|
||
4949 WYSE 0.50 A 0.49 A WYSE 230.00 A 168.26 A
|
||
4959.94 (0 111 ) l AK2 368.00 366.36 360.72 359.11 (N II ) 2 OPC 372.00 272. 14
|
||
1 A41 350.00 366.36 343.08 359.11 2 VV 2 553.OOX 404.56X
|
||
1 AN 305.OOX 298.97X 6563 H I 2 OPC 372.00 272. 14
|
||
l CPDA 380.20 366.36 372.68 359.11 6583 (N II) 1 CAM 0. 28* 0. 20*
|
||
L- LA 324.00 .3.66.36 317.59 359.11 J- OCR 91.00 — -66.31 67.10
|
||
LA54 380.00 366.36 372.49 359.11 l LA PTP 93.00 67. 83
|
||
MS 410.00 366.36 401.89 359.11 1 W 0.18* 0.13*
|
||
OPC 350.00 366.36 343.08 359.11 110.QQ A 80.23 A
|
||
1 LA PTP 363.00 366.36 355.82 359.11 6621 l WYSF 2.00 A 1.45 A
|
||
1 EW PTP 372.00 366.36 364.65 359.11 6638 1 WYSE 2.00 A 1.45 A
|
||
_2 VV—2 135.Q.QQXÆ- 1 373.31 XA 6644 _l ri.YSf 2.00 A 1.45 A
|
||
1 WYSE 310.00 A 303. 87 A 6678 HE I AHX 27.CO* 19.44*
|
||
(0 III) 1 A41 940.00 1109.00 912.31 1 l WYSF 20.00 A 14.40 A
|
||
J &£_ 1000.00* 970.54* 6716 ( S II) 1 B AE2 0.47* 0.34*
|
||
l CPDA 1148.00 1109.00 1114.18 1076.33 l AHX 5.00* 3.58*
|
||
1 LA 1060.00 11 09.00 1028.77 1076.33 1 WO 0.67* 0.48*
|
||
1 LA54 1180.00 1109.00 1145.24 1076.33 1 WYSF 2.00 A 1.4.3 A
|
||
l MS 1165.00 1109.00 1130.68 1076.33 6723 (S II ) l LA PTP 0. 89 0.64
|
||
l LA PTP 1120.00 1109.00 1087.00 1076.33 6730 ( S II) 1 B AE2 1.00* 0.72*
|
||
1 EW PTP 1150.00 1109.00 U16.U 1076.33 1 A±LX_ 13.00* 9.30*
|
||
2 VV 2 1350.OOXA 1310.23 XA 1.00* 0.72*
|
||
1 WYSE 1070.00 A 1038.48 A 1 WYSE 3.00 A 2. 15 A
|
||
_J R-E 2.86* 2.77* 7065 HE I 2 LAR 1.02* 0. 70*
|
||
l WYSE 7.00 6.78 A OPC 17.60 16.20 12.07 11.11
|
||
5026 N II l WYSE 0.60 0.58 A 1 LA PTP 14. 80 16.20 10. 15 11.11
|
||
5032 (EE Tin 1 WYSE 0.60 0.58 A 7130 (AR IV ) 1 OPC 25.50 2 5.-5 Q 17.36 17.?¿_
|
||
I A W7 0 0.30 A 0.29 A 7135 (AR III) 2 LAP l. 02* 0. 69*
|
||
1 WYSE 0.70 A 0.67 A 7325 (0 II) 1 OPC 20.40 21.40 13. 57 14.24
|
||
5047 HE I _J AH7Q 0.30 A_ 0.79 A 1 LA PTP 22.40 -21 -AO 14.90 . .14.24
|
||
l WYSE 1.00 0.96 A 1 AHX 120.00*A 79.79*A
|
||
5056 SI II 1 A W7 0 0.08 0. 08 0.08 0.08 1 LAR 0. 72* 0.48*
|
||
5191 (AR III ) _1 A^7,0 T 29 0.20 0.19 0.19 (AP IV ) J QPC 7.90 7.9Q -.5.00 5.QQ
|
||
5192 1 WYSE 1.00 0.93 A 7751 (AR III) l LAP 0. 52* 0. 33*
|
||
5199 1 AW70 0.7.5 0. 85 0.70 0.79 8392 H I 1 AHX 4. 10* 2.45*
|
||
1 LA PTP 0.85 0.89 0.79 8413 _ü L_ AHX 4. 70* 2. 50T
|
||
WYSE 2.00 A 1.86 A 8446 I 1 AHX 10.60* 6. 29*
|
||
1 AW 7 0 0. 14 0. 13 8467 H I l AHX 6.30* 3. 73*
|
||
_2 WYSE Q. .9-0—4— Q. 82 A 8502 -Ü I— _J AHX 8.80* 5.20*
|
||
5271 (FE II ) 2 WYSE 0.90 0.82 A 8545 l AHX ll.00* 6. 48*
|
||
5277 (FE VII) AW70 0.06 0.06 0.05 0.05 8598 1 AHX 11.90* 6.98*
|
||
5335 (FF VI ) J AW 70 0^0 .0^-0 . 0.0 0.0 B665 1 AHX 1 3.^90 * 8.11*
|
||
5341 l AW70 0. 10 0.09 8750 1 AHX 17.00* 9.85*
|
||
5346 1 AW 70 0.04 A 0.04 A 9069 1 LAR 0. 37* 0.21*
|
||
5358 1 AW7Q 0.04 A 0^ 04 A 1 OPC 19^0. 19.70 11.16
|
||
5362 1 AW70 0.05 0.04 LAP 0. 55* 0. 31*
|
||
5407 i AW70 0.09 0.08 A OPC 5.80 3.25
|
||
NGC 6572- (PK NO. NGC 6572 (PK NO. 34+11 1)
|
||
561
|
||
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGf 6572 ( PH-MQ. 34*11 1) NGC 6629 (PK NO. -5 11
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF □ BS I AVE 0 CORR I AVE C
|
||
9229_ _H I 1 LA PTP 6 » QQ 3^36 A 4121 -HE I 1 AKI SUZQ. 0.20 0.29 0.29
|
||
9532 ( S I 11) L LA PTP 74.00 A 40.64 A 4143 HE I 1 AKI 0.50 0.73
|
||
9532 H I 2 LAR 1.37* 0.75* 4267 C II 1 AKI 0.70 0.95
|
||
9539 _H I 2 OPC B4.Q0 46.11 4340 -Ü I _J AKI 32.90 32.75 ..3.2JL_ 43.01
|
||
9539 (S I 11 1 2 OPC 84.00 46.11 l VV 3 32.60 32.75 42.81 43.01
|
||
9 546 ( S 111)2 LAR 1.37* 0.75* 4363 (D III ) l AKI 2.00 2.00 2.60 2.60
|
||
10004 HI 1 LA PTP 11.50 A 6.15 A 4387 HE J -AKJ 0.60 —0« 6.0— 0.77 0.77
|
||
10049 1 LAR 0.34* 0.18* .4471 1 AKI 5.40 5.40 6.65 • 65
|
||
1 OPC 9.80 5.23 4861 1 AKI 100.00 100.00 100.00 100.00
|
||
1 0829 HE I _L LAR 6.45* 3.30* _i QP62 IQOtOP l-OP.P.Q.. JJ?0. 00- 100.00
|
||
1 OPC 234.00 234.00 119.86 119.86 I VV 2 100.00 100.00 100.00 100.00
|
||
1 LA PTP 245.00 A 125.50 l VV 3 100.00 100.00 100.00 100.00
|
||
10938 -1 LAR 1.02» Q.,52* 4959 _JJ3 LLii. J AKI ¿22.00 211.00 212.58 202.05
|
||
1 LA PTP 26.90 A 13.70 2 .00 946.09
|
||
(AR im 1 GBR 22.00 25.50 8.56 9.92 l VV 200.00 211.00 191.52 202.05
|
||
1 GFM 29. OQ 25.50 11.28 9-» 92 _ 5007 _LQ 111.1—1 QD62 707.90 727.45 A63.3.L 681.63
|
||
(S IV ) 1 G MS 49.00 35.50 19.06 13.81 2 VV 2 938.00 925.76
|
||
l HGR 22.00 35.50 8. 56 13.81 l 3 747.00 727.45 699.94 681.63
|
||
5554 —Lfcl 11)1 VV 2 3.5*00 35.00 ■ 25.53 25.53
|
||
REGION KFY {REG ION,REFERENC F,EXPLANAT I ON) 5876 HE I 1 30.00 30.00 19.32 19.32
|
||
A, AF2 , REGIONS A AND B CN DIFFERENT SCALES 6300 (0 I ) l 28.80 28.80 15.86 15.86
|
||
FW. PTP . FART-UFST Rl IT. 2-7 A 3 T R F f U T DF ¿563 __H I_ VV 2 39.2*00 . 198.90
|
||
LA, PTP , LARGE APERTURE 747.00 379.02
|
||
392.00 198.90
|
||
NGC 65 7? (PK NO. 747- 37Q. f>2
|
||
END NGC 6629 (PK NO.
|
||
BEGIN NGC 6578 <PK NO. 10 -11) C = 1.63 (RADIO-H BETA)
|
||
WAVE IDENT OBS I AVE C BEGIN NGC, 6644 LPK NQ*. 0.32 Í HYDROGF N 1 INFS)
|
||
3868 (NE HJ) I 35. 00 92. 04 92.04
|
||
VV5 144, oox 378. 66 X WAVE N RG REF OBS I AVE 0 CORR I AVE C
|
||
3970 _M 1_L no 38 3341 _0 AKI 1 » BO 1.80 2.42 2.4?
|
||
3970 (NE III) 40. 38 3426 AKI 2.50 2.50 3.30 3.30
|
||
4101 H I 29. 08 29.08 3428 AKI 0.70 0.70 0.92 0.92
|
||
4340 -3l444 _Q LU L_ AKI 6.00 6.00 7.90 7.90
|
||
VV5 261. OOX 429. 96 X 3687 AKI 0.60 0.60
|
||
4686 VV5 140. 00 X A 166. 16XA 3692 AKI 0.70 0.70
|
||
4B6 1 AKI
|
||
100. OOX 100. 3703 H I AKI 1.50 1.50 1.88
|
||
450. 00 415. 3705 HE I AKI 1.50 1.50 1.88
|
||
OOX AK I -1.40 I.Z.5-
|
||
(P 111)1 1260 ,00 1260.00 1118. 45 1118.45 3722 2 AKI 2.10 2.62
|
||
670 ,00X 594. 73 X 3722 ( S un 2 AKI 2.62
|
||
, OOX —3726 ( n 11 i -J AKT 2 2.1 - nn
|
||
10
|
||
.76. I 7—
|
||
6300 1 VV5 33. OOX 11. 07 X 1 VV 3 120.00 149.54
|
||
6563 I 2 VV5 583. OOX 168. 27X 1 VV5 135.00 168.24
|
||
6563 J I ) -2 VV.5-. 583-. OOX —L6&. 27X.. -J AJO
|
||
3734 l AKI 2.10 2.10 2.61 2.61
|
||
NGC 6578 (PK NO. 10 -l 1) 3750 1 AKI 2.70 2.70 3.35 3.35
|
||
3.754 _J AKI 0.40 . -0.40 n. so n.sn
|
||
3759 I II AK I 1.90 1.90 2.35 2.35
|
||
3770 I AKI 3.60 3.60 4.45 4.45
|
||
BEGIN NGC 6620 (PK NO. 5-61) C = 1.04 IRADin-H BETA 1 •37Q7 AKI 4.70 ■ -4.70 5.77 5.77
|
||
3819 HE I AKI 1.30 1.30 1.59 1.59
|
||
WAVF IDENT N RG REF OBS I AVE 0 CORR I AVE C 3835 H I AKI 6. 10 6.10 7.43 7.43
|
||
4340 H I L VV4 35.00 35.00 48.13 48.13 3868 (NF III) AKI 78.00 90.33 94.30 109.21
|
||
4686 HE I 1 VV4 28. 00 28.00 31.23 31 .23 VV 3 95.00 90.33 114.86 109.21
|
||
4861 H I l VV4 100.00 100.00 100.00 100.00 VV5 98. 00 90.33 118.48 109.21
|
||
4959 —LL III) 1 VV4- 240.00 240.QQ ¿28.15 ZZñ.15 AKT .00 1 ft- 05
|
||
5007 (P III) 1 VV4 650.00 650.00 602.41 602.41 VV 3 28. 00 33. 70
|
||
65o3 I 2 VV4 590.00 267.01 AKI 15.00 18.05
|
||
. A563__ 11)2 VV4 590.QQ 267.-Q1 VV 3 28.00 _33.7-Q_
|
||
1 AKI 31.00 36.76
|
||
NGC 6620 (PK NO. 2 VV 3 60.00 71.15
|
||
_2 VV5 77.00 91.30
|
||
1 AKI 14.00 16.59
|
||
2 VV 3 60.00 71.11
|
||
BEG.IN NGC 662 9 (PK -NQ. -5 1) C = 0.89 (RADIO-H BETA) 2 VV5 77.00 91.25
|
||
4026 HE I AKI 2.80 2. 80 3.28 3.28
|
||
WAVE IDFNT N RG REF □ BS I AVE 0 CORR I AVE C 4068 ( S II) AKI 1.80 1.80 2.09 2.09
|
||
3676 -H I _J AKI 0.60 0.60 1.14 L.14 A-Q76._ ( S II) AKI 0.80 0.80 0.93 0.93
|
||
3683 AKI 0.70 0.70 1.32 1.32 4097 AKI 0.60 0.60 0.69 0.69
|
||
3686 AKI 0.80 0.80 l. 51 1.51 4101 l AKI 24.60 29.20 28.40 33.71
|
||
3691 _1 AKI_ Q.9Q 0.90 1.69 —L. 69 _1 W 3 30.00 29.20 34.63. 33.7JL
|
||
3697 1 AKI 0.60 0.60 1.12 1.12 VV5 33.00 29.20 38.09 33.71
|
||
3679 1 AKI 1. 10 1.10 2.08 2.08 4121 HE T AKI 0.30 0.3 0 0.34 0.34
|
||
3703 . _2 AKI 1.90.. 3.55 4143 HE I AKI 0.50 -0,50 0,57 0.57
|
||
3703 HF I AKI 1.90 3.55 4200 HF I I 1 AKI 0.50 0.50 0.57 0.57
|
||
3711 H I AKI 1.60 2.98 4267 C II l AKI 0.60 0.60 0.67 0.67
|
||
3721 AKI_ 1.70 3.14 4340 H I 1 AKI 40.00 46, ^Q 12_ 51.29
|
||
3721 ( S III) 2 AKI 1. 70 3. 14 1 VV 3 53.00 58.46
|
||
3727 (C 11 ) 1 AKI 15.00 27.65 2 VV5 49. 00 54.05
|
||
3729 (0 -Li L 1 AKI 10.30 18.96 4363 _LÜ III) _J AK T 75.no 27.46
|
||
3734 H I 1 AKI 2.40 2.40 4.41 4.41 1 VV 3 2 1.00 2 3.06
|
||
3750 H I 1 AKI 2.80 2.80 5.09 5.09 2 VV5 49.00 53.82
|
||
J.ILL _±! I_ .J AKI 3.30 -3. 3 0 5.93 5.93 ...A3 8 7 - _1 AKI 0.70 0.77
|
||
3 79 8 1 AKI 3.90 3.90 6.90 6.90 4471 HE I AKI 6.70 6.70 7.22 7.22
|
||
3870 HE I l AKI l. 10 1.10 1.92 1.92 4542 MHF II AKI 1. 10 1. 10 1.17 1.17
|
||
3 83 5 _y I— -J AKI.. 6.20 6.20 10.73 .-LQ.73 -¿571 _Q AKI ..0*40 -0.40 Q«42_ 0.42-
|
||
3868 (NF III) 1 AKI 20.60 34.92 4634 TIT 1 AKI 0.90 0.90 0.94 0.94
|
||
3889 AKI 10.50 17.57 4640 III 1 AKI 1.40 1.40 1.46 1.46
|
||
3889 AKI 10. 50 17.-57 4650 C III 2 AKI 0.90 0,94
|
||
(NE III) l AKI 6.40 10.28 10.28 4650 0 II 2 AKI 0.90 0.94
|
||
VV 3 13.00 20.88 4658 0 AKI 0. 30 0.30 0.31 0.31
|
||
AKI 8.90 14.77 -¿6B¿_ HF II _J AKI 7 1.QQ 21.QQ 21.72 21.72-
|
||
2 VV 3 13.00 20.85 19. 00 21.00 19.65 21.72
|
||
4026 HF J 1 AKI 2.60 2. 4.05 4.05 VV5 23.00 21.00 23.79 21.72
|
||
4097 _N LLL 1 AKI 0. 70 0-7 0 CL. .30 -0.30 AKT 7. 50 2.57-
|
||
AKI 16.70 13.85 24.89 20.64 4713 HE I AKI 2.50 2.57
|
||
VV 3 1 1. 00 13.85 16.39 20.64 4726 (NE IV ) AKI 0.30 0.31
|
||
NGC 6629 (PK NO. NGC 6644 (PK NO.
|
||
562
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
.31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6720 (PK NO. 63+13 1) NGC 6720 IPK NO. 63+13 II
|
||
WAVE TDENT N RG REF OBS I CORR I WAVE IDENT RG REF DBS I AVE 0 CORR I AVE C
|
||
1976ApJS
|
||
|
||
|
||
|
||
|
||
4649 C I I 2 R AW70 0.54
|
||
0.81
|
||
0.55
|
||
0.82
|
||
52QQ (NI ) 1 . IA AW7Q Q ifll..- 2« 03 Q-aZ-9 ■ 1^98.
|
||
2 IA AW7C IB AW70 0.37 2.03 0.36 l.
|
||
2 IB AW70 0.87 0.88 R AW70 4.90 2.03 4.80 1.98
|
||
_2 C—AW.7 Q_ 0.78 0.79 5411 HE II -JA.A.W70... 2-90 -2..93. 2.80 ?» 83
|
||
2 R AW70 0.54 0.55 I IB AW70 2.50 2.93 2.42 2.83
|
||
1 I A A W70 0. 29 0.3 8 0.29 0.39 1 C AW70 2.90 2.93 2.80 2.83
|
||
11 IPC ^70.. _Q.« lit-. . Ot 38 ..(Lt37 Q.39 . _J P. AM7Q . 1« 2.0- —2m. 1« 16 2.83
|
||
AW70 0.56 0.38 0.57 0.39 1 C 3.00 2.93 2.90 2.83
|
||
1 R AW70 0.33 0.3 8 0.33 0.39 3 3.00 2.93 2.90 2.83
|
||
4661 _£ LL 1 I A .AH7.0- Q. 20 0.20 Q.2Q . ^ C- 5,00- 2.93. .^J.3 2.83
|
||
4676 0 I I 1 C AW70 0.30 0.30 0.30 0.30 (CL III) 1 C AW70 0.44 0.94 0.42 0.91
|
||
4685 HF II 1 ACP 28.20 26.53 28.56 26.87 1 R AW70 1.45 0.94 1.39 0.91
|
||
R AW7Q.- 10-70 26.53 _ 1Q.B4, 26l. 87— ■ 53^7. {LL. I I-U.-L- C AH7Q -Q.28. ,Q.7Q .27 —0-^67.
|
||
I 1 C 16.00 26.53 16.20 26.87 AW70 1. 12 0.70 1.07 0.67
|
||
l 2 C 55.00 26.53 55.70 26.87 ( N II) l C AW70 0.75 8.51 0.71 8.07
|
||
_J 2_£_ ZZ'QSL 26.53 . ¿2.28 26.87 1 R AW 70 8. 80 . 8t 51 8.07
|
||
4 C 29.00 26.53 29. 37 26.87 1 1 C 13.00 8.51 12.33 8.07
|
||
5 21.00 26.53 21.27 26.87 1 3 C 12.00 8.51 11.38 8.07
|
||
14. 30 26.53 14.48 26.87 1 4C 8.00 8.51 7.59 .07
|
||
1 PTP 42.60 43. 14 1 PTP 1.29 A 1.22 A
|
||
2 IA AW70 3. 10 3. 13 5755 HE I I 5C 14.00 14.00 13.27 13.27
|
||
2 IB AW70 2.6a 2.6,3 5876 HE I _1 C AW70 .20 19.0 7 SmM .1.1^97
|
||
C AW70 3.08 3. 11 1 R AW70 19.20 18.09
|
||
AW 7 C 0. 80 0.81 1 Fl BR 5.40*A 5.09*A
|
||
_2 L_£ 3.00 3-.S3 . 1 ,F2 BR ■4,QQ*A 3. .17*A_
|
||
2 2 9.00 9. 10 1 PE BR 7.50* 7.07*
|
||
2 3 C 2.00 2.02 1 SI BR 4.60*A 4.34*A
|
||
_2 4— 3.03 -J 1_C ?4. no .22.6?
|
||
2 5 C 4.00 4.04 1 3C 22.00 19.07 20. 73 17.97
|
||
2 IA AW7C 3. 10 3. 13 1 4C 20.00 19.07 18.85 17.97
|
||
2 IB AW7Q.. . 2..6Û 2^63. . _J 5. _C_ 23. QQ —L9m.H1 21 -6ft 1 7.97
|
||
C AW7C 3.08 3. 11 PTP 9.30 8.76
|
||
R AW 70 0.80 0.81 5876 HF II l 2 C 21.00 19.79
|
||
_lj: 3.00 3.03 6 IQ Q— _LÛ I L . .F1. B .P 101.60» -93^35*_
|
||
2 ? C 9.00 9.10 F2 BR 12.70* 11.72*
|
||
2 3 C 2.00 2.02 1 F 3 BR 10. 10* 9. 32*
|
||
_2 4_ 3.0.Û 3.03 .1 -P E. _B_R . 41.10* < 37.92*
|
||
5 C 4. 00 4.04 l SI BR 5.60*A 5.17*A
|
||
IA AW70 0.20 0. 20 1 S2 BR 3.40*A 3. 14*A
|
||
C .AW7Q_ .0.20 O. 70 _l C CAM
|
||
1 IA AW70 2. 12 2.95 2. 14 2.98 L C CAM 0. 11* 0. 10*
|
||
1 IR AW70 2.26 2.95 2.28 2.98 6364 (0 I ) l FI BR 9.50* 8. 74*
|
||
_J C-AW 7.0- 65.48 ( N . II.) 1...F2 BR 531.60» 485.45*
|
||
l R AW 7 0 0.80 2.95 0. 81 2.98 1 F3 BR 621.90* 567.91*
|
||
1 1 C 3.00 2.95 3.03 2.98 3 PE BR 1051.00* 959.76*
|
||
-J 2—C 1 SI BR 475.30*. 434.04*
|
||
2.00 2.95 2.02 2.98 1 S2 BR 310.30* 283.36*
|
||
4 C 2.00 2.95 2.02 2.98 1 1 C 225.00 170.50 205.47 155.70
|
||
5 C 2.00 2.95 Z^Q2_ 2.98 _1 3_£ 13.3.00 ■LJ 0.511 121.45 .1 55.70-
|
||
ACP 100.00 100.00 100.00 100.00 4 C 134.00 170.50 122.37 155.70
|
||
1 C 100.00 100.00 100.00 100.00 5C 190.00 170.50 173.51 155.70
|
||
2 C 100.00 100« OQ 100.00 100.00 —W—
|
||
100.00 i oo. oo 100.00 100.00 l F2 508.80* 464.32*
|
||
100.00 100.00 100.00 100.00 3 PE BP 1051.00* 959.12*
|
||
inn.on inn.nn 100-00 100.00 1 SI BR 647.60* Sq0.9q*
|
||
COAL 100.00 100.00 100.00 100.00 1 c 380.00 379.17 346.78 346.02
|
||
LA 100.00 100.00 100.00 100.00 2 C 375.00 379.17 342.22 346.02
|
||
MI 73 100.00 100.00 100.00 100.00 3 C 415.00 3 79.17 378.72 346.02
|
||
OSS H 100.00 100.00 100.00 100.00 4C 391.00 379.17 356.82 346.02
|
||
PTP 100.00 100.00 100.00 100.00 5 C 394.00 379.17 359.56 346.02
|
||
4.8 91 if.e n,n ...AW7,Q_ Q.C.8 a^-09.- 0,.09 - 0. « .0.8_ CAM 1 «.QQ* 0.91*
|
||
IA AW70 0.68 1.91 0.68 1.91 1 0 CAM 1.00* 0.91*
|
||
IB AW70 0.40 1.91 0.40 1.91 1 MI 73 320.00 292.03
|
||
_1 C AW7.Q... Q.38 1.91 Q. 38 1-91 1 W -l.t-Q.P-* . Qt-91* .
|
||
AW70 1.35 1.91 1.35 1.91 6583 1 F2 BR 659.60* 601.40*
|
||
t C 3.00 1.91 2.99 1.91 1 F3 BR 659.60* 601.40*
|
||
2 C. 4« QQ 1.91 3 «.99- .9-1- 3 PE BR .1Q51,QQ* ._95fl«27*—
|
||
1 3 C 3.00 1.9 L 2.99 1.91 l SI BR 424.00* 386.59*
|
||
1 4C 2. 50 1.91 2.49 1.91 l S2 BR 424.00* 386.59*
|
||
4931 IE „mi L P-AW7Q ,Q-«2fl.. Q...2Q. Q, 2Q. .20 _1 L_£_ 493.00 -i-41 t-2E. --449.^0 311 ,t 1Q-
|
||
4959 (0 III) ACP 193.00 277.00 191.8 275.39 1 2 C 100.00 341.20 91. 18 311.10
|
||
LA 361.00 277.00 358.90 275.39 1 3 C 350.00 341.20 319.12 311.10
|
||
5Q07- LQ_ III) - -A.CE- 6Q l.t.Q.Q -980^.0.. 595.« 75. . 972.23 _J 4...C 303.00 -3.41.2i3 -276,27 .311.IQ
|
||
C 800 135.00* 133.82* l 5 C 460.00 419.42 311.10
|
||
S BOO 155.00* 153.65* l C CAM 1.20* 1.09*
|
||
COAL 1096.00 980.80 -LQ8.6_.43 972.23 _1 0 ..CAM . 1.90» 1.73*
|
||
LA 1040.00 980.80 1030.92 l. 80* 1.64*
|
||
0065 74.00* 73.35* 6584 H I PTP 295.00 A 268.96 A
|
||
—QSSbL. 1.0.47^00 1Q37-. 85 6584 _LN II.. ) PTP 97t QQ A._ - 79t 32 A
|
||
1 PTP 1120.00 1110.22 l FI BR 77.60* 70.38*
|
||
l SM 100.00* 99. 13* 1 F2 BRR 17.90*A 16.23*A
|
||
JLl IB
|
||
LA-AH-LQ- Q.48 0- 48 -I—F_3—5 17.9Q*A 16 «..23*A
|
||
AW70 0.30 0.63 0. 30 0.82 2 PE BR 48.10* 43.63*
|
||
1 C AW70 0. 32 0.83 0.32 0.82 l SI BR 22.40* 20.32*
|
||
_1 P—A H7.Q-,, 2.«2-3, Q.83 ..ZmZI.. 0.82 1 S2 8R 11.90*A 10.79*A
|
||
5041 SI II 1 R AW7C 0. 10 0. 10 0.10 6723 (S II ) 1 1 C 55.00 57.00 49. 87 51.69
|
||
5047 HE I 1 IA AW70 0.22 0.22 0.32 1 3 C 59.00 57.00 53.50 51.69
|
||
1 C AW70 0.37 0.37 0.32 1 PTP 13.20 11.97
|
||
1 R AW70 0. 37 0.32 0.37 0.32 ( S II) FI BR 101.10* 91.65*
|
||
5056 SI I I 1 R AW70 0.20 0.20 0. 20 0.20 l F 2 BR 101.10*A 91.65*A
|
||
_JLÜL1— (AR III) 1 IA AW70 , Q.-23- 0.19 .0, 2.3_ 0.19 l-F3 BR 2 0.70*A 18.76»A
|
||
C AW70 0. 11 0.19 0. 11 0.19 2 PE BR 48.10* 43.60*
|
||
1 R AW70 0.23 0.19 0.23 0.19 1 SI BR 16.10*A 14.59*A
|
||
5.198 (NI ) 1 IA AW70 Q. 86 4«_7 9.. 0.84-- .4.68 1 S2 BR 7 ■7Q*A 6«-98*A.„
|
||
IP AW70 0. 31 4. 79 0.30 4.68 7065 HF I PTP 2.95 A 2.64
|
||
1 C AW70 0.50 4.79 0. 49 4.68 7325 (0 II ) PTP 4.26 3.78
|
||
1 R AW70 4.40 4. 31
|
||
l 1 C 9.00 4.79 8.81 4.68 REGION KEY (REG ION,REFERENCE,EX PLANATION)
|
||
1 2 C 7.00 4.79 6.85 4.68 1, AW , 30 ARCSEC FROM CENTER IN (O II) RING
|
||
.J 3_C _ 9. QQ 4.79 8.81 4.68 2i.. AH , 15 ARCSEC FROM CENTER TO (O II) RING
|
||
4.00 4.79 3.92 4.68 AW , 25 ARCSEC FROM CENTER TO (O II) RING OPPOSITE RG 2
|
||
8.00 4.79 7.83 4.68 AW , 30 APCSEC FROM CENTER IN (O II) RING
|
||
NGC 6720 (PK NO. NGC 6720 (PK NO. 63+13 1)
|
||
564
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6720 (PK NO. 1) . NGC 6.741 (PK NO. 3.3 -2 IL
|
||
C, AW70, CENTER 3 TO 5 ARCSEC FROH STAR WAVE IDENT N RG REF OBS I CORR I
|
||
IA, AWTOt 12 ARCSEC FROM STAR ON MAJOR AXIS 3868 (NE I II> 1 AW 42.00 A 54. 85
|
||
AW70, 12 ARCSEC FROM STAR ON MAJOR AXIS LA 90.00 117.53
|
||
AW70t OUTER RING 25 ARCSEC FROM STAR PER 58. 00 75.74
|
||
BDO . CENTRAL PORTION _84«J.0XA_ 109.83XA
|
||
S» BOO f SOUTHERN PORTION A 12.00 15.57
|
||
Fl, BR , SOUTHEAST FILAMENT IN RING AKRC 15.80 20.50
|
||
F2. BR , NORTHWEST FILAMENT IN RING 13.00 16.87
|
||
F3, BR SOUTHWEST FILAMENT IN RING 90.00 116.77
|
||
PE, BR PHOTOELECTRIC (ALLER,BOESHAARCCZYZAK,1972,UNPUB.) 84.10 XA 109.11XA
|
||
SI, BP INTEPFILAMENT NORTH IN RING 3889 HE- I _12«_QQ 15.57
|
||
S2, BR , INTERFILAMENT SOUTH IN RING AKRC 15.80 20.50
|
||
1, C , EAST SIDE OF RING AW 13.00 16.87
|
||
2., C t...CENTER VV 1 84.1QXA 109.11XA
|
||
WEST SIDE OF RING 3889 HE I I 3 AKRC 15.80 20.50
|
||
NORTH SIDE OF RING 3923 HE I I l AKRC 0.30 0.39
|
||
SOUTH SIDE OF RING 3967 _y i 2_ _0 32.00 4Q.66
|
||
CAM , CENTER (NE III) 2 32.00 40.66
|
||
CAM , OUTER REGION, IN RING 1 AKRC 27.00 25.50 34. 31 32.40
|
||
. NORTH PART OF FAINT ENVELOPE -AH 24.00 -¿5.5Q 3Q.49 32.4Q
|
||
FS, MQ , SOUTHEAST PART OF FAINT ENVELOPE LA 24. 80 31.51
|
||
11, MQ , IQ ARCSEC S, 8 ARCSEC E OF STAR,INSIDE RING VV 1 42.70X 54.26X
|
||
12. MO . 10 ARCSFC S. 12 ARCSFC WEST OF STAR. INSIDE RING 3970 AKRC 13.00 16.51
|
||
13, MO 10 ARCSEC N OF CENTRAL STAR, INSIDE RING AW 10.00 12.70 14.60
|
||
Rl, MO NORTH END OF RING LA 24.80 31.49
|
||
R2, HO. SOUTH END OF RING VV 1 42.7QX 54.27X
|
||
R3, MO , WEST END OF RING 4023 HF I I 2.20 2.75
|
||
R4, MO , EAST END OF RING 4026 HE I 6.20 7. 75
|
||
R5, MO . WEST END OF RING. 16 ARCSEC S 2..70 7.25
|
||
R6, MO , EAST END OF RING, 10 ARCSEC N AW 2.00 4.10 2.50 5.13
|
||
( S 11)1 AKRC 6. 70 6.85 8.28 8.46
|
||
£M3 NGC 672Q ( PK NO. 63tL3 1) L_ -AH 7.00 6.B5 8.65 B.46
|
||
4072 11)1 A 6.00 6.00 7.40 7.40
|
||
4076 11)1 AKRC 2.30 2.25 2. 33 2.77
|
||
] _AW 7.-70 -7.71
|
||
BEGIN NGC 6741 (PK NO. 33-2 l) 0.45 (HYDROGEN LINES) 4097 2.40 2.85 2.94 3.49
|
||
3.30 2.P5 4.04 3.49
|
||
4101 —30.110 24.60 36.71 30. 1 O
|
||
3132 0 III 1 AKRC 25.00 25.00 40.52 40.52 22.00 24.60 26.92 30.10
|
||
3187 HF I l AKRC 2.90 2.90 4.63 4.63 21.50 24.60 76.31 30.10
|
||
3203 H£~ II 30.50 24.60 ■ 37.32 30.10
|
||
1 AKRC 12. 50 12.75 19.86 20.26 PER 19. 00 23.25
|
||
3299 III 1 AKRC 2.80 2.80 4.31 4.31 VV 1 35.40X 43.31X
|
||
331 7 III _1 AKRC. 5.ZÛ 5.70 8.73 -B.Z3-. —A K-ELC- —0.-30 0.37
|
||
3340 0 III 8. 50 8.50 12.90 12.90 4143 HE I AKRC 0.70 0.70 0.85 0.85
|
||
3345 (NE V ) 19.00 28. BO 4199 HE I I A 3.60 2.65 4.28 3.15
|
||
19.00 19.00 . 78.80 -78.80 AKRC 0. 76 -0. 8-9.-
|
||
3346 C III 2 A 19.00 28.79 3. 60 2.65 4.28 3.15
|
||
3425 (NE V ) 2 A 41.00 60.67 4227 (FF V ) l AKRC 0.65 0.65 0.77 0.77
|
||
J AKRC -50.00. 73.99 4767 _£ U 1_ AKRC 0.67 - 0.6J-. 0- 78 0-78
|
||
3425 III 41.00 60.67 A 37.00 38.33 42.47 44.00
|
||
3428 I IT 2.00 2.00 2.96 2.96 AKRC 40.00 38.33 45.91 44.00
|
||
B444 III- 17.00 1 7.25 75.02 75.39 -57.aox 66.34X
|
||
l AKRC 17. 50 17.25 25.76 25.39 52.60 60. 37
|
||
3676 1 AKRC 0. 30 0.30 0.41 0.41 38. 00 43.61
|
||
3679 _1 AKBjC- 0. 40 0.4Q Q. 55 ÍL.S5-. -51 .?I)X 58. 77 X
|
||
3682 AKRC 0. 50 0.50 0.69 0.69 (0 111)1 13.00 14.00 14.83 15.97
|
||
3686 AKRC 0.60 0.60 0.83 0.83 1 15. CO 14.00 17.11 15.97
|
||
3691 AKRC 0.75 0.54 1.03 0.74 37.10X 42.33X
|
||
AW 0.33 0.54 0.45 0.74 LA 52.60 60. 01
|
||
AKRC 1.00 0.72 1.37 0.99 VV 1 35.40X 40.39X
|
||
-AH 0.44 0.72 ■ ■0.99 -AKS.C 1.LQ 1.25 L . 25.
|
||
5.00 5.00 5.56 5.56
|
||
AKRC 1.24 1.70 AKRC 5.00 5.00 5.56 5. 56
|
||
0.68 0.93 VV 1 -3b.6£X 40.67 X
|
||
3703 AKRC 1.24 1.70 4541 HE II 1 AKRC 1.60 1.60 1. 75 1.75
|
||
3711 AKRC 1. 30 1.23 1.78 1.68 4571 MG I 1 AKRC 1.80 1.80 1.95 1.95
|
||
-AH 1.16 1.23 -1.53- -1.68 4634 _N LU 2_ 6. 2Q 6.59
|
||
3721 3. 50 4.78 AKRC 2.00 2.00 2. 13 2.13
|
||
3.64 4.97 4634 AW70 2.00 2.00 2. 13 2.13
|
||
-.312-1. __L_S_ UI L-2 AKRC 3.5Q 4.78 4640 6.20 6.58
|
||
3.64 4.97 AKRC 4.00 4.00 4.25 4.25
|
||
(0 I I 1 l 82.00 111.75 AW70 4. 00 4.00 4.25 4.25
|
||
$B.OQ. 79.Q4 4645 _LU— VV 1 _48. aox 51.73X
|
||
44.00 59.96 4645 N III VV 1 48.SOX 51.73X
|
||
LA 103.00 140.37 4647 0 I II AKRC 0.0 0.0 0.0 0.0
|
||
LU 1.70* —2.32* 4649 Q I I L_ AKRC Q. 50 . 0.5-0- 0.53 —0.53—
|
||
98.00 133.55 3 AW7C 0. 52 0. 55
|
||
63.40X 86.40X 4650 C HI 3 A W7 0 0. 52 0.55
|
||
3728 _LQ II ) 1 AKRC. 36.00 -43.02 4651 C III 3 AW7C 0.52 Q, 55
|
||
27.00 36. 77 4657 (FF I II 1 3 AW7C 1.04 1.10
|
||
LU 1.00* 1.36* 4658 CIV 1 AKRC 1.30 1.37
|
||
AKRC 1.80 1.71 2.45 2.33 —3_ - Awm. 1.04 i. 1-0
|
||
1.63 1.71 2.22 2.33 4661 011 3 AW70 1.04 l. LO
|
||
3740 AKRC 1.80 1.80 2.44 2.44 4685 HE I I 1 A 34.00 45.30 35.65 47.50
|
||
3740 AKRC 0.26 0.26 0.35 —0..35 L_ 47.ÛQ -45.3 0 49.28 47.50
|
||
375C 2.50 2.21 3.38 2.99 AN 57.00X 59.77X
|
||
1.92 2.21 2.60 2.99 LA 53.20 45.30 55. 78 47.50
|
||
3754 -A„KR£_. _Q.. 9-0— 1.96 1.22- 2.65 PER 47.00 45.30 49.28 47.50
|
||
AW 3.02 1.96 4.08 2.65 59.80X 62.70X
|
||
3759 0 III AKRC 3.40 3.40 4.59 4.59 (AR IV ) 2 8. 10 8.43
|
||
3770 H I 4Kft£._ 3.7H- 3.62 4.98 2_ .. AAWK R_C 7.00 7.29
|
||
AW 3.55 3.62 4.78 4.88 70 7. 10 7.39
|
||
3781 HE II AKRC 0.33 0.33 0.44 0.44 A 8.10 8.43
|
||
3791 0 III AKRC 0.40 0.40 0.53 0.53 AKRC 7.00 -7,22—
|
||
3797 H I AKRC 4.70 4.47 6.27 5.97 AW70 7.10 7. 39
|
||
AW 4.25 4.47 5.67 5.97 (NF TV 1 1 AKRC 1. 10 1.14
|
||
3819 HE I AKRC —1*35 1.42 . 1.79- 1.89 1 AW70 1.20 1.24
|
||
1.50 1.42 1.99 1.89 (AR IV ) 1 13.20 11.73 13.63 12.12
|
||
7.40 6.47 9.76 B . 53 AKRC 11.00 11.73 11.36 12.12
|
||
6.80 6.47 8.97 AW7Q 11.00 -U-.73 11.36 -L2.12-
|
||
l AW 5.20 6.47 6. 86 8.53 100.00 100.00 100.00 100.00
|
||
[) l A 86.00 78.00 112.31 101.86 100.00 100.00 100.00 100.00
|
||
1— AKRC 90.00 78.00 LIZ. 53_ 101.86
|
||
NGC 6741 (PK NO. 33 -2 l)
|
||
NGC 6741 (PK NO. 33-2 1)
|
||
565
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC. 6741 (PK NO. 33-2 1) NGC 6741 (PK NO. 33-2 1)
|
||
WAVE N RG RFF OBS I CORR I REGION KEY (R EG ION,REFERENCE,EX PLANATION}
|
||
4861 _A_ 1JO.OOX 100.oox A, AE2 , REGIONS A AND B ON DIFFERENT SCALES
|
||
l COAL 100.00 100.00 100.00 100.00
|
||
1 LA 100.00 ICO.00 100.00 100.00 NGC 6741 (PK NO. 33 -2 II
|
||
_J PEE.. —1QQ« QQ 1 00.00 100.00 1oo.no
|
||
VV 1 100. oox 100.OOX
|
||
WYSE 100. 00 A 100.00 A
|
||
4M1 (FE T II ) 1 A W 70 ü. iÛ 0.30 0.30 BEGIN NGC 6751 ( PK NQ. 29 ~5 1) 0.54 (RADIO-H BETA!
|
||
4922 1 AW70 l. 00 1.00 0. 99 0.99
|
||
4931 (0 III ) l AW70 0. 20 0.20 0.20 0.20 WAVE IDENT N RG REF OBS I CORR I
|
||
4958 _jUn_ IIP J â_ 580. ÜO 544.62 567.44 532.83 372 7 _LQ II ) J 17Q.0Q 246.38
|
||
1 AKPC 490, 00 544.62 479.39 ACP 136.00 197.10
|
||
1 AN 358. OOX 350.25X AC PG 11.22* 16.26*
|
||
1 COAL 676. 10 544.62 661,46 532.83 75.00 108.70
|
||
1 LA 409. 00 544.62 400.14 532.83 1 VV 1 102.70 148.84
|
||
1 PF R 568. 00 544.62 555.70 532.83 3835 1 ACPG 9. 50* 13.25*
|
||
1 W 1 _329 i IPX 371.97 X 3868 (NE IIP. _A_ 75.00 80,40 -103.32 110.75
|
||
l WYSE 540. 528.31 A ACP 85.20 117.37
|
||
4972 1 A W70 0. 0. 0. 18 ACPG 193.70* 266.83*
|
||
4987 1 A W 70 _o. 0.20 0. 19 _Î3_ 81.00 80.40 -111.58 110.75
|
||
(0 III I 1 1410. 00 1618.80 1364.47 1566.53 3 VV 1 52.00 71.63
|
||
1 AKRC 1500. 00 1618.80 1451.57 1566.53 2 ACPG 63.50* 86.79*
|
||
L. -AN 252-. QQX 727. 72 X -A VV 1 52.-QQ 71.07
|
||
l CDAL 2042. 00 1618.80 1976.07 1566.53 3889 HE I ACPG 63.50* 86.79*
|
||
1 LA 1330. 00 1618.80 1287.06 1566.53 VV 1 52.00 71.07
|
||
_J PER ûû 1618.80 1753.49 1566.53 3967 (NF Till 38.00 50.66
|
||
VV 1 926. 40 X 896.49X ACP 44.80 59.72
|
||
1 W Y S F 1620. 00 A 1567.69 A ACPG 105.00* 139.98*
|
||
1 A W7 n 1. 16 VV 1 32.90 43.86
|
||
5041 1 A W7 0 0.35 0.34 0.34 2 ACP 44.80 59.67
|
||
5047 HF I 1 A W7 0 0.10 0. 10 0.10 2 ACPG 105.00* 139.85*
|
||
5056 S! I T 1 A W 70 0.11- _2 y 4Q. 00 53.28
|
||
5119 1 A W 70 0.05 0.05 0.05 32.90 43.82
|
||
5131 1 A W 70 0.14 0. 13 0.13 3970 (NE III) 40.00 53.28
|
||
5145 _J A W 70 0.47 0. 39 0.39 4076 _LS I I ) ACPG 29.14* 37.45*
|
||
5159 (FE VII ) 1 A W70 0.55 0.51 0.51 4097 III 47.10 60.09
|
||
5176 (FE VI ) 1 A W 70 0.30 0.28 0.28 4101 I 32.00 40.77
|
||
5191 -(AR I m 1 A U.70— —CU-50 0.46 . ■ 0.46 ACP.. 47.10 60. QQ
|
||
L AW70 1.38 47.00* 59.88*
|
||
1 WYSE 8.31 A 15.00 19. 11
|
||
A W7 0 0.71 34.20 43-57
|
||
527C ( FE I II I AW70 0.35 0. 32 0.32 1 A 54.00 63.71
|
||
5277 (FE VII ) AW70 0.12 0. 11 0.11 2 ACP 58.40 68.90
|
||
5282 A W 70 0.03 A _J ACPG 67.40* 73.67*
|
||
5295 1 A W 70 0.08 0.07 0.07 1 M 35. 00 41.29
|
||
5309 (CA 1 AW70 0. 19 0. 17 0.17 2 VV l 46.60 54.98
|
||
5373 ( Cl I ¿WJQ_ 0.05 . 0.05 -2 AX-B 58.40 68.41 -
|
||
5335 (FE VI ) 1 AW70 0.35 0.31 46.60 54. 59
|
||
5402 WYSE 8.82 A 4471 HE I 21.90 21.90 24. 85 24.85
|
||
541 1 A W.7 0— 3.61 4686 . HF f T 32.00 32.00 33.87 33.87
|
||
1 VV 1 55.80 VV 1 191.80X 203.OOX
|
||
1 WYSE 13.20 A A 100.00 100.00 100.00 100.00
|
||
—2 A-UL2.0— —Q.25 AC-P 100.00 1 00U1Q... -ino.no— inn.no
|
||
5426 (FE VI 2 AW7C 28 0.25 100.00 100.00 100.00 100.00
|
||
5432 (CR I II) 1 A W 70 10 A 0.09 A 100.00 ICO.00 100.00 100.00
|
||
5441 I A WXQ— 0.-06 100.00 100.00 ino.no iqo.on
|
||
5485 (FE VI 1 AW70 0.25 0.22 0.22 (0 T I I 1 2 1600.00 1558.47
|
||
5517 (CL IIP A AE2 0. 50* 1 ACP 287.00 354.13 279.55 344.94
|
||
AW70 1.06 0.91 0.91 1 CDAL 275.40 354.13 268.25 344.94
|
||
WYSE .00 A 8.60 A 1 500.00 354.13 487.02 344.94
|
||
A AE? .00* 0. 86* 2 VV 1 931.50 907.32
|
||
AW70 .60 --L..6Q 1.37 1.37 (0 111)2 ô_ 16QQ.QQ 1538.07
|
||
l WYSE 8.56 A ACP 915.00 1049.77 879.58 1009.13
|
||
5577 l WYSE 8.48 A COAL 794.30 1049.77 763.55 1009.13
|
||
5592 _J AW7Q 0.25 1440.00 1049.77 1364.26 1009.13
|
||
5630 (FE VI ) 1 A W 70 29 0. 24 931.50 895.44
|
||
5677 (FF VI ) 1 A W70 40 A 0.33 A 5876 HF I 134.30 102.84 102.84
|
||
- -572J (FE VII ) i AW70 60 A 0.49 A 6563 _H L_ VV 1 671.3Q 444.77
|
||
5754 1 AW70 24. 80 7.70 20.32 6563 TI I 671.30 444.77
|
||
1 VV l 40. 20 24.80 32.94 20.32 6717 I I I 1 l AE2 0.61* 0. 39*
|
||
_J WYSE 30, QQ A. 24.58 A i 2 AE2 Q,81*A Q.5? *A
|
||
5801 C IV A W70 45 0. 37 1 AE2 1.00* 0.64*
|
||
5806 HE II l AW70 14 A 0.11 A 2 AE2 1.00* 0.64*
|
||
5812 _C LV_ 1 AW7Q 27 A 0.22 A
|
||
5829 1 WYSE 6.46 A REGION KEY (REGIGN,REFERENCE,EXPLANATION)
|
||
5875 AW 70 17.30 16. 01 13.85 1, AE2 , PA = 2 70 DEG., 7 ARCSEC FROM STAR
|
||
W 1 17.30 11.69 13.85 2t A£2 . PA = Q D£.G-,.» Q ARCSEC FRGM STAR
|
||
WYSE 70. 56.04 A
|
||
5970 WYSE 5. 3.93 A NGC 6751 (PK NO. 29 -5 1)
|
||
—à. 0-7-8 WYSE 4*. 3.09 A
|
||
6130 1 WYSE 2.29 A
|
||
6170 1 WYSE 00 A 1.52 A
|
||
6 19 A _1 WYSE QQ A 1.51 A BEGIN NGC 6772 (PK NO. 33 -61) C = 1,06 (RADIO-H BETA)
|
||
(0 T ) 1 CAM 01* 0. 01 *A 4
|
||
l VV i 90 28.03 WAVE I DE NT N RG REF OBS I CORR I
|
||
1 WYSE 00- A_ 36.98 A 3727 —LD II i 1 M JAQ^QQ 290.05
|
||
6311 ( S III) WYSE 14.77 A 3869 (NE III) l M 60.00 112.43
|
||
6346 ST I I l WYSE 1.47 A 3970 HI 2 M 29.00 50.90
|
||
6363 (C I WYSE 30.00 A 21.97 A 3970 ( NE I II ) 2 M 29.00 50. 9Q
|
||
643 5 ( AP WYSE 3.62 A 4101 18.00 18.00 28.95 28.95
|
||
6548 (N WYSE 260 184.96 A 4340 H I 34.00 34.00 47.04 47.04
|
||
6563 .CAN L Q.71 * 4686 HE I I 3 1j-QQ 31.QQ 34.65 34.65
|
||
VV 1 768. 544.97 I 1 100.00 1 00.00 100.00 100.00
|
||
l WYSE 470. 333.51 A 1 0D63 100.CO ICO.00 100.00 100.00
|
||
6563 _2 VV JL. _768. 544.97 -495-9_ (P P I ) 1 48Q.QQ 4-8Q.QQ-- 455.85 455.85
|
||
(N II) 1 CAV ,72* 0.51* (0 PI ) 1 M 1360.00 1125.65 1258.59 1041.71
|
||
l WYSE 580 00 A 410.21 A 0D63 891.30 1125.65 824.84 1041.71
|
||
6678 1 WYSE û. _û A Û^Q A_
|
||
6717 I I 1 1 B AE2 .52* 0.36* NGC 6772 (PK NO. 33 -6 1)
|
||
6 7? C I I 1 1 R AE2 .00* 0.69*
|
||
9068 l-LL-L I PER ajQO 300.00 160.79
|
||
9532 PI ) PER 940. 940. 00 486.87 486.87
|
||
10830 I PER 1090. 1090.00 523.04 523.04
|
||
NGC 6741 (PK NO. 33 -2 11
|
||
566
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
-BEGIN NGC 6778 IPK NQ. 34 -6 LL_ 0.56 IRAniO-H BETA) NGf- 6778 (PK ND. 34-6 II
|
||
WAVE ÏDENT N RG REF CORR I AVE C WAVE IDENT N PG REF OBS I COPR I
|
||
13.68 13.68 3910- _H I 2 PE CA73 79.75
|
||
.3132
|
||
3187
|
||
_Q LLL_ I PG CA73
|
||
HE I l PG CA73 5.50 5.50 9.84 9. 2 PG CA73 . 22.20
|
||
22.IQ
|
||
29.88
|
||
3203 HE II 1 PG CA73 5.30 5.30 9.43 9.43 19.00 25.58
|
||
0.50 0.50 0.85 - 0.85 . VV 46.44
|
||
3299 __Q LLL I PGl CA73
|
||
3312 0 III 1 PG CA73 2.30 2.30 3.91 3.91 3970 (NE III) 2 M J- .34.50
|
||
19.00 25.58
|
||
3340 0 III l PG CA73 3.00 3.00 5.04 5.04 4009 HE I l CB CA73 0.50 0. 50 0.66 0.66
|
||
3428 _Q LLL 1 PG CA73 g.Bo >30 l PG CA73 0.50 0.50 .66
|
||
1 CB CA73 3.20 5.2 0 5. 18 8.41 4026 HE I l CB CA73 4.20 4.25 5.55 5.61
|
||
1 PG CA73 7.20 5.20 11.65 8.41 1 PG CA73 4. 30 4.2 5 5.68 5.61
|
||
3554 HE I 1 OB CA73 1.5Q Q. 95. 2.33 . 4Q35 _Q LL 1 CB CA73 - Q.9Q . 0-65 1- 18
|
||
1 PG CA73 0.40 0.95 0.62 1.48 1 PG CA73 0.40 0.53
|
||
1 CB CA73 1.00 0.60 1.54 0.92 2 CB CA73 1.00 1.31
|
||
1 PG CA73 0.20 0.60 Q. 31 _ .92 2 PG CA73 L31
|
||
3682 l PG CA73 0.40 0.40 0.60 0.60 4041 0 I I 2 CB CA73 1.00
|
||
3686 1 CB CA73 0.50 0.60 0.74 0.89 2 PG CA73 1.00 1.31
|
||
1 PG CA73 0. 70 0-60 LQ.L- 0.89 4068 _LS II ) 2 CB CA73 3.80 _4>_94
|
||
3691 H I l CB CA73 0.80 0.90 1. 19 1.34 2 PG CA73 4.20 5.46
|
||
1 PG CA73 1.00 0.90 1.49 1.34 2 CB CA73 3.80 4.94
|
||
3697 _H L_ 1 CB CA73 L.2Q . 1.LQ-. L.IB-. ■ 1.63 -¿--EG. CA73- . 4.2Q 5.46
|
||
1 PG CA73 1.00 1.49 4072 0 I I 1 CB CA73 1.90 2.20 2.47 2.86
|
||
2 CB CA73 2.00 2.96 1 PG CA73 2.50 2.20 3.25 2.86
|
||
2 PG CA73 2-.-5P 3.79 . 4075 ( S II) 2 CB CA73 -3.. 24
|
||
HE I 2 CB CA73 2.00 2.96 2 PG CA73 4.20 5.45
|
||
2 PG CA73 2.50 3.70 2 CB CA73 2.50 3.24
|
||
-3711 _H L_ 1 CB CA73 2.10 2.15 3.IQ --2 PG CA7-3. 4.20 5.45
|
||
1 PG CA73 2.20 3.25 4083 0 I I 2 CB CA73 0.90 1.16
|
||
3721 2 CB CA73 2.30 3.39 2 PG CA7 3 1.00 1.29
|
||
? P G- LA 73. - 7.70 .3.24 - 4085 _Q LL 2 CB CA 7 3 Q.9Q 1. 16
|
||
3721 (S III ) 2 CB CA73 2.30 3.39 2 PG CA73 1.00 1.29
|
||
2 PG CA73 2.20 3.24 2 CB CA73 1.10 1.42
|
||
3777 _LQ II ) 1 A sa-nn 85.7? - _2 PG CA7-3— 1.10.
|
||
1 0A 45.00* 66.12* 4089 0 I I 2 CB CA73 1.10 1.42
|
||
l l A 45.00* 66.12* 2 PG CA73 1.10 1.42
|
||
-J 2—A— 47.00* 61.71*— 4Q9J-. _N LLL 2 PE f.A73 77- 50 -35.40
|
||
1 3 A 41.00* 60.24* 1 PG CA73 3.50 3.50 4.51 4.51
|
||
1 4 A 43.00* 63.18* 1 A 28.00 23.60 35.99 30.34
|
||
_1 5 A 48.00* 70.53*— 1 CB CA73 .24.50 -2-3.-60 30.34
|
||
l 6A 54.00* 79.35* 2 PE CA73 27.50 35.35
|
||
1 7 4 63.00* 92.57* 1 PG CA73 25. 80 23.60 33. 16 30.34
|
||
-4 8—A— 82.00*. 120.49*- -J y -^23.60 30.34
|
||
l 9A 100.00* 146.94* 1 VV 1 28.70 36.89
|
||
1 10 A 120.00* 176.32* 2 CB CA73 0.80 1.02
|
||
1 11 A 13CLOO*- 191.02*— —2—E-G—CA7-3—
|
||
1 12 A 225.00* 330.60* 2 CB CA73 0. 80 1.02
|
||
1 13 A 0.49* 0.72* 2 PG CA73 1.10 1.40
|
||
1 CR f.A73 4L 60 —64.06 —1—CB—CAX3—
|
||
l PE CA73 59.40 87.28 1 PG CA73 0.50 0.50 0.64 0.64
|
||
1 PG CA73 46.70 68.62 l CB CA73 0. 80 0. 70 1.01 0.89
|
||
36LKL 57.90 - I PG C.473 -Û.7Q 0.89
|
||
1 VV 1 34. 50 50.69 2 CB CA73 0. 70 0. 88
|
||
l CB CA73 2. 10 2.15 3.08 3.15 2 PG CA73 0.80 1.01
|
||
1 PG CA73 2.20 7. 15 3.77 - 3.15 ? f.B r.A7 3 0.70 -O.fifi
|
||
3750 1 CB C473 3.50 3.55 5. 10 5.17 ? PG CA73 0.80 1.01
|
||
1 PG CA73 3.60 3.55 5.25 5.17 4169 0 I I i PG CA73 0.40 0.
|
||
8754 2 f.B CA73 fl- 4f> 0. 5B - 41 71 LL 1 f.B r.A73 0-30 0.40
|
||
0-50 n. 50
|
||
38 0.50
|
||
0.63
|
||
2 PG CA73 0.50 0.73 1 PG CA73 0.70 0.50 0. 88 0.63
|
||
2 CB CA73 0.40 0.58 1 CB CA73 0.40 0.55 0. 50 0.69
|
||
2 PG CA73 0. 50 0.73 i PG CA73 0. 70 0.55 0. 88 0.69
|
||
3757 C III l PG CA73 0.70 0.70 1.02 1.02 4186 C III 1 PG CA73 0.35 0.35 0.44 0.44
|
||
3759 0 III I CB CA73 0.90 1.25 1.31 1.81 4199 HP I I 1 CB CA73' 0. 30 0.40 0. 37 Û.50
|
||
1 PG CA73 1.6Q 1.25 2.32 1.81 1 PG CA73 0.50 -Q. XL 0.62 Q.5Q
|
||
H T 1 CB CA73 3.90 3.85 5.64 5.57 l C8 CA73 0.50 0. 5 G 0.61 0.61
|
||
1 PG CA73 3.80 3.85 5. 50 5.57 l PG CA73 0.50 0.50 0.61 0.61
|
||
3797 _H L 1 CB CA73 5.2Q 5.Q.Q- 7» 45 - —424J— LL 1 CB CA73 Q.70 Q. 85 Q.B6 1.04
|
||
PG CA73 4.80 5.00 6.87 7.16 1 PG CA73 1.00 0.85 1.23 1.04
|
||
l CB CA73 2. 30 1.95 3.27 2.77 1 CB CA73 3. 30 2.90 4.01 3.52
|
||
1 PG-LA73 1-60 .95- 2.27 . .77 1 PG CA73 2 ■ 5Q 2.90 3.04
|
||
1 CB CA73 8. 10 7.20 11.43 10. 16 2 CB CA 73 1.80 2. 18
|
||
1 PG CA 73 6.30 7.20 8.89 10.16 ? PG CA73 1.20 1.45
|
||
3855 SL II 1 f.B CA73 0.20 A Q. 2fi —4276_ _C LL 2 CB CA73 1.8Q 2. 18
|
||
1 PG C473 0.20 0.28 2 PG CA73 1.20 1.45
|
||
1 CB CA73 0.20 A 0.28 A 2 CB CA73 0. 30 0. 36
|
||
1 PG CA73 Q. 20 Q.2Q 0.26 -0.28 2 PG CA73 0.48
|
||
(NE III) l 46.00 46.58 64.12 64.93 4285 2 CB CA73 0.30 0. 36
|
||
l CB CA73 54.00 46.58 75.27 64.93 2 PG CA73 0.40 0.48
|
||
3 PE CA73 55.3Q 77.09 —42-91— _C LL 2 PG CA73 0.70 Q.84
|
||
1 PG CA73 43. 50 46.58 60.64 64.93 4291 2 PG CA73 0.70 0.84
|
||
l M 40.00 46.58 55.76 64.93 4294 1 C8 CA73 0.50 0.50 0.60 0.60
|
||
_1 VV 1 49. 40 46.58 68.86 . 64.93 -1 PG CA73 Q.5Q 0.50 —0.^60 0.6Q
|
||
22.00 30.42 CB CA73 0.80 0.90 0.96
|
||
2 CB CA73 24.50 33.88 PG CA73 1.00 0.90 1.20 1.08
|
||
3 PE-CAI3 55.30 76.47 4317 1 CB CA 73 0. 50 _Q.5C 0.60 Q.6Q
|
||
2 PG CA73 71.90 30.28 2 PG CA73 0. 70 0.34
|
||
2 VV 41.40 57.25 1 CB CA73 0.80 0.96
|
||
HE I 2 CB CA73 74.50 33.88 . 2 PG CA73 0.70 0.84
|
||
3 PE CA73 55.30 76.47 43.00 37. 77 51.04
|
||
? PG CA73 21.90 30.28 1 CB CA73 40.00 37.77 47.48
|
||
2 VV 1 41.4Q 57.25 3 PE CA73 47.50
|
||
1 CB CA73 0.40 0.35 0.55 0.48 39. 10 37.77 46.41 44.84
|
||
1 PG CA73 0. 30 0.35 0.41 0.48 79.00 37.77 34.43 44.84
|
||
3920 2 CB CA73 n. 30 0.41 —36.80 43.68
|
||
2 PG CA73 0.40 0.55 l CB CA73 0.70 0.83
|
||
2 CB CA73 0.30 0.41 3 PE CA73 42.50 50.30
|
||
2 PG CA73 Q.4Q .0.55 1 PG CA73 -Q.4Q
|
||
3926 HE I 1 CB CA73 0.30 0.30 0.41 0.41 (0 I II ) 1 13.00 6.43 15.32 7.58
|
||
1 PG CA73 0.30 0.30 0.41 0.41 1 CB CA73 2. 70 6.43 3.18 7.58
|
||
3967 (NF III) J A— 77.QQ 77.00 79.64 79.64 3 PE CA73 47. 50 50.08
|
||
2 CB CA73 25.00 33.68 1 PG CA73 3.60 4.24
|
||
2 PE CA73 22.10 29.77 2 46.60 54.91
|
||
PG CA73 77.70 ¿9.91 1 CB CA73 L. IQ
|
||
2 VV 1 34.50 46.48 l PG CA73 1.30 1.20 l. 52 1.41
|
||
2 CB CA73 25.00 33.65 1 CR C A 73 0.95 0.87 1. 11 1.02
|
||
NGC 6778 (PK NO. NGC 6778 (PK NO. 34-6 1)
|
||
567
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
NGf 6778 (PK NO. NGC 6778 ( PK NO. 34 -6 11
|
||
WAVE IDENT N PG PEF OBS I AVE CÜRR I AVE C WAVE IDENT N RG REF OBS CORR I
|
||
19.7 6Ap JS
|
||
|
||
|
||
|
||
|
||
4387 _H£_J I PG CA 73 0.« 8Q. Q« 87 Q.94_ L »02 6563 (N II J 2 i 793, IQ 517,52
|
||
l CB CA73 0.30 0.25 0. 35 0.29 II ) 1 IB AE2 0.86* 0.55*
|
||
1 PG CA73 0.20 0.25 0.23 0.29 1 2 AE2 0.82* 0. 52*
|
||
2 C6..CA73-- 0.50 Q « 58 (S lili IB AE2 1.00* 0.63*
|
||
2 PG CA73 0.60 0.70
|
||
2 CB CA73 0.50 0. 58
|
||
2 PG CA73 0.60 Q« 70 REGION KEY (REG ION.REFERENCE.EXPLANA! ION )
|
||
3 CB CA73 0.40 0.46 CENTER ON LINE BETWEEN 2 LOBES
|
||
3 PG CA73 0.80 0.92 MEAN 1 SEC FROM CNTR ON LINE BTWN LOBES
|
||
3 CB CA73 0.40 0.46 2, A MEAN 2 SEC FROM CNTR ON LINE BTWN I ORES
|
||
3 PG C A 7 3 0. 80 0.92 3, A , MEAN 3 SEC FROM CNTR ON LINE BTWN LOBES
|
||
3 CB CA73 0.40 0.46 4, A , MEAN 4 SEC FROM CNTR ON LINE BTWN LOBES
|
||
3 PG CA73 _Q«_ 0-92 5, A . MEAN 5 SEC FROM CNTR ON LINE BTWN LOBES
|
||
11.00 9.17 12. 54 10.46 MEAN 6 SEC FROM CNTR ON LINE BTWN LOBES
|
||
1 CB CA73 10.30 9.17 11.74 10.46 MEAN 7 SEC FROM CNTR ON LINE BTWN LOBES
|
||
I PE CA73 .60 9.17 8.66 10.46__ MEAN a.SEC FROM CNTR ON I INF BTWN I DBFS
|
||
1 PG CA73 7.80 8.89 MEAN 9 SEC FROM CNTR ON LINE BTWN LOBES
|
||
l VV 1 23.00X 26.22X 10, MEAN 10 SEC FROM CNTR ON LINE BTWN LOBES
|
||
4510 _N LLL 1 CB CA73 Q.40 -Q..42 -_a.4_8_ lit MEAN 11 SEC FROM CNTR QN L INE-B.THN . LOBES
|
||
1 PG CA73 0.45 0.42 0.51 0.48 12, A , MEAN 12 SEC FROM CNTR ON LINE BTWN LCBES
|
||
1 CP CA73 0. 50 0.5 0 0.56 0.56 13, A , MEAN 13 SEC FROM CNTR ON LINE BTWN LOBES,NOT SCALED
|
||
1 P£ C473 0. 50 0.50 0.56 0.56 A. AF7 . REGIONS A AND B ON DIFFERENT SCAIFR
|
||
2 CB CA73 0.50 0.56 CB, CA73, CENTER BLOB ONLY
|
||
2 PG CA73 0.40 0.45 PE, CA73, PHOTOELECTRIC OBSERVATIONS
|
||
....4.5 3.0.._ LL_ 2 CB.CA73.. 0-50 0.56 PG. CA73-._ AVERAGE OF PHOTOGRAPHIC CB S F R VAT T DNS
|
||
2 PG CA73 0.40 0.45
|
||
1 CB CA73 0.40 0.45 0.45 0.50 NGC 6778 (PK NO. 34 -6 1)
|
||
1 PG C A 7 3 0.50 0.45 0.56 0.50
|
||
l CB C A 7 3 0.70 0. 75 0. 76 0.82
|
||
1 PG CA73 0. 80 0.75 0. 87 0.82
|
||
1 PG CA73-. 0.30 Q.3Q 0.33 0.33 BEGIN NGf—638-1 I.PK NO. C - 0.54. (HYDROGEN- L-INESI
|
||
4631 SI III l CB CA73 0.40 A 0.43 A
|
||
l PG CA73 0.50 0.54 WAVE IDENT N RG REF □BS I CORR I
|
||
4634 III 8.QQ ft. 63 3726 _L0 II I 2 AK1 147.00 213.12
|
||
1 CB CA73 1.30 1.50 1.40 1.62 430.00 623.41
|
||
1 PG CA73 1.70 1.50 1.83 1.62 3729 < n ii ) AKI 147.00 212.90
|
||
_2 A fl.OO 8.62 3 »3 5 j AKI 5. OP
|
||
1 CB CA73 5.80 5.95 6.*2 5 6.41 50.00 85.00 68.88 117.09
|
||
1 PG CA73 6. 10 5.95 6.57 6.41 120.00 85.00 165.30 117.09
|
||
_2 W 1 36. R0 39.57 ?n, no
|
||
4645 III 2 VV l 36.80 39.57 3889 HE I AKI 20.00 27.34
|
||
4649 I I l CB CA73 3. 50 3.55 3. 76 3.81 3967 (NE III) AKI 29.00 38.66
|
||
1 PG CAZ 3-- 3.60 -3^55^ 3 .-87 - ■ 3.-81- --3 970 —H 1 -AKI
|
||
4657 1 PG C A 73 1.00 1.00 1.07 1 .07 45.00 59.94
|
||
4661 I I 1 PG CA73 0.60 0.6 0 0.64 0.64 3970 45.00 59.94
|
||
4673 I T 1 CB CA73 .. 0—Ifl-.. 0.20 0. 11 4101 18.00 22.93
|
||
l PG CA73 0.30 0.20 0.32 0.21 1 M 21. 00 19.50 26.75 24.84
|
||
1 CB C A 73 0.90 1.05 0.96 1.12 4340 1 M 39.00 39.00 46. 01 46.01
|
||
1 PG CA73 1.20 -■1.-2B- 4471 J AKI
|
||
lö.20 16.30 17.18 17.29 18.00 22.50 19.05 23.81
|
||
1 CB C A73 16. 00 16.30 16.97 17.29 27.00 22.50 28. 58 23.81
|
||
1 PF CA7.3- 1 0.40 -I 6- 3 0 11.03 1 7.29 5.70 5.9ft
|
||
l PG C A 7 3 19.40 16.30 20. 58 17.29 4713 HE I 2 AKI 5.70 5.98
|
||
1 VV 1 19. 50 16.30 20.68 17.29 4740 (AR IV ) 1 AKI 3.90 3.90 4.05 4.05
|
||
2 CH CA73 2.20 2... 31 48¿il Ü I J AKI 100.00 100.00 100.00 -1 00.00
|
||
2 PE CA73 2.20 2. 31 100.00 100.00 100.00 100.00
|
||
2 PG CA73 2.10 2.21 100.00 100.00 100.00 ’ 100.00
|
||
2 CP CA73 2.20 2.31 4959 (0 III) 300.00 310.00 292.21 301.95
|
||
2 PE CA73 2.20 2.31 320.00 310.00 311.69 301.95
|
||
2 PG CA73 2.10 2. 21 5007 (0 III) 1738.00
|
||
9 1334.00 1670.72 1282.36
|
||
(AR IV ) 1 CB CA73
|
||
1 PE CA73
|
||
1.30-
|
||
1.30 1.30
|
||
1. 35
|
||
1.35 1.35 3P,0° .l.3.34tp,Q. . 994,00 1282.36
|
||
l PG CA73 1.30 1.30 1.35 1.35 NGC 6781 (PK NO.
|
||
_L_ 100.00 1 00.00 100.00 100.00
|
||
l PE CA73 100.00 100.00 100.00 100.00
|
||
1 PG C A 7 3 100.00 1 CO.00 100.00 100.00
|
||
_1 C.3AJ— 100.00 ICO.00 .100.00 -100..00 BEGIN NGC 6790 ( PK NO. ■ Q.56 LRADIQ-H BETA)
|
||
100.00 100.00 100.00 100.00
|
||
1 VV 1 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I CORR I
|
||
1 PG CA73 4. CO 4.00 3.93 3.93 3 444 _QHE ILU - 1 PG AKI Q.80* 1.29*
|
||
(0 I II) l 240.00 191.72 233.55 186.56 3587 1 PG AKI 0.20* 0.31*
|
||
1 PE CA73 159.00 191.72 154.72 186.56 3614 HF I 1 PG AKI 0. 20* 0.30*
|
||
1 PG GA 73 149.00 191.72 144.99 186.56 3634 HE I 1 PG AKI 0.30* 0.45*
|
||
162.20 191.72 157.84 186.56 3669 1 PG AKI 0. 50* 0. 75*
|
||
280.00 191.72 272.47 186.56 3671 1 PG AKI 0.40* 0.60*
|
||
160. 10 -191.72 155.79 186.56 3676 1 PG AKI 0.6Q* 0.90*
|
||
1 A 650.00 623.99 3679 H I l PG AKI 0.60* 0.90*
|
||
l 0 A 520.00* 499.19* 3682 H I 1 PG AKI 0. 70* 1.04*
|
||
1 1 A 510.00* 489.59* 3686 L_ 1 PG AKI .80* 1.19*
|
||
2 A 510.00* 489.59* 3691 l PG AKI 1.00* 1.49*
|
||
3 A 490.00* 470.39* 3696 1 PG AKI 1. 10* 1.63*
|
||
4 A 470. 00* 451.19» 3703 2 PG AKI 1.60* 2.37*
|
||
l 5 A 445.00* 427.19* 3703 HE I 2 PG AKI 1.60* 2.37*
|
||
1 6 A 440.00* 422.39* 3712 H I 1 A 2. 10 3. 10
|
||
_! I—A 440.00* 422.39» 1 PQ AKI 1.20* 1.77*
|
||
1 8 A 465.00* 446.39* 3722 I 2 PG AKI 1.60* 2.36*
|
||
l 9 A 480.00* 460.79* 3722 III) 2 PG AKI 1.60* 2.36*
|
||
1 10 A 495.QQ* 475.19* 3726 II ) A— 13.00 19.11
|
||
l 11 A 465.00* 446.39* 1 PE AKI 15.20 22.34
|
||
1 12 A 620.00* 595.19* l PG AKI 5.30* 7.79*
|
||
1 13 A 0.85* 0.82* -J yX—L- 16.Q0X 73.57 X
|
||
l PE CA 7 3 463.00 56C.97 444.47 538.52 3729 I I ) 1 PG AKI 2.20* 3.23*
|
||
1 PG C A 7 3 407.00 560.97 390.71 538.52 3734 I l PG AKI 1.40* 2.05*
|
||
_1 COAL 537. 00 560.97 515.51 538.57 3750 _L J 0_ 1.50 1.50 2. 19
|
||
780.00 560.97 748.79 538.52 1 PG AKI 1.90* 2.77*
|
||
1 VV 1 528.80 560.97 507.64 538.52 3755 C III l PG AKI 0. 20* 0.29*
|
||
1 IA AE2 U.Q.3-*- Q.,85* 3759 _Q LLL -1 PG. AKI 0.50*
|
||
5537 (CL III) 1 IA AE2 1.00* 0. 82* l A 2. 40 2.40 3.47
|
||
5754 ( N II) 1 VV 1 12.60 12.60 9.83 .83 1 PG AKI 2. 50* 3.62*
|
||
_-5ñI6_- HF 1 J VV—1- 36^8.0 . .3 6-8.0 77-90 77.90 3. 10 3.10 4.44
|
||
6300 (Cl ) VV 1 17.20 11.82 11.82 1 PG AKI 3.20* 4. 58*
|
||
6563 H I VV l 793. 10 517.52 l PG AKI 1.00* 1.42*
|
||
NGC 6778 (PK NO. 34-6 l) NGC 6790 (PK NO. 37 -6 II
|
||
|
||
568
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6790 I PK. NGC . 68Q3 ÍPK NQ. 46 -4 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3835 H I I A 4.00 4.00 5.65 ._5_t_65.. 3676 H I _1 LAK C _ 0.0 Q.Q - Q.Q Qj-Q
|
||
I PG AKI 4.30* 6.07* 3679 1 LAKC 0.0 0.0 0.0 0.0
|
||
1 VV 1 52.00X 73.42 X 3682 1 LAKC 0.59 0.59 0.91 0.91
|
||
INE III) _l A_ 86.QQ 75.35 119.88 1Q5-^Q4- 3686 1 LAKC 0.63 0.63 0.97 0.97
|
||
1 PE AKI 64. 70 75.35 90.19 105.04 3691 1 LAKC 0.73 0.73 1.12 1.12
|
||
3 VV 1 86.70X 120.86X 3697 l LAKC 0.88 0.88 1.34 1.34
|
||
3889 _12 PE AKI
|
||
A_ 1Q.QQ I Q. QQ.. 13.83 I3-.a3_ 3.7Q3 - HE I —22 LAKC 1.62 —Zm 77
|
||
7.70 10.65 3703 LAKC 1.82 2.77
|
||
2 PG AKI 7.80* 10.79* 3712 H I 1 LAKC 1.45 1.45 2.20
|
||
3 VV 1 86.70X 119.88X 3721 _2 LAKC 2.37 -3.5?
|
||
2 PE AKI 7.70 10.65 3721 ( S in ) 2 LAKC 2.37 3.59
|
||
2 PG AKI 7.80* 10.79* 3726 in 11 ) 1 A 40•00 X 60.44X
|
||
3 VV 1 86.70X 119.88X 1 LA_ -43.QQX 64.97 X
|
||
(NE III) 2 A 32.00 43. 12 l LAKC 18.80 28.40
|
||
1 PG AKI 17.90* 24.12* 1 OS 1.00* 1.51*
|
||
2 VV 1 55.30X ..74. 51_£_ _1 ELLE_ —3L.6Q 47.74
|
||
32.00 43.11 l VV 1 26.90 40.64
|
||
l PG AKI 8.20* 11.05* 1 LAKC 8.34 12.59
|
||
_2 VV 1 55.3-Q-X- 74.5QX _1 US— 0.57* -■Q.86*
|
||
4009 HE I 1 PG AKI 0.30* 0.40* 3734 l LAKC L . 77 2.67
|
||
4026 HE I 1 A 1.60 2.11 3750 l A 3.30X 4.94X
|
||
1 PG AKI 1.90*... 2.51* _1 LAKC 2.47 2.47 -.3.70 3.70
|
||
27.30X 36.05X 3754 III LAKC 0.34 0.34 0.51 0.51
|
||
(S II J 2 1.40 1.82 3760 III LAKC 0.42 0.42 0.63 0.63
|
||
1 PG AKI 1.40* 1.82* 3770 J _L_ 4.70X 6.98X
|
||
( S 11)2 1.40 1.82 LAKC 2.88 4.28
|
||
1 PG AKI 0.50* 0.65* 9. 10X 13.38 X
|
||
4097 _U LLL 1 PG AKI 0» 4fl*_ 0.51* 4.22 . 4.22 6-. 20
|
||
1 A 18.00 22.25 23.14 28.60 3819 HE I 1 LAKC 0.98 0.98 1.43 1.43
|
||
1 PE AKI 26.50 22.25 34.06 28.60 3835 H I 1 A 14.OOX 20.26X
|
||
1 VV 1 23.3QX- 29.95X— _J LAKC— 8.74
|
||
4121 HE I 1 PG AKI 0. 30* 0.38* (NE III ) l 96.OOX 137.03X
|
||
4144 HE I 1 PG AKI 0.20* 0.25* LAKC 99.00 81.95 141.32 116.98
|
||
4267 C II 1 PG AKI 0. 50* 0.61* VV 1 -6.4^_SL0 81.95 92.64 116^98-
|
||
1 A 41.00 43.40 48.67 51.52 3889 21.OOX 29.72X
|
||
1 PE AKI 45.80 43.40 54.37 51.52 2 LAKC 12.70 17.97
|
||
VV 1 51.30X 6q.9n.X- ? vv 1 -14.20 -7.0.09
|
||
(0 I II 1 1 14.00 15. 10 16.50 17.79 3889 HE I 2 LAKC 12.70 17.97
|
||
1 PE AKI 16.20 15.10 19.09 17.79 2 VV l 14.20 20.09
|
||
1 PG AKT 17.00* 20.03* 3967 (NF TIT) .2 A -48.OOX 66.07X
|
||
VV 1 51.30X 60.45X 2 LA 24.OOX 33.03 X
|
||
4387 HE I 0.80* 0.94* l LAKC 24.30 33.45
|
||
_-44X1-- . BE—I— 5.60 6^38 _2 VV—1- -39.60 -54.51
|
||
l PG AKI 5.50* 6.27* 3967 48.OOX 66.06X
|
||
l VV 1 14.OOX 15.96X LA 24.OOX 33.03 X
|
||
_2 A 2.10 7.77 LAKC -10.40 14.31
|
||
0.30* 0.32* 2 VV 1 39.60 54. 50
|
||
2. 10 2.26 4009 HE I 1 LAKC 0.27 0. 37
|
||
n.9a* 0.97*- 4026 HE I _J A 3.QQX 4.04X
|
||
4650 C III 2 PG AKI 0.90* 0.97* LAKC 1.84 2.01 2.48 2.71
|
||
4650 n 11 2 PG AKI 0.90* 0.97* P TP 2. 18 2.01 2.94 2.71
|
||
4686 nr 11 1 PF AKT 3^50 3.71 -LS I I 1 7 5.60X _7.47X
|
||
1 PG AKI 3.30* 3.50* l LAKC 2.40 2.40 3. 18 3.18
|
||
1 VV 1 2 3.30 X 24.71X 4071 1 LAKC 0. 13 0.13 0. 17 0.17
|
||
-J A_ 2^10- 2-. 2.1— 4076 _2 A 5.60 X 7.40X
|
||
2 PG AKI 2.50* 2.63* LAKC C. 79 0.79 1.04 1.04
|
||
4713 HE I 2 PG AKI 2. 50* 2.63* 4097 N III LAKC 0.98 0.98 1.28 1.28
|
||
4740 (A» IV > 1 A 2.90 2.80 3.02 2.91 4101 H I A 23.OOX 30. 10X
|
||
1 PE AKI 2.70 2.80 2.81 2.91 LA 10.OOX 13.09X
|
||
1 PG AKI 3.30* 3.44* LAKC 18.30 19.70 23.95 25.78
|
||
_-4.8.61. H I- _1 A 1QQ.-QQ 100.00 100.00 1QQ.QQ PIP —¿I^jBQ 19.70 78. 53 75.78.-
|
||
1 PE AKI 100.00 100.00 100.00 100.00 HF I
|
||
l VV 1 19.00 19.70 24. 87 25.78
|
||
1 0062 100.00 1 CO.00 100.00 100.00 4121 l LAKC 0. 28 0.28 0. 36 0.36
|
||
_L VV .1 1QQ« QQX .. 100.OOX 4143 HF T LAKC Q.35. 0.35 _Q. 45 0 .45-
|
||
4921 HE I 1 PG AKI 3.00* 2.95* 4267 1 LAKC 0.38 0.47
|
||
4959 (0 III) l A 560.00 511.00 544.93 497.25 4340 1 A 46.OOX 55.28 X
|
||
1 PE AKI 462.Q0— 511.00 449.57 497.25 -1 A-N— l.OQ* 1.20*
|
||
1 VV 1 393.20X 382.62X 1 LA 58.OOX 69.70X
|
||
1 A 1470.00 1268.60 1411.03 1217.71 l LAKC 37.40 38.40 44.94 46.15
|
||
1 PE AK.I 1523.QQ 1268.60 1461.91 1217.71 1 PTP ■ 39.80 38.40 47.83 46.15
|
||
0D62 812.80 1268.60 780.20 1217.71 38.00 45.66
|
||
VV l 1079.80X 1036.49X (0 III) 9.80X 11.68X
|
||
-5_4.il.. EE II _Y-V—L ' 15.» 3..Q 15.3Q. 13.Q5 13.Q5 0.29* 0.34*
|
||
5517 (CL III) 1 A AE2 0. 36* 0.30* l LA 8. OOX 9.54 X
|
||
5537 (CL III) 1 A AE2 1.00* 0.82* 1 LAKC 5.85 7.53 6.97 8.97
|
||
5754 —LU II) 1 VV 1 7.3Q 7.3Q .5. 7Q.. 5.70 _1 PIP 5.63 7.53 -6.71 8.97
|
||
5876 HE I l VV 1 33. 30 33.30 25.25 25.25 VV 1 11. 10 7.53 13.23 8.97
|
||
6300 (0 1 ) 1 VV l 21. 30 21.30 14.64 14.64 4387 HE I LAKC 0.53 0.53 0.63 0.63
|
||
6563 _LN II ) 2 466.70 304.53 4471 HE I _JVV 1 A— 9.60X 11.05 X
|
||
6563 I 2 VV 1 466.70 304.53 l LAKC 5.41 5.38 6.23 6.20
|
||
6717 I I ) 1 B AE2 0.42* 0.27* 1 PTP 5. 36 5.38 6.17 6.20
|
||
6730 II ) 1 B AE2 1.00* 0.63* _1 VV. 1 -ll.-LQX. 12.77X
|
||
10 MU (S IV ) 1 GMS N III 3.20X 3.47X
|
||
LAKC 0.44 0.48
|
||
REGION KEY (REG ION.REFERENCE.EXPLANATION) 4640 N III _A— 3.2QX -3«A-7-X-
|
||
PE, AKI PHOTOELECTRIC OBSERVATIONS LAKC 1.67 1.67 1.81 1.81
|
||
PG, AKI PHOTOGRAPHIC OBSERVATIONS 4650 LAKC 0.49 0.49 0. 53 0.53
|
||
4685 HF I T -l^AQX.. 8. 31 X
|
||
NGC 6790 (PK NO. 37 -6 1) l LAKC 3.76 3.69 4.01 3.94
|
||
1 PTP 3.63 3.69 3.87 3.94
|
||
_1 V-V—L_ -12,7QX 13.53X
|
||
1 A 6.20X 6. 54X
|
||
BEGIN NGC 6803 (PK NO. 46 -41) C = 0.60 (HYDROGEN LINES) 1 LAKC 2. 15 2.15 2.27 2.27
|
||
4713 . .ElE _1 LAKC Q.2I . .Q*Z1.. -0.22 0.2?
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4740 ( AR TV 1 7. 10X 7.41 X
|
||
3299 0 III 1 LAKC 2.08 2.08 3.69 3.69 1 LAKC 2.87 2.87 3.00 3.00
|
||
3312 _0 LLL 1 LAKC 1.77 1-77 3. 12 3.12 4861 H I _1 A_ 100.00 100.00 1Q0.QQ 1QQ.QQ
|
||
3340 0 III 1 LAKC 2. 13 2.13 3.72 3.72 l LA 100.00 1 00.00 100.00 100.00
|
||
3342 (NE III) l LAKC 2.32 2.32 4.0$ 4.05 l LAKC 100.00 l00.00 100.00 100.00
|
||
3428 0 LLI 1 LAKC 0.5J— 0.51 0.86 0.86 1 PTP J.QQ. QQ —LQQ.QQ— 100.00 100.00
|
||
3444 III LAKC 2.37 2.37 3.97 3.97 100.00 100.00 100.00 100.00
|
||
3673 I LAKC 0.0 0.0 0.0 0.0 380.00 388.66 369.06 377.47
|
||
NGC 6803 (PK NO. NGC 6803 (PK NO. 46-4 1)
|
||
569
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
-MG£--£l803 CPK NO. NGC 6804 (PK NO. 45 -4 1)
|
||
WAVF IDENT N RG REF S I CORR I HAVE IDENT N RG REF OBS I CORR I
|
||
4959 _lq mi i âU .61* 4.48* 4711 CAR IV ) 2 AV ACPG 8.41 9.11
|
||
LA 390. 388.66 378.77 377.47 4713 HE I 2 AV ACPG 8.41 9. 10
|
||
LAKC 399 00 388.66 387.51 377.47 4740 (AR IV ) l AV ACPG 5.95 5.95 6.34 6.34
|
||
-P-12 426 Ü0 388.66 413.73 377.47 4861 H I 1 ACÜ 1QQ...QQ 10Q.QQ 1Q0.QQ 1QQ.QQ
|
||
348. 30 388.66 338.27 377.47 1 AV ACPG 100.00 100.00 100.00 100.00
|
||
ITT) 1 1070. 00 1210.98 1024.08 1159.01 1 LB ACPG 100.00 100.00 100.00 100.00
|
||
L_ 1 llQi HQ 1210.98 1062.36 1159.01 -LJJß ACPG 100.00 100.00 100.00 100.00
|
||
LAKC 1255. 00 1210.98 1201.14 1159.01 1 C 100.00 100.00 100.00 100.00
|
||
P TP 1290. 00 1210.98 1234.64 1159.01 1 COAL 100.00 100.00 100.00 100.00
|
||
VV 1 1329, as 1210.98 1272.83 1159.01 100.00 100.00 100.00 100.00
|
||
5411 HF I I 1 VV 1 14. 14.20 11.98 11.98 (G III) l ACP 209.00 253.00 200.13 242.27
|
||
5755 ( N II>1 P TP 2, 2.57 1.97 1.97 l AV ACPG 193.00 253.00 184.81 242.27
|
||
5876 HE I L_ PTP 3Q.75 18.66 22.86 1 LB ACPG 273.00 253.00 261.42 242.27
|
||
l VV 1 36. 40 30.75 27.06 22.86 1 UB ACPG 328.00 253.00 314.09 242.27
|
||
6300 <n ) 1 VV 1 28. 50 28.50 19.07 19.07 1 C 215.00 253.00 205.88 242.27
|
||
6563 fcL_ L_ LAß 00* 6.33* 1 H 300.00 253.00 287.27 242.27
|
||
1 PTP 525. 332.29 2 VV5 72.00* 68.95*
|
||
2 VV 1 633. 400.83 (□ III) 1 ACP 592.00 752.76 554.71 705.34
|
||
II ) 2._ VV 1 633. 4QQ.83 AV ACPG 532.00 752.76 498.49 705.34
|
||
6584 <N II ) l PTP 186. 186.00 117. 18 117.18 1 LB ACPG 787.00 752.76 737.42 705.34
|
||
6723 ( S 11)1 PTP 22. 22.40 13.73 13.73 1 UB ACPG 972.00 752.76 910.77 705.34
|
||
7 Q65 HE I L_ PTP 16. 16.60 9.56 9.56 -J C 675.QQ 752.76 632.4B 705.34
|
||
7325 11)1 PTP 7. il 891.30 752.76 835.15 705.34
|
||
9229 H I 1 PTP 4.11 A 820.00 752.76 768.34 705.34
|
||
9 532 H I 2_ LAR 1.88* VV5 72.00* ■6.Z..46*-
|
||
9546 (S 111)2 LAR 52* 6563 ) 2 VV5 47.00* 23.85*
|
||
10049 H I I PTP 16 60 A 6.62 A 6563 1 C 755.00 383.08
|
||
1Q83Q HF I L_ PTP. 323, 00 A 121.34 A 2 VV5 47.00* 23.85*
|
||
REGION KEY (REGION»REFERENCE»EXPL ANATION)
|
||
-tiGC. 6803 C PK .ML. 46 -4 1J AV» ACPG. AVERAGE
|
||
LB, ACPG. LOWER RLCB
|
||
UB. ACPG, UPPER BLOB
|
||
BEGIN NGC 6804 (PK NO. C = 0.89 (RADIO-H BETA) NGC 6804 (PK NO. 45 -4 1)
|
||
3133 0 III I AV ACPG
|
||
20.60 20.60 53. 54 53.54
|
||
3203 HE TI 1 AV 14. 10
|
||
ACPG 14.10 35.24 35.24 BEGIN NGC 6807 (PK NO. 42 -61) C = 0.23 (RADIO-H BETA)
|
||
3299 _0 1
|
||
I II . AV ACPG.
|
||
3.44 3.44 8.06 8.06
|
||
3312 0 III l AV 4.44
|
||
ACPG 4.44 10. 32 10.32 WAVE IDENT N RG REF OBS l CORR I
|
||
3341 D III 1 AV ACPG
|
||
5. 16 5.16 11.78 11.78 3727 (O I! ) l A 29.00 33.97
|
||
-3444 _0 III I AV 9.61
|
||
ACPG 9.61 20.64 20.64 J VV 2
|
||
1 36. 20
|
||
ACP 66.73 3750 H I 3.80 3.80 4.44 4.44
|
||
1 AV 3.59
|
||
ACPG 6.62 377C H I 4.20 4.20 4.89 4.89
|
||
1 AV ACPG
|
||
2.53 4.65 3797 L_ 5.60 5.60 6.49 . 6.49
|
||
3750 I 1 AV ACPG
|
||
2.21 2.21 4.02 4.02 0.0 A 5.60 0.0 A 6.49
|
||
3755 I II 1 AV ACPG
|
||
1.44 1.44 2.61 2.61 7.20 7.20 8. 30 8.30
|
||
3759 !II 1 AV ACPG
|
||
3.47 3.47 6.28 6.28 0-0 A_ 7.20 O.Q A 8.30
|
||
3770 l AV ACPG
|
||
2.97 2.97 5.34 5.34 (NE III) 84. 00 75.40 96.27 86.41
|
||
3797 1 AV 4.20
|
||
ACPG 4.20 7.44 7.44 VV 66.80 75.40 76.56 86.41
|
||
-3Ä35- 1 AV ACPG
|
||
5. 56 5.56 3889 H I _A 14.00 14.00 15.99 15.99
|
||
1 48.70
|
||
ACP 55.64 82.56 94.33 3967 A 38.00 42.95
|
||
l AV ACPG
|
||
54.70 55.64 92. 74 94.33 VV 29.20 33.00
|
||
1 1R 49.20 —55.-64.- -A3^41. . -9.4-.33.
|
||
ACPG 3967 —I— 38.00 42.95
|
||
UB 64.60
|
||
ACPG 55.64 109.52 94.33 29.20 33.00
|
||
M
|
||
61.00 55.64 103.42 94.33 4026 HE I 4.00 4.48
|
||
VV5
|
||
2.90* 4.92* 4069 ( S II) 4. 20 4.68
|
||
AV ACPG
|
||
9.45 15.82 4076 ( S II) 4.20 4.67
|
||
LB 8.24
|
||
ACPG 13. 79 4101 H I 27.00 28.10 29.93 31.15
|
||
Uñ ACPG
|
||
9.49 L5-.R8- VV 2 29.20 ¿8,IQ 32.37 31.13
|
||
VV5
|
||
2.90* 4. 85* 4340 H I 49.00 49.50 52.58 53.11
|
||
? AV ACPG
|
||
9.45 15.82 VV 50.00 49.50 53.65 53.11
|
||
? IB ACPG 1 3. 79 _4.36.2__ _LQ LLLL _4_ 11. QQ 11.00 11.77 11.77
|
||
2 UB 9.49
|
||
ACPG 15.88 VV 2 32.40 A 34.66 A
|
||
3 VV5
|
||
2.90* 4.85* A 6.50 6.86
|
||
-ine mi 2 73.40
|
||
ACP 37. 59 VV 2 12.5QXA 13.19XA
|
||
1 AV 22.40
|
||
ACPG 35.98 4686 VV 41.80X 42.82 X
|
||
2 2.20*
|
||
VV5 3.53* 4861 A 100.00 100.00 100.00 100.00
|
||
_H L_ ? 23.40
|
||
ACP 37. 53 . VV 2 1QQ.QQ 100.00 100.00 100.00
|
||
1 AV ACPG
|
||
12.00 19. 25 400.00 409.00 395.54 404.44
|
||
2 26. QO
|
||
B 41.70 VV 418.00 409.00 413.34 404.44
|
||
2 2.20*
|
||
)LX5 3.53* 5QQ7 _LQ III) VV 1QQQ.QQ L 000.00 983.33 983.33
|
||
3970 (NE I II » 26.00 41.70 5876 HE I VV 2 37.60 33.56
|
||
4068 ( S II) L AV 1.87
|
||
ACPG 2.84 6563 H I VV 2 208.00 174.55
|
||
4097 —N LLL ? ACP
|
||
29.90 44.67 6563 _LN II ) VV 2 2Q8.QQ . 174.55
|
||
2 29.90
|
||
ACP 44.56
|
||
1 AV ACPG
|
||
19.00 19.20 28.32 28.62 NGC 6807 (PK NO. 42-6 1)
|
||
1 LB 17« 7Q -1.9.2.Q
|
||
ACPG 26.38 23., 62
|
||
1 UB 20. 90
|
||
ACPG 31. 15
|
||
1 VV5
|
||
0.92* 1.37*
|
||
1 AV ACPG
|
||
1.58 2. 15 2.L5 BEGIN NGC 6818 (PK NO. 25-17 1) C = Q.1B (RADIO-H BETA)
|
||
2 45.20
|
||
ACP 59. 36
|
||
l AV ACPG
|
||
37.50 35.28 49.25 46.33 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
1I UB
|
||
LB AÇPG
|
||
42.20 35.28 55.42 46.33 33.4Q _Q LU 2 LA fr9,2Q 58.14
|
||
ACPG
|
||
34.70 35.28 45.57 46.33 ) 1 E 48.00 37.00 56.69 43.70
|
||
1 38.00
|
||
C 35.28 49.91 46.33 1 W 26. 00 37.00 30.71 43.70
|
||
1 24. 00 35.28 31.52 46.33 2 ACP 13.50 15.94
|
||
2 VV5
|
||
2.50* 3.28* 2 LA 49.20 58.11
|
||
2 45.20
|
||
ACP 58.67 3345 0 III 2 ACP 13.50 15.94
|
||
1 AV 27.90
|
||
ACPG 36,21 _2_Lt 3426 (NE _V ) 1 t A 86.Q.Q 65.83 1QQ.59 77.QQ
|
||
1 LB 12.00
|
||
ACPG 16.70 15. 58 21.68 A 67.00 65.83 78.36 77.00
|
||
1 UB 10.20
|
||
ACPG 16.70 13.24 21.68 ACP 44.50 65.83 52.05 77.00
|
||
2.50»
|
||
VV 5 3.24» LA 95.20 111.35
|
||
4541 HE I I 1 AV ACPG
|
||
3. 74 3.74 4.44 4.44 III LEA 32.00 37.35
|
||
4686 HE I I 1 76.80
|
||
ACP 73.60 84.33 80.82 2 LA 95.20 111.12
|
||
1 AV 62.90
|
||
ACPG 73.60 69.07 80.82 3726 _L0_ II ) 1 E A 68.00 76,96
|
||
1 LB ACPG
|
||
91.00 73.60 99.92 80.82 A 47.00 53.19
|
||
1 UB ACPG
|
||
77.90 73.60 85.54 80.82 ACP 62.60 70.85
|
||
_J 82>.Q0
|
||
C 73.60 90.04 -80.8? 85.00 96.20
|
||
51.00 56.00 LU 1.72* 1.95*
|
||
5.60* 6.15* VV 2 35.30 A 39.95 A
|
||
NGC 6804 (PK NO. 45-4 1) NGC 6818 (PK NO.
|
||
570
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6fllB (PK NO. 25-17 1) NGC 6818 (PK NO. 25-17 1>
|
||
HAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3729 (o n > 1 LU_ L 00* 1.13» 5 5-3-7 (CL III) 1 AW70 1.95 1.85 1.7^ IcTTt
|
||
3797 1 ACP 6.0 6.05 6.79 6.79 5592 0 III 1 A W70 0. 0.48 0.45 0.45
|
||
3835 H I 1 ACP 4.94 4.94 5.52 5.52 5754 (N MIL A W70 1.18 1.18 1.09 1 .09
|
||
3868 (NE mi _L_E A 14Q.QQ 127.30 155.77 -LAI. 64 saai _C L¥ L_ -AH7Q Q. 24 0.24 Q. 22 0.27
|
||
1 W A 110. 127.30 122.39 141.64 5812 C IV 1 AW70 0. 18 o.i a 0. 17 0.17
|
||
1 ACP 121. 127.30 134.63 141.64 5867 HE II 1 AW70 0.62 0.62 0.57 0.57
|
||
LA 148. 127.30 164.68 141.64 58_75_ HE I 1 AW70 *_5P St 97 9t69 9.03
|
||
l VV 2 117. 50 127.30 130.74 141.64 1 OPF 6.00 9.87 5.49 9.03
|
||
1 E A 20. 00 20.00 22.20 22.20 1 VV 2 14. 10 9.87 12.90 9.03
|
||
ACE a. 9.01 1 1 VV 2 ¿2.00 22.00 19.50 19.50
|
||
2 LA .80 23.08 1 ORF 280.00 244. 10
|
||
2 ACP .12 9.01 2 VV 2 252.00 219.69
|
||
_2 LA 20. 80 23.08 6563 II 1 2 VV 2 252.00 219.69
|
||
l E 45. 45.00 49.53 49.53 6583 II ) l ORF 69.00 60.07
|
||
1 W A 45. 45.00 49.53 49.53 6717 II ) 1 AE2 0.74* 0.64*
|
||
__2 ACP 44.30 . 48.76 . _1_ ORF 9-. .00 A 7.77 A
|
||
2 LA 63 70.33 6730 (S l ) 1 B AE2 1.00* 0.86*
|
||
2 VV 2 53, 58.33 1 ORF 12.00 A 10.36 A
|
||
3968 _tí I_ -2 ALE 44.30 48.75 10 MU -LS— TV 1 1 GMS 54.00 54.00 35.68
|
||
2 LA 63. 70.32
|
||
2 VV 2 53. 58. 33 REGION KEY (REG I ON,REFER ENCE T EXPLANAT ION)
|
||
4097 III _2 ACE 32.10 FAST SIDE
|
||
1 E A 26. 30.55 28. 19 33.12 A , WEST SIDE
|
||
l W A 30. 30.55 32.52 33.12 AE2 , REGIONS A AND B CN DIFFERENT SCALES
|
||
7 ACP 32.09
|
||
1 LA 33. 30.55 36.75 33.12 END NGC 6818 (PK NO. 25-17 1)
|
||
1 VV 2 32. 30.55 35.01 33.12
|
||
1 E A 66. 59.10 69.74 -62^45
|
||
1 W 59. 00 59. 10 62.34
|
||
2 ACP 69. 50 73.44 BEGIN NGC 6826 (PK NO. 83+12 1) 0.04 (RAD 10—H BETA)
|
||
_J -AJN 50. 50X — 53.36X
|
||
l LA 53. 59. 10 56.00 62.45 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
1 ORF 44. 59.10 46.49 62.45 3132 0 III 1 CAK4 1.00 1.00 1.04 1.04
|
||
_J VV 2- 73. 59.1 0 -irU 67 62.45 3187 —HE—I -J CAK 4
|
||
1 E A 21. 22. 14 3354 NF I I l CAK4 0.60 0.60 0.62 0.62
|
||
2 ACP 69. 73.26 3447 HE I 1 CAK4 0.80 0. 80 0.83 0.83
|
||
_J AN— -25.93X 3 5-30 HF -I 1 _C.AK4
|
||
l LA 43. 24.72 46.28 26.06 3554 HE I l CAK4 0.40 0.40 0-.41 0.41
|
||
l ORF 19. 24.72 20. 03 26.06 3587 HE I 1 CAK4 0.60 0.60 0.62 0.62
|
||
_J W 2 15. 24.72 1 5. 81 -1 CAK4
|
||
1 ACP 18.46 4. 83 19.26 3634 HE I 1 CAK4 0. 80 0.80 0.82 0.82
|
||
1 VV 2 18.46 33.69 19.26 3661 H I 1 CAK4 0.0 0.0 0.0 0.0
|
||
_1 ALE 4.36 4.51 4.51 —1 CAK. 4
|
||
4634 N III 2 ACP 9. 10.05 3663 1 CAK4 0.20 0.20 0.21 0.21
|
||
4640 N III 2 ACP 9, 10.05 3664 1 CAK4 0.30 0.30 0.31 0.31
|
||
4686 HE II _I E A 93, 94.78 3666 -J CAK4 0.40
|
||
l W A 82. 74.13 83. 57 75.55 3667 CAK4 0. 50 0.50 0.5L 0.51
|
||
1 ACP 64. 74.13 65.73 75.55 3669 CAK4 0.60 0.60 0.62 0.62
|
||
_J AN -9a.7nx 3671 n. 0.60 0.6?
|
||
l LA 38. 74.13 38.93 75.55 3673 CAK 4 0. 70 0. 70 0.72 0.72
|
||
1 ORF 82. 74.13 83. 57 75.55 3676 CAK4 0.70 0.70 0.72 0.72
|
||
VV ? - 74.13 86.73 -7.5.55 3679 -CAK 4 0.80
|
||
(AR IV ) 2 ACP 9. 18 3682 l CAK4 0.90 0.90 0.93 0.93
|
||
3 LA 5.79 3686 1 CAK4 1.00 1.00 1.03 1.03
|
||
2 ACP 9.18 3691 _J CAK4 1.20 1.70 1 .23 1 .23
|
||
LA 5.79 3697 I CAK4 1.30 1.30 1.34 1.34
|
||
l E A 13. 00 9.16 13. 17 9.28 3703 I CAK4 1.60 1.60 1.65 1.65
|
||
1 ACP 5. 38 9.16 5.45 9.28 3705 I CAK4 1.10 1. 10 l. 13 1.13
|
||
l AW70 9. 10 9.16 9.22 9.28 3712 I CAK4 2.00 2.00 2.06 2.06
|
||
3 LA 5, 70 5.77 3722 I CAK4 3.00 3.t)8
|
||
1 E 1QQ. nn irn.nn inn.nn 3722 T1T 1 C AK4 •3. no 3.08
|
||
1 W A 100. 00 100.00 100.00 100.00 3726 1 A 41 26.00 26.73
|
||
l ACP 100. 00 100.00 100.00 100.00 1 AUV 1.00*A 1.03*A
|
||
_1 AN .100, QOX 1QQ.0QX -I CAK4 12-.Q0 12-33
|
||
1 LA 100. 00 100.00 100.00 100.00 35. 90 36.90
|
||
i LA54 100. 00 100.00 100.00 100.00 1.37* 1.41*
|
||
JL ORE _JLQ£L LÛ 1Q0.QQ 100.00 100.00 19.QQ 19 «.53
|
||
l VV 2 .00 100.00 100.00 100.00 1 VV 1 40.OOX 41.12X
|
||
4922 HE 1 A W70 .65 0.65 0.65 0.65 1 AUV 0.48*A 0.49*A
|
||
4931 _LQ_ III I _1 AW70 Q.ll Q.ll 0-11 1 CAK4 8.40 8.63
|
||
(0 III) 2 E 1275. 1263.87 1 LU 1.00* 1.03*
|
||
l ACP 586. 00 580.89 3734 1 CAK4 2.50 2.50 2.57 2.57
|
||
AN 589. QQX _ 583.86X 3750 _L CAK4 3.30 3.30 3.39
|
||
1 LA 585. 00 443.75 579.89 439.88 3757 1 0 3.72 3.72 3.82 3.82
|
||
1 LA54 290, 00 443.75 287.47 439.88 3770 l CAK4 4.00 4.00 4.11 4.11
|
||
-J. ORE __ 301. QQ A 298. 37 A 3776 _1 CAK4 Q.Q Q.Q 0.0 —1.0—
|
||
1 VV 2 314. 00 443.75 311.26 3778 III 1 CAK4 0.20 0.20 0.21 0.21
|
||
2 E A 1275, 00 1258.33 3791 III 1 CAK4 0.10 0. 1 0 0. 10 0. 10
|
||
-1 ALE 1761, m 1473.67- 1737.98 14 3797 _J -1 CAK4 5.. 20 5.7 5 5.34 5.90
|
||
1 LA 1790. 00 1473.67 1766.60 1 454.40 7.60 5.75 7.80 5.90
|
||
l LA54 870. 00 1473.67 858.63 454.40 0 4.46 5.75 4.58 5.90
|
||
_1 VV 2 - 3530. -QQ A_ 3483.85 A HE -I— CAK4 Q.Q Q.Q Q.-Q . Q.Q
|
||
5015 HE I l AW70 . 36 0.36 0.35 0.35 3819 HF I CAK4 1.60 1.60 1.64 1.64
|
||
5041 SI II AW70 .23 0.2 3 0.23 0.23 3835 I CAK4 7.90 9.72 8. 10 9.96
|
||
5047 HE I AH7Q - Q. 15 -1.15 LA 14. 50 9.72 14.86 9.96
|
||
5056 SI II AW70 0.06 0.06 1 0 6.76 6.93
|
||
5145 (FE VI ) A W70 0.47 0.47 3 A41 51.00 52.22
|
||
5158 (FE VII) AW7Q 0.25 0.25 0.24 1 CAK4 43. 10 46.13 44U3 _4.7. ¿4
|
||
5176 (FE VI > l AW7 0 0.32 0.31 0.31 LA 50.70 46.1 3 51.92 47.24
|
||
5191 (AR III) 1 A W70 0.48 0.47 0.47 0 44. 60 46. 1 3 45.67 47.24
|
||
5199 __LN I L_ J AW70 Q.7Q Q.7.L- Q.68 Q.68 VV 1 74. 55 X
|
||
5270 (F6 111) 1 AW7 0 0.05 0.05 0.05 A41 51.00 52.19
|
||
5277 (FE VII ) l AW70 0. 11 0. 11 0.11 CAK4 18.00 18.42
|
||
53Q9 -1C A V L J AW70 0.22 n.?i n.?i -LA 23^.50 23.50 24.05 24.05
|
||
5323 (CL IV ) l A W70 0.14 0. 13 0.13 2 17.40 17.81
|
||
5335 (FE VI ) l AW70 0.25 0.24 0.24 3 VV l 72.80X 74.50X
|
||
_5411 J AH7Q - 11,90 6.94 -11.31 3 A41 51. QQ 52.19
|
||
1 VV 2 50 11.90 15.68 11.31 2 CAK4 18.00 18.42
|
||
5346 1 AW70 35 0.35 0.33 0.33 2 0 17.40 17.81
|
||
5517 .tcl nn J A AE2 02* _ 0.96* _3 VV 1 72.80X 74.5QX
|
||
1 AW7 0 48 1.39 3919 C II CAK4 0.0 0.0 0.0 0.0
|
||
l A AE2 00* 0. 94* 3920 C II CAK4 0.20 0.20 0.20 0.20
|
||
NGC 6818 (PK NO. 25-17 1) NGC 6826 (PK NO.
|
||
571
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 6826 í PK NO. 83 + 12 1) NGC 68?6 (PK NO. + 1>
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS r AVE Q CORR I AVE C
|
||
3926 HE I I CAK4 0.30 0.30 0.31 Q,Jl 4881 nn 1 4H7Q 0.06 Q.Qfr 0.06 _ 0 «06.
|
||
3961 S III 2 CAK4 0.0 0.0 0.0 0.0 4903 A W70 0.08 0.08 0.08
|
||
3961 0 III 2 CAK4 0.0 0.0 0.0 0.0 4908 A W70 O. 09 0.09 0.09 0.09
|
||
H£ J 1 CAK4 1 « 70 - 1.7Û_ 1.7A 1.74 4915 AW70 P. Q» 03 -0.03 Q.Q3-.
|
||
2 A41 23.00 23.50 1 1.40 1.40
|
||
1 CAK4 15. 10 15.43 15.43 1 F 0.31* 0.31*
|
||
_2 LA -3Q.6Q_ 31.26 _1 S— _aß_ Qa-27*— —Q.27*
|
||
2 VV 1 34.60X 35.34X C AK 4 1.70 1.55 1.70 1.55
|
||
2 A41 23.00 23.49 4931 (0 I III AW70 0.10 0.10 0. 10 0.10
|
||
_1 CAK4 . 15.30 15.30 15.63 15.63 4959 _JLD I II ï ■ AAI 270.00 ¿5.2. 11 269.47 —251«62
|
||
30.60 31.26 AN 149.OOX 148.71X
|
||
31.00 31.67 CAK4 253.00 252.11 252.51 251.62
|
||
.VV 1- 34.6QX 35.34X CPDA 239.90 252.11 239.43 251.62
|
||
3970 (NE III) 3 1.00 31.67 LA 225.00 252.11 224.56 251.62
|
||
4009 HE I l CAK4 0.30 0.3 0 0.31 .31 LA54 223.00 252.11 222.57 251.62
|
||
4026 HE I J CAK4 2.90 2.69 2^ jJUt— HS 255.QQ 252.11 .¿5.4. 50 -251.62
|
||
1 LA 2.70 2.69 2.75 2.74 0 251.00 252.11 250.51 251.62
|
||
1 0 2.46 2.69 2.51 2.74 R2 300.00 252.11 299.42 251.62
|
||
_J CAK4- 0.20 Q.2Q Q.2Q o,?n 4977 (FE vm A.H.7.0 Q. 10 0.10 -0. 10- 0.10
|
||
4069 0 II 1 CAK4 0.10 0.10 0. 10 0.10 (o un A41 800.00 797.67 771.80
|
||
4072 Q TI 1 CAK4 0.0 0.0 0.0 0.0 AN 367. OOX 365.93X
|
||
4076 -LS LL—L J CAK4 Q.Q 0.0 Q..£L- 0.0 BDQ 251.00* 250.27*
|
||
4089 SI I V CAK4 0.10 0.10 0. 10 0.10 1 C AK 4 770.00 774.06 767.75 771.80
|
||
4097 N III CAK4 0.90 0.90 0.92 0.92 1 CPDA 724.40 774.06 722.29 771.80
|
||
41.01 —H I 1 A41 19.00 22.62_ iq. 34 7 3- (V3 -1 LA_ 742.00 774.06 739.83 -171.80
|
||
i CAK4 26.00 22.62 26.47 23.03 LA54 709.00 774.06 706.93 771.80
|
||
1 LA 25. 10 22.62 25. 55 23.03 MS 725.00 774.06 722.88 771.80
|
||
_1 □ 24.00- 72.62 24.43 2.3.03 - R2.-. 44fl^-Q0 -774.06 945.73 -771 .BQ
|
||
1 R2 19. 00 19.34 23.03 VV 1 320.30X 319.37 X
|
||
1 VV l 30. 90 X 31.46X AW70 1.82 1.91 1.81 1.90
|
||
4103 _2 CAK4 0.70 Q . 20 CAK4 2.00 1.91 1.99 1.90 .
|
||
4103 N III 2 CAK4 0. 20 0.20 A W70 0.24 0.24 0.24
|
||
4110 0 II l CAK4 0.0 0.0 0.0 0.0 BR 0. 04* 0.04*
|
||
4116 SI IV 1 CAK4 0.20 0.2 Q._ 0.20 0.70 -L .s as V) . DR * -jQ.08*
|
||
4120 HT I CAK4 0. 60 0.60 0.61 0.61 5191 (AR III) AW70 0.08 0.08 0.08 0.08
|
||
4132 0 !I CAK4 0.20 0.20 0.20 0.20 5198 (N I AW70 0.04 0.04 0.04 0.04
|
||
4143 HE T C AK 4 0.60 0-6 0 0-61 0.61 -.5220 ■ LEE III ) AV.ZÛ 0. 18 -0. 18
|
||
4153 1 CAK4 0.30 0.30 0.31 0.31 5277 (FE VII) A W 70 0. 06 0.06 0.06 0.06
|
||
4168 1 CAK4 0.0 0.0 0.0 0.0 5411 HE I I AW70 0.10 0.10 0. 10 0.10
|
||
_L C AK4— 0.90 0.-91 5517 (Cl Till A.AE2 1.32* 1.3D*
|
||
4317 CAK4 0. 20 0.20 l AW70 0.45 0.44
|
||
4340 A4 1 40.00 40.49 1 F BR 0. 13* 0. 13*
|
||
-AN— 0.09* -O.nq*
|
||
1 CAK4 45.80 44.85 46.36 45.40 1 A AE2 1.00* 0.99*
|
||
l LA 47.30 44.85 47.88 45.40 1 AW70 0.55 0. 54
|
||
-L_£—as 0. Il*
|
||
1 OCR 41.70 44.85 42.21 45.40 0. 09* 0.09*
|
||
2 VV l 131.OOX 132.61X (01 ) 1 F BR 0. 39* 0.38*
|
||
_J C AK4— n.3n 0.30 0.30 0.47»
|
||
40.00 40.47 1 AW7 0 0.12 0. 12
|
||
4. 71 X 4.77X 1 F BR 0. 14* 0. 14*
|
||
—0. 06*
|
||
1 CAK4 5.90 5.53 5.97 5.60 15.80 15.49
|
||
1 LA 5.00 5.53 5.06 5.60 8.67* 8. 50*
|
||
_J □ 7.75_ 7.34 5.60 71.37» 70.95»
|
||
□ CB 3.98 4.03 CAK4 13.90 15.1^ 13.63 14.84
|
||
VV 1 131.OOX 132.54X 0 15. 70 15.13 15.39 14.84
|
||
4366 n 11 CAK4 0.0 0.0 0.0 3.0 VV l 346.OOX 339.23X
|
||
4387 HE I CAK4 1.00 1.00 1.01 1.01 (01 ) 1 F BR 0. 18* 0. 18*
|
||
4471 HE I A41 5. 70 5.95 5. 75 6.01 BR 0.05* 0.05*
|
||
. AN— 17.OOX 12.11X CAM Q.Q » Q.Q Q.Q *
|
||
CAK4 6.40 5.<55 6.46 6.01 l 13.30X 12.95X
|
||
LA 5. 40 5.95 5.45 6.01 l F 0.12* 0. 12*
|
||
6.31 5.95 6^37 6. m -L S 0. 10* —Q.1Q*
|
||
1 VV 1 6.70X ö. 76X 6364 (01 ) 1 0. 10* 0. 10*
|
||
4623 i A W70 0.11 0.11 0. 11 0.11 6548 (N II) 1 6. 02* 5. 84*
|
||
. 463_4_ —N LLL 1 A W 70 0.34 0.42 0.34 Q.^42 -L S . JUL_ 0-84* —Q.81*
|
||
1 CAK4 0. 50 0.42 0. 50 0 .42 OCB 1.90 1.90 1.84 1.84
|
||
1 AW70 0.96 1.08 0.97 1.09 CAK4 287.00 271.33 278.38 263.18
|
||
_J CAK4 .20 l.OB 1.21 1.Q9 CAM 1. QQ* —fl.97*
|
||
4641 l CAK4 0.40 0.40 0.40 0.40 LAR 10.00* 9.70*
|
||
4649 l AW70 0.38 0.44 0. 38 0. □ 288.00 271.33 279.35 263.18
|
||
1 CAK4 Q.5Q 0.44 □ CB 239.00 231.82 -263.18
|
||
4651 0 III 1 CAK4 0.20 0.20 0.20 0.20 VV 2184.OOXA 271.33 2 118.41XA
|
||
4657 (FP I II) 1 AW7 0 0.37 0.37 0.37 0.37 6563 (N II) VV 2184.OOXA 2118.41XA
|
||
4658 J C A K 4_ 0.30 Q. 30 Q. 30 0.30 6583 _LN II 1 _E 8E_ 26.18» ¿5.39*
|
||
4661 0 II CAK4 0.20 0.20 0.20 1 S BR 2.23* 2. 16*
|
||
4678 1 AW 70 0.07 0.07 0.07 1 CAM 0.04* 0.04*
|
||
4686 HF I I _1 AW7Q 0. 08 3.08 □ CB 9. 10 8.82
|
||
1 5.60 5.62 BR 1.19* 1.15*
|
||
1 F 0.15* 0.15* BR 1.56* 1.51*
|
||
_S BB— 0.17» . 0. U» CAK4 4.66 4.66 4.51 4.51
|
||
4701 (FE III) 1 AW70 0.05 0.05 0.05 0.05 l B AE2 0.63* 0.61*
|
||
4711 (AR IV ) 2 AW70 1.03 1.03 1 F BR 0.21* 0.20*
|
||
J C A K4 0.70 Q..ZQ- , Q.7Q 0.70 1 S BR O-j-13» . 0. 13*
|
||
2 AW7 1.03 1.03 6723 (S T I I CAK4 1.69 1.64
|
||
l F BR 0.04* 0.04* 6730 (S II) B AE2 1.00* 0.97*
|
||
1 S BR 0,04* 0.04» F BR -0^-41* 0.40*
|
||
1 CAK4 1 .00 1.00 1.00 1.00 l S BR 0. 14* 0. 14*
|
||
(AR IV ) 1 AW 70 0.38 0.44 0.38 0.44 l F BR 1.47* 1.42*
|
||
l CAK4 0.50 0.44 0.5C 0.44
|
||
L S as_ 1.26» 1-21 ♦
|
||
4.76* 4.58*
|
||
1 A 41 100.00 100.00 100.00 100.00 1 S BR 3.47* 3.34*
|
||
1 AN 100.OOX 100.OOX _L C.AK.4 ±22 5.73 —5« 52.. 5.52
|
||
1 CAK4 100.00 100.00 100.00 100.00 9069 III) 8.70 8.23
|
||
1 CPDA 100.00 100.00 100.00 100.00 9532 I LAR 0.91* 0.86*
|
||
_i LA 100.00 IQQt-Qfl. 100.00 100.00 9539 _Q 30.90 —2.9,14
|
||
LA 54 100.00 100.00 100.00 100.00 9539 (S III ) 30.90 29. 14
|
||
MS 100.00 100.00 100.00 100.00 9546 (S III) LAR 0.91* 0.86*
|
||
_0 100.00. 100.00 100.00 . lOQ^OO 1 08?9 HE T L AR 3.90» -3.65*
|
||
OCB 100.00 100.00 100.00 100.00 □ 74. 10 74.10 69.42 69.42
|
||
R2 100.00 100.OC 100.00 100.00 10 MU (S IV ) l GMS 12.50 12.50 11.40 11.40
|
||
W 1 100.OOX 100.OOX
|
||
NGC 6826 (PK NO. NGC 6826 (PK NO. 83+12 1)
|
||
|
||
572
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
Nfíf 6fl53 (PK NO. BEGIN NGf. 6857 ( PK NO. 70* 1 71 fHYDRnfiFN I fNECl
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I CORR I AVE C
|
||
4363 (o i in 1 3 BDO I. 00* I.01* 3727 (0 II 1 I PF 18.00 77. 79
|
||
I 4 BDO 1.00* 1.01* 4340 1 PF 24.00 24.00 46.08 46.08
|
||
L 5 BOO 1.00* 1.01* 4861 1 PF 100.00 100.00 100.00 100.00
|
||
_1 fr BDO 1.00* .01* 4959 _LQ_ 1)1 PF 144.00 144.00 129.91.. 129.91
|
||
1 7 BOO 1.00* 1.01* 2 VV1 8.40* 7.57*
|
||
1 8 BDO 1.00* 1.01* 5007 (0 III ) 2 VV1 8.40* 7. 19*
|
||
1 9 900 ItQO* -JtO.l*- 5876 HE l 1 P.F 39.00 39.QQ 13.61 13.61
|
||
l 10 BDO 1.00* 1.01* 6300 (0 ) 1 0.30* 0.07*
|
||
1 11 BDO 1.00* 1.01* 6563 1 PF 1308.00 1308.00 257.87
|
||
1 12 BOO .00* —1.Q1* -2 VV1 L4.0Û*. 2.76*
|
||
C 16.00 16.09 6563 (N II Î 2 14.00* 2.76*
|
||
0065 1.00* 1.01* 6584 ( N II ) 1 71.00 71.00 13.77 13.77
|
||
_SM— -Q.3¿* 0. 39* 7065 HE I 14.00 14.00 1.98 1.98
|
||
l C AKT 5.60 5.85 5.63 5.88 7751 (AR III ) 1 PF 29.00 29.00 2.70 2.70
|
||
1 E AKI 8.40 5.85 8.44 5.88 9015 H I 1 PF 41.00 41.00 2. 18 2.18
|
||
1 M AKI -4.4Q 5.85 . -4.4Z_ 9 069 ( S III } 1 621.00 -fejLUO.Q- 32.43 32.43
|
||
c 5.00 5.85 5.02 5.88 10049 H I 151.00 151.00 5.77 5.77
|
||
4541 HE II c 4.00 4.00 4.02 4.02 10830 HE I 741.00 741.00 22.93 22.93
|
||
^996 HE II _L_C_ AKI 9.41 QQ ^2.2q_ 94.1?.. 42.37
|
||
l E AKI 24.00 42.29 24.05 42.37 NGC 6857 (PK NO. 70+ 1 2)
|
||
1 AKI 51.00 42.29 51.11 42.37
|
||
54.QQ . 42.29 - -54.11 42.37
|
||
1 C 43.00 42.29 43.09 42.37
|
||
l Y 30.00 42.29 30.06 42.37 BEGIN NGC 6879 (PK NO. 0.50 (RADIO-H BETA)
|
||
3Q.QQ.- .42t29_ 30.06 42.37
|
||
IOENT N RG REF
|
||
(AR IV ) 2 C AKI 4.50 4.51 WAVE OBS I AVE 0 CORR I AVE C
|
||
2 AKI 3.40 3.41 3727 (0 II) 1 VV 2 29.60 41.74
|
||
2_ _C_ 7.QQ 7.01 3869 ( NE 111 ) A VV 2 26. 5Q 76.50 1Q2.88 102.88
|
||
2 C AKI 4.50 4. 51 3889 I 53.00 70.78
|
||
2 M AKI 3.40 3.41 3889 HE I VV 53.00 70.78
|
||
_2 C -7.QQ- 7.01 3970 (NE im ■ VV.. _64.7Q 84.36
|
||
l C AKI 4.70 4.80 4.71 4.81 3970 VV 2 64.70 84. 36
|
||
1 M AKI 2.70 4.80 2.70 4.81 4102 VV 2 35. 30 35.30 44. 16 44.16
|
||
_L_ X 7.00 4.80 7.01 4.81 4340 -VV 2. 29.40 _2-9. 4.0. 34. 26 34.26
|
||
l C AKI 100.00 100.00 100.00 100.00 4363 (0 III) 11.80 11.80 13.66 13.66
|
||
1 E AKI 100.00 100.00 100.00 100.00 4686 HF I I 23.60 23.60 24. 87 24.87
|
||
AK I 1X0.00- 100.00 . 4861 H I 100.00 100.00 100.00 100.00
|
||
1 100.00 100.00 100.00 100.00 VV 2 100.00 100.00 100.00 100.00
|
||
1 C 100.00 100.00 100.00 100.00 COAL 363.10 305.05 354.36 297.71
|
||
1XQ>X0l- 100.00- ..VV 2 ¿47.00, . ¿0-5.05 297.71
|
||
M I 7 3 100.00 100.00 100.00 100.00 <n I it ) i COAL 1072.00 918.50 1033.52 885.53
|
||
OS SH 100.00 100.00 100.00 100.00 l
|
||
HR I I _L_ -VV 2 VV 2 765.CO 918.50 737.54 885.53
|
||
—R—1 100.00- 100.00 5411 17.60 17.60 15.2Z- L5.27
|
||
4921 HE T 1 C 3.00 3.00 3.00 3.00 5554 (N II ) 35.30 35.30 29. 57 29.57
|
||
4959 (0 III) l C AKI 317.00 334.43 316. 69 334.10 5876 HE I 35.30 35.30 27. 57 27.57
|
||
4—E AKI- 325.00 324.68- 6300 -(0 47. 10 47.10 3^_ 69 *<?
|
||
1 M AKI 354.00 334.43 353.66 334.10 6563 I 188.00 128.42
|
||
l C 325.00 334.43 324.68 334.10 6563 II ) 188.00 128.42
|
||
1 C M 340. QQ 334.43 339.67 334.1Q
|
||
340.00 334.43 339.67 334.10 NGC 6879 (PK NO. 57 -8 1)
|
||
R 1 340.00 334.43 339.67 334.10
|
||
ann- 94. 00» —93.86*
|
||
1 2 BOO 94.00* 93.86*
|
||
l 3 BOO 80.00* 79.88* BEGIN NGC 6881 (PK NO. 74+ 21) C = 1.68 (RADIO-H BETA)
|
||
_J 4 BOO 2X7 . Oil* . 206.70*
|
||
5 BOO 114.00* 113.83* WAVE IOENT N RG REF OBS I CORR I
|
||
6 BOO 115.00* 114.83* 3727 (0 II) l ACP 74.60 236.66
|
||
7 BDO 381.00* 380.44* AC PG 25.60 81.21
|
||
8 BDO 136.00* 135.30* 3734 ACPG 3.31 3.31 10.42 10.42
|
||
9 BDO 102.00*
|
||
9 101.85* 3868 ACPG 74.60 57.80 202.07 156.57
|
||
10 BOO 1 « QQ-* -SQ.8Z* 41.00 57.80 111.06 156.57
|
||
1 11 BOO 121.00* 120.82* 3889 H I 2 ACPG 9. 34 24.69
|
||
l 12 BOO 124.00* 123.82* 3889 HE I 2 ACPG 9.34 24.69
|
||
-1 C M— 970.00 971.50- 9-68.58 9.ZQ.08. 3967 (NE MI ) J ACPG 32.50 5Q 79.50 —79.5.Q_
|
||
970.00 968.58 3970 21.00 51.22
|
||
0065 62.00* 61.91* 3970 (NF III) 2 1.00 51.22
|
||
QSS.H 976.00 971.50 ■924.57 9ZQ.Q8- 4101 H ,I ACPG 1 5.40 32.71 -3Q.16-
|
||
970.00 968.58 13.00 14.20 27.61 30.16
|
||
SM 100.00* 99.85* 40.40 32.70 67.58 54.70
|
||
_C 7.00 6.96 25.00 32.70 41.82 _54.7Q-
|
||
5755 (N II ) 19.00 19.00 18.83 18.83 (0 III ) 16.50 15.75 26.99 25.77
|
||
5876 HE I 24.00 24.00 23.76 23.76 15.00 15.75 24. 54 25.77
|
||
6548 —i-fci II _L 159.00 159.00 156.61 156.61 HF(I 80.60 -55.30 96. 16 -65.98-
|
||
6563 C 408.00 349.00 401.83 343.72 1 H 30.00 35. 79
|
||
M I 73 290.00 349.00 285.61 343.72 4711 (ARIV ) 2 ACPG 3.81 4.43
|
||
6584 (N II ) _C 395.00 395.00 388.96 388.96 4713 HEI -2 ACPG 3.81 4.42
|
||
4861 1 ACP 100.00 100.00 ICO.00 100.00
|
||
REGION KEY (REG ION,REFERENCE.EXPLANAT ION) 1 ACPG 100.00 100.00 100.00 100.00
|
||
CENTER OF NEBULA _1 »_ JJ?Q.Q.O. 100.00 100.00
|
||
Li
|
||
AKI 150 ARCSEC FRCH CENTER OF NEtfULA VV5 100.00 100.00 100.00 100.00
|
||
100.00
|
||
AKI 60 ARCSEC FROM CENTER OF NEBULA (0 I II ) l ACP 497.00 533.25 457.95 491 .36
|
||
1. BDO . OVFR CRNTRAL STAR. 51 IT UIOTH 42 ART. 5 F R ACPG 860.00 533.25 792.44 491.36
|
||
2, BDO , OVER CENTRAL STAR, SLIT WIDTH 120 ARCSEC 1 530.00 533.25 488.36 491.36
|
||
3, BDO , 50 ARCSEC S OF CENTRAL STAR l VV 5 246.00 533.25 226.67 491.36
|
||
4, BDO , 50 ARCSEC W. 50 ARCSEC S OF CENTRAL STAR 1 ACP 1309.00 1282.00 1157.71 1133.83
|
||
5, BDO , LOO ARCSEC S OF CENTRAL STAR 1614.00 1282.00 1427.46 1 133.83
|
||
6, BDO , 50 APCSEC W, 100 ARCSEC S OF CENTRAL STAR 1490.00 1282.00 1317.79 1133.83
|
||
7, BDQ . 50 AROSE 150 ARCSEC S OF CENTRA! STAR 715,QQ 1292,QQ -<»■32,36- 1133.83
|
||
BDO , 170 ARCSEC S OF CENTRAL STAR 6563 I 1 HE6 7 1.00+A 0.28*A
|
||
BDO , 50 ARCSEC N OF CENTRAL STAR 2 VV 5 492.00 136.69
|
||
10. BDQ , 50 ARCSEC E OF CENTRAL STAR 6563 II ) 2 VV5 492.00 136.69
|
||
11, BOO 50 ARCSEC E, 50 ARCSEC N OF CENTRAL STAR 6584 (N II ) 1 HE 67 0.3
|
||
12, BDO 100 ARCSEC E, 50 ARCSEC N OF CENTRAL STAR
|
||
CENTER END NGC 6881 (PK NO. 74+ 2 1)
|
||
Y, M BRIGHTEST PART SOUTHWEST OF STAR
|
||
J, OS INNER REGION SOUTHWEST OF CENTRAL STAR
|
||
K, OS OUTER REGION SOUTHWEST OF CENTRAL STAR
|
||
BEGIN NGC 6884 (PK NO. 82+ 7 1) 0.81 (RADIO-H BETA)
|
||
END NGC 6853 (PK NO. 60 -3 1)
|
||
IOENT N RG RFF AVE 0 CQRRJL
|
||
3133 0 III l PG AKI 37.00 37.00 88.25 88.25
|
||
3187 HE I 1 PG AKI 2.70 2.70 6.27 6.27
|
||
NGC 6884 (PK NO. 82+ 7 1)
|
||
574
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 688» (PK NO. 82»
|
||
7 11 NGC 688.4 t PK NQ. B2t_L 1L_
|
||
WAVE IDENT N RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3203 HE II 1 PG AKI 6.30 6.30 14.50 4363 <o. im 1 R_ »QQ 11 « 95 22.82 15.15
|
||
3299 III 1 PG AKI 1.60 1.60 3.47 3.47 1 VV 2 12. 70 11.95 16. 10 15.15
|
||
3312 III 1 PG AKI 4.20 4.20 9.05 9.05 l A 4.00 4.60 4.84 5.56
|
||
3341 PG AKT 5.6Q 5.60 11.87 11.87 1 PG AKI ß«-20 4.60 6.29 5.56
|
||
3428 0 III 1 PG AKI 2.50 2.50 5.05 5.05 PTP 4.80 A 5.80 A
|
||
3444 0 III l PG AKI 11. 10 11.10 22.26 22.26 R 10.00X 12.09X
|
||
3.614 HE I 1 PG AKI Q.AO .. Q.4Q 0.74 0.74 . VV. 2 -1Q..9QX 13.18 X
|
||
3634 HE I 1 PG AKI 0.50 0.50 0.91 0.91 4541 1 PG AKI 0.90 0.75 1.05 0.88
|
||
-hbl\ H I 1 PG AKI 0.60 0.60 1.08 1.08 1 AW70 0.60 0.75 0.70 0.88
|
||
3673 1 PG AKI 0.70 0.70 1.25 1.2,5 4571 HG I _I AW7Q . Q«-1Q 0.12 0.12
|
||
3676 l PG AKI 0.60 0.60 1.07 1.07 2 A 2.60 2.90
|
||
3679 1 PG AKI 0.75 0.75 1.34 1.34 l PG AKI 1.60 1.25 1.79 1.40
|
||
3682 1 PG AKI 0,80 0.80 1.43 1.43 _J AH7Q . 0^9.0 1.25 1.00 1.40
|
||
3687 l PG AKI 1.00 1.00 1.78 1.78 2 10.00 11. 17
|
||
3691 1 PG AKI 1. 10 1. 10 1.95 1.95 2 A 2.60 2.89
|
||
3697 1 PG AM 1.20 1.20 2.13 _ 2 *13... _1 P_G_AKJ_ 3.30 2.50 3.67 2.78
|
||
3703 H I 2 PG AKI 1.80 3. 18 1.70 1.89
|
||
3704 HE I 2 PG AKI 1.80 3.18 10.00 11. 13
|
||
-3.212 H_. I 1.70
|
||
1 .PG. AK_L_ l.IQ _2_t 2.99 _0 LLL . AW7Q 0.50 n. 88
|
||
3722 H I 2 PG AKI 1.90 3.32 2 PG AKI 0.80 0.89
|
||
3722 IS III) 2 PG AKI 1.90 3.32 ? AW70 0.50 0.55
|
||
3726 (0 II ) I A_11.00 19.20 4¿5Q _Q LL_ _2 ££. A Hi 0. 80 Q..a9
|
||
1 PE AKI 44. 00 76.81 12.40 19.04 13.50 20.73
|
||
1 PG AKI 15.40 26.88 1 PG AKI 18.70 19.04 20.36 20.73
|
||
_2 LU 2.15* 3m 75* _J EXE— 14. 50 „19.J14 -15.23.. 20.73
|
||
1 22. 00
|
||
PER 38.40 26.00 19.04 28.31 20.73
|
||
1 PTP
|
||
20.40 35.61 23.60 19.04 25.70 20.73
|
||
_1 VV. 2 0^_ 22.56 _Q.Q A— _ t. Aß—XV _L 1 4.20 -4.3Z- fl.71
|
||
1 PG AKI 6.90 12.03 12.00 12.91 8.71
|
||
1 LU 1.00* 1.74* 4725 (NE IV ) 1 AW70 0. 10 0.11
|
||
1 EG AKJ 474Q (AR IV ) X à 4.90 5.19
|
||
3750 1. 10 2.05 1.90 3.53 1 PG AKI 6.30 7.62 6.68 8.08
|
||
1 PG AKI 3.00 2.05 5.17 3.53 l AW70 6. 30 7.62 6.68 8.08
|
||
3754 1 PG AKI 0.90 0.9-0- _U 1.55 -L- 13.00 .-62 -1 3.28 . .08.
|
||
3759 III 1 PG AKI 2.50 2.50 4.29 4.29 1 A 100.00 1 00.00 100.00 100.00
|
||
3770 I 1 A 1.20 2.35 2.05 4.01 1 PE AKI 100.00 100.00 100.00 100.00
|
||
1 PG AKI 3.50 .35 5.97 4.01 1 PG AKI 100.00 100.00 100.00 -LOO.00.
|
||
2.00 3.45 3.36 5.80 COAL 100.00 100.00 100.00 '100.00
|
||
I PG AKI 4.90 3.45 8.24 5.80 PE» 100.00 100.00 100.00 100.00
|
||
-J VV 20.0 . 3.4-5— 0.0 . 5.flO PTP 1 00.00 -100.00 100.00 100.00
|
||
3819 HF I 1 PG AKI 1.20 1.20 1.99 1.99 100.00 ICO.00 100.00 100.00
|
||
3835 H I 1 A 4.20 5.00 6.92 8.23 VV 2 100.00 100.00 100.00 100.00
|
||
1 PG AKI 7. nn -11.53 8.23 AWZO 0.-70 0.-70 0.68
|
||
1 R 3.80 5.00 6.26 8.23 4931 (G im I A W70 0.20 0.20 0. 19 0.19
|
||
1 VV 20.0 A 5.00 0.0 A 8.23 4959 (r im I A 600.00 512.17 576.79 492.36
|
||
-J NF. I 1 T-) J A 60.00 68. 87 1 PF AK.I 465.00 447.01
|
||
1 PE AKI 93.00 68.87 150.36 111.34 1 PG AKI 543.00 512.17 522.00 492.36
|
||
1 PG AKI 93. 00 68.87 150.36 111.34 1 C GAL 501.20 512.17 481.81 492.36
|
||
1 75. nn
|
||
PER 68.87 _1 R£R -46 7.00 ,448.94
|
||
6.70 68.87 10.83 111.34 390.00 512.17 374.91 492.36
|
||
85.50 68.87 138.24 111.34 VV 2 619.00 512.17 595.06 492.36
|
||
11.80 —13.86 AW70 0.38- 0.29
|
||
2 PE AKI 15.00 23.97 1700.00 1721.80 1602.25 1622.80
|
||
l PG AKI 14.60 11.80 23.33 18.86 COAL 1585.00 1721.80 1493.87 1622.80
|
||
_J R 1 3.00 .11.8Q 20.77 18.86 PFR 1-8.1 4.00 LZ?1.80 I700,70 1-67-2.80
|
||
27.20 43.46 PTP 1510.00 1721.80 1423.18 1622.80
|
||
15.00 23.97 VV 2 2000.00 1721.80 1885.00 1622.80
|
||
27.20 43.46 5015 HF T A W 70 0.60 0.60 0.56 0.56
|
||
3926 HE I 1 R 4. 30 4.30 6.75 6.75 5041 SI II AW70 0.30 0.30 0.28 0.28
|
||
3967 (NE III) 2 A 26.00 40.02 5047 HE I AW70 0.60 0.60 0.55 0.55
|
||
1 EG AKI 35.6ÍL. 35.60 . 54.BQ -54.BQ 5Q5.6 SI II AH7Q 0.20 Q.2Q Q.lfi 0.18
|
||
44.00 67.73 5131 1 AW70 0.20 0.20 0. 18 0.18
|
||
2 VV 2 50.90 78.35 5170 1 AW70 0.09 0.09 0.08 0.08
|
||
_H I_ _2 A 26. QQ 4Q.01 -5L76 _ -J AW70 Q. 07 Q.Q7 0-06 0.06
|
||
1 PG AKI 15.90 24.47 5181 AW70 0.20 0.20 0.17 0.17
|
||
2 P 44.00 67.71 5191 (AR TU ) AW70 0.20 0.20 0.17 0.17
|
||
HF I _2 VV 2 50.90 78. 5199 _J_N_ AW7Q 0.25 0.25 0.22 ■ -Q.2-2
|
||
4009 0.30 9.15 0.45 13.80 5270 (FE TU) l AW70 0.09 0.09 0.08 0.08
|
||
18. 00 9.15 27. 16 13.80 5323 (CL IV ) 1 AW70 0.10 0. 10 0.08 0.08
|
||
4Q26 HE.. I Q.7Q 6.0-7. 1.05 _ 9.07 - 5335 (Fc VI ) 1 A W 70 0.12 0.12 Q. IQ Q.1Q
|
||
1 PG AKI 2.50 6.07 3.74 9.07 5346 l AW70 0.15 0.15 0. 12 0.12
|
||
1 R 15.00 6.07 22.43 9.07 5411 HE II 1 A W 70 3.20 3.20 2.54 2.54
|
||
4Q68 _2 A— _. Q. 6.Q . ES 5517 (CL .1 II-L 1 A AE2 Q« 66* . Q.50*
|
||
1 PG AKI 1.40 5.70 2.05 8.34 AW70 1.00 0.76
|
||
1 R 10.00 5.70 14.63 8.34 (CL TIT) 1 A AE2 1.00* 0.76*
|
||
4072 _LS LI L _1 QTP . 1.3-5.. A 1.97 A AW7C mAQ 1.06
|
||
4076 2 A 0.60 0. 87 5592 I II i AW7C 0.20 0.20 0. 15 0.15
|
||
1 PG AKI 0.60 0.60 0.87 0.87 5754 II ) 1 A W TO 2.00 2.00 1.40 1.40
|
||
4097 _N LLL 1 PQ AKI 1.90 1.9.0 2.74 . 2.74 1 PTP 1.75 A 1.22 A
|
||
9. 80 20. 14 14.09 28.96 5801 C IV AW7C 0.20 0.20 0. 14 0.14
|
||
1 PE AKI 22.90 20.14 32.93 28.96 5812 C IV AW70 0.30 0.30 0.21 0.21
|
||
1 PG AKI 21.40 20.14 30. 77 -28.96 5875 HE I AW 7 0 27.00 30.25 18.09 20.27
|
||
l PER 25.00 20. 14 35.95 28.96 PER 21.00 30.25 14.07 20.27
|
||
1 PTP 17.70 20.14 25.45 28.96 PTP 33.00 30.25 22.11 20.27
|
||
_L_ -26. QQ.. -2Q.14 37.39 28.96 VV 2 40. 00 30.75 26.81 20.27
|
||
1 VV 2 1 8.20 20. 14 26. 17 28.96 6300 (0 1 ) 25.40 25.40 14.76 14.76
|
||
4121 HE I 1 PG AKI 0.30 0.30 0.43 0.43 6548 (N II) PER 33.00 33.00 17.88 17.88
|
||
4144 - —HE—I . 1 P£ AKI .40 0.40 Q.56 Q.56 6563 H I PER 551.00 531.50 ¿971 L5 286.63
|
||
4200 HE 1 PG AKI 0.40 0.40 0. 55 0.55 PTP 512.00 276. 12
|
||
4227 (FF V 1 PG AKI 0.30 0.30 0.41 0.41 VV 2 436.CO 235. 13
|
||
4267 C II 1 PG AKI Q.8Q 0. 8-Q— . 1. 06 -L.Q6 6563 _LN II 1 ...yy-2 436.CQ 235.13
|
||
1 A 22. 30 28.58 6584 (N II ) PER 85.00 84.15 45.55 45.10
|
||
2 PE AKI 45.80 58.69 PTP 83.30 84.15 44.64 45.10
|
||
- 1 PG AKI 42.40 39.17 -5.4.34 50.19 6717 ( S II ) X a ALL- 0.53* . Qt¿7*
|
||
1 PER 43.00 39.1 7 55.11 50.19 6723 (S II ) PTP 6. 77 3.50
|
||
1 PTP 36.30 39.17 46.52 50.19 6730 ( S II ) 1 B AE 2 1.00* 0. 52*
|
||
_1 B 51.00 39.17 -65.36 5Q.19 -7065 _H£ I— 1 PTE— - 12.6Q _5.99_ -5.99_
|
||
l 40.00 39.17 51.26 50.19 7325 II PTP 14.50 A 12.6Q 6.48 A
|
||
1 5.20 11.95 6.59 15.15 10830 I PER 626.00 626.00 166.94 166.94
|
||
2 PE AKI 45.8-0- 58.Q7 10938 _J PER 85.00 85.00 22.42 22.42
|
||
1 PG AKI 11.90 15.09 10 MU (S IV ) 1
|
||
1 PTP 6.80 8.62
|
||
NGC 6884 LPK NQ. 82» 7 1)
|
||
NGC 6884 (PK NO. 82+ 7 1)
|
||
575
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 6884 (PK NO. 82+ 7. 1) . NG£ 68a¿ (PK NQ. 60 -7 2>
|
||
REGION KEY (REG IONFEER ENGE,EXPLANAT ION I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
A, AE2 . REGIONS A AND B ON DIFFERENT SCALES 5-Q47 -HE I __L AW7Q Q. IQ 0.10 .Q«J)9 0*09.
|
||
PE, AKI PHOTOELECTRIC OBSERVATIONS 5056 l A W70 0.07 0.07 0.06 0.06
|
||
PG, AKI PHOTOGRAPHIC OBSERVATIONS 5076 1 AW70 0.24 0.24 0.21 0.21
|
||
5131 _Q ¥_ -1 AW.10.. 0.05 0.05 Q.i?5 -Q.Q5-
|
||
NGC 6884 (PK NO. 82+ 7 1) 5145 (FE VI I l AW70 0. 10 0.10 0. 08 0.08
|
||
5159 IFF VII ) 1 A W70 0.03 0.03 0.03 0.03
|
||
5176 (FE VI 1 J &.H7Q . Q. 03... 0^03 Q.Q3 _Q.Q3
|
||
5191 (AR III) 1 AW70 0.21 0.21 0. 17
|
||
BEGIN NGC 6886 (PK NO. C = 1.13 (R ADIO—H BETA! 5199 (N I ) l AW70 0.85 0.85 0.69
|
||
5270 (FE III) AW70 0.05 0.05 . ■<k-Q4.,_ 0.04
|
||
WAVE IDENT N RG REF OBS I AVE O CORR AVE C 5309 (CA V ) I AW70 0.07 0.07 0.05 0.05
|
||
3312 0 III 1 A 0.70 0.70 2. 2.04 5335 (FE VI ) I AW 70 0.06 0.06 0.05 0.05
|
||
3346 (NE. V I _2 à 2Q «00 56 5411 HF II 1 AW70 2.80 11.40 2.03 8.27
|
||
3346 III 20.00 ,80 l VV 2 20.00 14.51
|
||
3425 ( NE V ) A 44.00 117 73 5423 (FE VI ) ? A W70 0. 11 0.08
|
||
AGP 44.40 44.40 -118 118.«_£Q -5-426 (FE VI ) _2 A-W70 0.11 Q.Q8
|
||
3425 G III 2 A <»4.00 117. (CL III) L A AE2 0.56* 0.38*
|
||
3444 n in 1 A 9.00 18.00 23. 47.52 1 AW70 0. 0.23
|
||
1 ACP 2 7.00 18.00 71, 47.52 5537 (CL I 111 i A AE2 1. 0.68*
|
||
1 A 93.00 202. l AW70 0.60 0.60 0.41 0.41
|
||
l ACP 93.60 203. 5554 (N II) l VV 2 20.00 20.00 13.40 13.40
|
||
JL LU_ 2i 06*. 4.a* 5677 (FE VI ) J AW7,0 . _ Qt.Qfe— 0« 06 Q. 04 Q*-
|
||
PER 157.00 341 , 55 5721 (FE VID I A W70 0. 07 0.07 0.04 0.04
|
||
1 VV 2 100.00 217 , 55 5754 (N II) 1 A W70 2.12 2.12 1.29 1.29
|
||
_J LU .00* 2. . 17» ¿5Q1 _c i_y J AH7.Q. 0.17 Q. 10 -0^10_
|
||
3750 1.90 1.90 4.06 5812 C IV 1 A W70 0. 16 0. 16 0. 09 0.09
|
||
3770 1.70 1.70 3.58 5876 HE I 1 PER 20.00 22.00 11.44 12.58
|
||
3797 2.00 2. 00 4.13 _J VV 2.. 24.00 ZZm QQ 13.73 12.58
|
||
6.00 7.79 12. 15.63 6300 (0 I ) l VV 2 28.00 28.00 13. 13 13.13
|
||
9. 59 7.79 19. 15.63 6548 (N I I ) 1 PER 155.00 155.00 65.91 65.91
|
||
(NF T II ) 1 97.. 00 106.52 6.563 . tL_ J ÜE67 1.QO*A Q-42 *A
|
||
ACP 36. 10 106.52 168. 208.23 PER 527.00 222.68
|
||
1 PER 151.00 106.52 295. 208.23 VV 2 800.00 338.04
|
||
_J VV. 2 92.00 106.52 -179, 203.23 (N I T ) 2 VV 2 800.00 338.04
|
||
1 A 11.00 21. 15 6584 (N II) 1 HE67 1.00*A 0.42*A
|
||
2 ACP 13.90 26. 73 1 PER 447.00 187.24 187.24
|
||
2 VV 2 28.00 A 53-. 84 A J R AE2 0>51.» n.20»
|
||
3889 HP I 2 ACP 13.90 . 73 6730 (S II) L B A E2 1.00* 0.40*
|
||
2 VV 2 28.00 A . 84 A 9068 (S IIP l PER 102.00 lC2.00 21.30
|
||
(NE IIP 2- 33.00 9532 _LS I I P J PER. -35D.Q0 351.00 67.-27
|
||
ACD 45.90 10830 HE I PER 466.00 466.00 73.72 73.72
|
||
VV 2 40.00 10938 H I PER 18. 00 18.00 2. 80 2.80
|
||
3 3. 00
|
||
ACP 45.90 83. REGION KEY (R EG ION,REFERENCE,EXPLANAT ION)
|
||
VV 2 40.00 72. A, AE2 , REGIONS A AND B ON DIFFERENT SCALES
|
||
U 20--
|
||
4069 ( S 11 ) 2 A 4.40 .47 NGC 6886 (PK NO. 60 -7 2)
|
||
4076 ( s 11 ) 2 A 4.40 .44
|
||
¿.nq? T II— _2 ACP— 2U 10 . 12-
|
||
1 A 17.00 28.
|
||
2 ACP 21.10 35. BEGIN NGC 6891 CPK NO. 54-12 P C = 0.22 (RADIO-H BETA)
|
||
-J PER 2-4. on
|
||
36.00 A WAVE IDENT N PG REF OBS I AVE O CORR I AVE C
|
||
4340 H I 40.00 3187 HE T 1 PG AKT 0.80 0.80 1.01 1.01
|
||
5-3-. 1Q 3613 -HE -L 1 .EG..AKI 0.40 0.40 OCT- 0-47
|
||
43.00 39.67 56.07 3634 HF I 1 PG AKI 0.90 0.90 1.06 L .06
|
||
36.00 39.67 56.07 3669 H I 1 PG AKI 0.90 0.90 1.05 1.05
|
||
4363 (O IIP 15.00 17.50 20. 24.37 3671 H I I PG AKI 0.70 0.70 0.82 0.82
|
||
ACP 53.10 73. 3673 H I 1 PG AKI 0.90 0.90 1.05 1.05
|
||
VV 2 20.00 17.50 27. 24.37 3676 H I I PG AKI 1.00 1.00 1. 17 1.17
|
||
4471 HE I 2.20 5.89 2. 7.68 3-679 . __H I— I PG AKT 1-QQ 1-17 1-1.7-
|
||
l ACP 9. 59 5. 89 12. 49 7.68 3682 l PG AKI 1.30 1.30 1. 52 1.52
|
||
I VV 2 20.00XA 26, 06XA 3686 1 PG AKI 1.40 1.40 1.64 I .64
|
||
454.1 HE I I 1 ACP 6.97 6.97 a. £1 3.67 3691 1 PG AKI i.aa.. 1-80 DO 2.10
|
||
4634 N III 4.20 3697 H I L PG AKI 2.60 3.04
|
||
ACP 6.00 3703 H T 2 PG AKI 3.90 4. 55
|
||
AW7O 0.36 3703 HE I 2 PG AKI 3.90 4.55
|
||
4.20 3712 1 PG AKI 3.40 3.96
|
||
ACP 6.00 .97 3721 2 PG AKI 3.80 4.42
|
||
AW7O 1.72 1.72 . oa 2.00 3721 _LS III ) 2 P-G-AKI 3.80 4.47
|
||
4649 II 3 AW70 0.26 (O T I ) 1 19.00 22. 10
|
||
4650 I IT 3 AW7C 0,26 1 PE AKI 20.30 23.62
|
||
4651 III 3 AW7Q 0.26 1 PG AKI . 12..8fl„ 14. 89
|
||
4657 AW70 0.27 1 1.57* 1.83*
|
||
4658 3 AW7 O 0.27 1 VV 2 24.60X 28.62X
|
||
4661 3 AW70 0.27 3729 (O II) 1 PG AKI 8. QQ -3Q
|
||
40.00 41.67 .05 46.93 1.00* 1.16*
|
||
ACP 37.00 41.67 .67 46.93 3734 i PG AKI 4.50 4.50 5.23 5.23
|
||
VV 2 48. 00 41.67 46.93 3750 1 PG AKT 5.30 5.3-Q _ít*_ _6 « 14—
|
||
4711 (AR IV ) 4. 00 ,43 3771 1 PG AKI 5.00 5.00 5. 78 5.78
|
||
ACP 10.60 ,73 3797 1 A 2.20 4.55 2. 53 5.24
|
||
4713 HE I ACP 10.60 ,72 1 PG AKI 6.90 4.55 7.95 5.24
|
||
4725 (NF IV ) 1 A W70 0.69 3819 1 PG AKI 2. 40 2.40 2.75 2.75
|
||
4740 (AR IV ) 1 A 4.00 6.63 3835 1 A 5.-20 7.07 5.95 8.09
|
||
1 9-25 100.00 100. 7.19 1 PE AKI .30 7-0-7 7-21 —8—
|
||
100.00 100.00 1 PG AKI 9.70 7.07 11.11 8.09
|
||
ACP 100.00 100.00 100. 100.00 1 73.00 51.30 83.18 58.45
|
||
COAL 100.00 100.00 loo*. 100.00 11 .Elf....AK I 39.9Q. 51.3Q 45.46 58.45
|
||
1 PER 100.00 100.00 100. 00 100.00 PG AKI 41.00 46.71
|
||
l VV 2 100.00 100.00 100, 00 100.00 VV 2 50. 10X 57.08X
|
||
HE I _1 AJLLC— 0.45 Q. 4-5_ a. 43 0.43 -I A_ . 23-.OQ
|
||
13.80
|
||
26-1?
|
||
15.67
|
||
4931 (C IIP 1 A W7 0 0. 11 0.11 0. 11 0. 2 PE AKI
|
||
4959 (C IIP 1 A 050.00 537.25 615. 19 508.48 2 PG AKI 20.30 23.06
|
||
1 ACP 493.00 537.25 466. 60 508.48 2 VV 2 -3P8PJL 36.12X
|
||
l PER 525.00 537.25 496. 89 508.48 3889 HE I 2 PE AKI 13.80 15.67
|
||
1 VV 2 481.00 537.25 455. 24 508.48 2 VV 2 3I.80X 36.12X
|
||
_1 A -LfrOfl.QQ- -L133.-QQ— -1473. -L3 1595.59 -3.922 _C LL_ I PG AKI 0.50 A 0-57 A
|
||
1 ACP 1345.00 1733.00 1238. 35 1595.59 3964 HE I 1 PG AKI 2.10 2.10 2. 2.36
|
||
l COAL 2455. 00 1733.00 2260. 34 1595.59 3967 (NE IIP 2 A 35.00 39.35
|
||
_J PFR 1 665. on J 733.00 1532. Ü8 1 595^.59 1 PG AKI 17.80 17.80 20.01 20.01
|
||
VV 2 1600.00 1733.00 l595.59 44.50X 50.03 X
|
||
5015 HE I AW70 0.41 0.41 0.38 35.00 39.35
|
||
5041 SI II _1 AHJQ n. in ÛD-0- 0.09
|
||
NGC 6891 (PK NO.
|
||
NGC 6886 (PK NO. 60 -7 2)
|
||
576
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
. N&L 6891 IPK ND. 54-12 BEGIN NGC 68S4 1PK NO. 69 -21) C = 0.70 (RADIO-H SETA)
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I
|
||
3967 _±l I 2 PE AKI 2Q.QQ ??-49 3726 (0 II ) 1 AKI 93.00 150.52
|
||
1 PG AKI 16. 70 18.78 18.78 150.00 242.77
|
||
2 VV 2 44.50X 50.03 X 3729 (0 II ) 1 AKI 93.00 150.31
|
||
3970 (NE III) 2 PE AKI 2Q.QQ 22.48 3868 (NE III) 1 AKI 59.00 69.37
|
||
4009 HF I 0.30 0.30 0.34 0.34 76.00 115.12 102.24
|
||
4026 HE 6.40 5.17 7. 14 5.76 3889 H I AKI 20.00 29.99
|
||
1 PG AKI 4. 10 5.17 4.57 -5.76- 3889 HE I AKT 20.00 29.99
|
||
l c 5.17 5.58 5.76 3967 (NE III) 2 AKI 34.00 49.36
|
||
4068 ( S II ) 1 PG AKI 0.80 0.89 0.89 3970 H I 2 AKI 34.00 49. 30
|
||
4076 IS XI L 1 PG AKI 0« 40 0.4-0. 0.44 0.44 ? M 38.00 55. 10
|
||
4097 III 2 PG AKI 0.80 0.88 3970 (NE III) 2 38.00 55. 10
|
||
4101 I 1 A 25.00 24.97 27.59 27.56 4101 H I 1 18.00 17.50 24.64 23.95
|
||
1 PE AKI 23.60 24.97 26.05 27.56 1_ -IIaJOQ. . I 7.50 ...23..27 _23.« 9J
|
||
1 PG AKI 25.30 24.97 27.92 27.56 4340 32.00 32.50 39.65 40.27
|
||
l C 26.00 24.97 28.70 27.56 33. 00 32.50 40. 89 40.27
|
||
_1 V-V 2 4C.90X 45.14X 4686 15.00 19.00 16. 15 20.45
|
||
4121 HE I 1 PG AKI 0.80 0.80 0.88 0.88 23.00 19.00 24.7b 20.45
|
||
4143 HE I l PG AKI 0.60 0.60 0.66 0.66 AKI 100.00 100.00 100.00 100.00
|
||
4267 _C LL_ 1 PG AKI l.QQ 1.08 . 2j»7Q— ,££AL , IQOj.Q.Q, 100.00 -IQ.Q.flQ LQÜ.QQ
|
||
1 4.00 2.50 4.32 2.70 100.00 I 00.00 100.00 100.00
|
||
t A 51.00 45.17 54.55 8.31 (G III ) 1 AKI 271.00 325.50 261.92 314.59
|
||
2 PE AKI 46.00 49.21 _L_ M 3BQ»QQ, -XX5.-5Q 367.26 314.59
|
||
1 PG AKI 41.50 45.17 44.39 48.31 5007 (G I II ) L AKI 875.00 1003.67 831.35 953.60
|
||
1 C 43.00 45.17 46.00 48.31 l COAL 1096.00 1003.67 1041.32 953.60
|
||
_j v.v ¿ 50.IPX 53.59X L_ _M_ 1 Q4Q..QQ XQ_Q3«jE¡.7. 988. 12 953.6Q
|
||
2 PE AKI 46.00 49.06
|
||
1 PG AKI 5.70 5.35 6.08 5.71 NGC 6894 (PK NO.
|
||
-J C 5.00 5.3.5-. 5.33 -5..7L-
|
||
1 VV 2 25.50X 27.20X
|
||
4387 HE I l PG AKI 1.00 1.06
|
||
_44 71 .HF I- 1 A 7.2.2 6.95 BEGIN NGi:...69a5 ( PK NQ. 61.-9 U C_=. Q.ll (RADIQ-H BETA)
|
||
1 PE AKI 7.60 7.22 8.00 7.61
|
||
1 PG AKI 6.70 7.22 7.05 7.61 WAVE IDENT N RG REF PBS I AVE 0 CORR I AVE C
|
||
8.00 7.2-2 -8.42— 7.61 3133 P III X Â 22.00 -22X3Q 24.76 24.76
|
||
l VV 2 23.6ÛXA 24.85XA 3203 HF I I 28.00 2 8. 00 31.36
|
||
4510 (K IV ) 1 PG AKI 0.40 A 0.42 A 3727 (0 II) 8.70 9. 38
|
||
- 4591 0 Li t PG AKI 0.52 20.90 22.54
|
||
4634 II 0.40 0.41 0.41 1 AC PG 38.80* 41.85*
|
||
4634 III 2. 50 2.58 3835 l ACPG 9.59* 10.26*
|
||
0. 70 0.72 -0.72 3868 _J à 52.00 61-47 55.51
|
||
4637 N III 2 C 3.00 3.09 AGP 77.40 61.47 82.62 65.61
|
||
4637 C I ll 2 C 3. 00 3.09 ACPG 125.00* 133.43*
|
||
4640 III -2 A— 2.50 2.5Z_ . 5 5.00 —58.71 .65.61
|
||
1 PG AKI 1.30 1.55 1.34 1.60 3 VV5 16.00* 17.08*
|
||
l AW70 1.80 1.55 1.85 1.60 2 ACPG 13.30* 14. 17*
|
||
-2 AW70 0-80 —0.82— 3 V V D5 1 6.OPT . 1 7. 0.5,t
|
||
2 PG AKI 0.40 0.41 3889 HE I 2 AC G 13. 30* 14. 17*
|
||
2 AW70 0. 80 0. 82 3 VV5 16.00* 17.05*
|
||
2 PG AKT 0.40 0.41. . 3967 (NE III) J â 22.QQ 22.00 23.33
|
||
4686 HE I I 1 VV 2 24.60X 25.18X 2 AGP 34. 10 36. 16
|
||
4711 (AR IV ) 2 PG AKI 2.00 2.04 2 ACPG 59.20* 62.77*
|
||
2 AW70 —2^X5— _2 VY5 6.40* 6.79»
|
||
2 C 3.00 3.06 2 ACP 34.10 36. 15
|
||
2 PG AKI 2. 00 2.04 2 ACPG 59.20* 62.76*
|
||
_2 AW-7 0 2.70 2.75 _2 a 26-QQ 27.56
|
||
2 C 3.00 3.06 VV5 6.40* 6.78*
|
||
l PG AKI 0.60 1. 17 0.61 1.19 3970 (NP III) M 26. 00 2 7.56
|
||
l AW70 0.30 1.17 0.91 1.19 4068 ( S II) ACPG 0.55* 0.58*
|
||
l C 2.00 1.17 2.03 1.19 4076 ( S II) ACPG 4.35* 4.58*
|
||
1 A 100.00 ICO.00 100.00 100.00 4097 N III AGP 32.00 33.63
|
||
1 PE AKI IQQ..QQ 100.00 100.OQ 100.00 4101 __H I 16.00 17.00 16. 81 X7..86..
|
||
1 PG AKI 100.00 ICO.00 100.00 100.00 2 ACP 32.00 33.62
|
||
C 100.00 100.00 100.00 100.00 1 ACPG 32.00* 33.62*
|
||
_I COAL 100.00 100.00 100.00 1-GXiPQ. _j a 18.QQ .18.9.1
|
||
7.56*
|
||
l VV 2 100.OOX 100.OOX 7.20*
|
||
l PG AKI 3.00 3.00 2.90 2.98 24.00 24.82
|
||
1 A W70 3.00 3.00 2.98 2.98 77.30 79.95
|
||
l C 3.00 3.00 2.98 2*98 66.80* 69.09*
|
||
4931 (0 III) 1 A W70 0.60 0.6 0 0.60 0.60 36.00 31.33 37. 23 32.41
|
||
4959 (0 III) 1 A 300.00 302.33 296.80 299.11 ORE 34» OQ 31.33 35. L6 32.41
|
||
1 PE AKI 293.00 302.33 289.88 299.11 ? VV5 15.00* 15.51*
|
||
1 PG AKI 314.00 302.33 310.65 299.11 (0 III) 2 ACP 77.30 79.83
|
||
1 VV 2 209.OOX 206. 77 X X ACJP-G 8«l16* 8.43».
|
||
830.00 785.65 816.76 773.11 M 12.00 9.50 12.39 9.81
|
||
1 COAL 741.30 785.65 729.47 773.11 l ORE 7. 00 9.50 7.23 9.81
|
||
1 VV 2 592.OOX 582.55 X .2 VV5 15.QQ* .15.49*
|
||
5015 HE I l A W7C 4.90 A 4.82 A HF I I 39.00 79.50 39.45 80.42
|
||
5047 HE I l AW7C 0.80 0.80 0.78 0.78 ACP 114.00 79.50 115.33 80.42
|
||
5191 (A9 HI) J AW7Q 0.08 0.08 Q. 08 0.08 _M 63.QQ ■ .79.XH . 63.7.3 .aa..42-
|
||
5 199 (NI ) 1 AW 70 0.20 1.60 0. 19 1.54 l ORE 102.00 103.19
|
||
1 C 3.00 1.60 2.88 1.54 l VV 5 16.00* 16. 19*
|
||
5270 (FE III) I AW7Ç 0.20 0.20 0. 19 0.19 .4711- (AR IV ) _2 PiLP.Q 13Q.-0Q» 131.£3*
|
||
1 AW70 0.50 0.47 4713 HE I 2 ACPG 130.00* 131.27*
|
||
1 VV 2 33.70X 31.66X 4861 H I 1 A 100.00 100.00 100.00 100.00
|
||
-5.517. (CL III) X 4HJ.Q . U1Q 1. LQ— 1.02 1.02 1 ACP 100.00 1 CO.00 100.00 XQQtQQ...
|
||
5537 (CL III) 1 AW70 0.80 0.80 0. 74 0.74 COAL 100.00 100.00 ICO.00 100.00
|
||
5802 C TV 1 C 7.00 7.00 6. 32 6.32 M 100.00 1 CO.00 100.00 100.00
|
||
5875 HE I J AW7C BB.flÜ- 3S.on 34, nq 31 .39 ORE 100.00 ■ 1QQ.QQ 1QQ.QQ LQÆ.QQ-
|
||
32.00 28.70 2 780.00 775.83
|
||
50.10X 44. 94 X 1 ACP 244.00 310.00 242.70 303.34
|
||
63QQ _LD I ) 1— Q.QQtA Q.OO*A _j a 37Q-JQ .310.00 368.Q2 . 308.34-
|
||
VV 2 44.50 44.50 38.40 38 .40 I ORE 316.00 314.31
|
||
l C 380.00 380.00 321.33 321.33 ? VV 5 180.00* 179.04*
|
||
_1 CAN I .00* 0.85* 5QQ7 IV III) _2_ 780.00 773.75
|
||
VV 2 178.OOX 150.52X 1 ACP 789.00 355.87 782.68 849.01
|
||
6563 (N IT ) 2 VV 2 178.OOX 150.52X 1 COAL 758.60 855.87 752.52 849.01
|
||
6583 (IX K ) x CAa . 0-03* -Q..Q3». _i a_ 1020.QQ 855.87 1011.83 84,9.01.
|
||
6678 HE I l C 16.00 16. 13.41 1 ORE 696.00 A 690.43 A
|
||
2 VV5 180.00* 178.56*
|
||
REGION KEY (REGIQN.REFERENCE,EXPLANAT ION) .5876 HE I., _L QRF -A »..00 A . 3.79 A
|
||
PE, AKI , PHOTOELECTRIC CBSFRVATIONS 6563 (N II) VV5 50.00* 45.98*
|
||
PG, AKI , PHOTCGRAPHIC OBSERVATIONS 6563 H I ORE 408.00 375.18 375.18
|
||
NGC 6891 (PK NO. NGC 6905 (PK NO.
|
||
|
||
577
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6905 (PK NO. NGC 7008 (PK NO. 93+ 5 2)
|
||
N RG REF OBS I CORR T WAVE IOENT N RG REF OBS I AVE CORR I AVE C
|
||
_2 ÿ.^£- 50.QQ* 45.98* - 4340 H I 1 HB AC PG 4L.7Q- -19.26 .51.04 48.05
|
||
6717 <S ) l A E2 0.84* 0. 77* 1 LB ACPG 38.70 39.26 47.37 48.05
|
||
6730 (S ) 1 AE2 1.00* 0.91* 1 A AS 37.00 39.26 45.29 48.05
|
||
_l_ë as_ A3-« QJL- 39.26 52.63 -Aa*Q5
|
||
NGC 6905 (PK NO. 61 -9 1) 1 1 C 36.00 39.26 44.06 48.05
|
||
1 2 C 37.00 39.26 45.29 48.05
|
||
-J 3 r. 36.00 19.26 44.06
|
||
4 C 35.00 39.26 42.84 48.05
|
||
BEGIN NGC 7009 (PK NO. 93+ 52) C = 0.66 (RAOIO-H BETA) C 36.00 39.26 44.06 48.05
|
||
54.00 39.26 -66.10 48.05
|
||
WAVE IDFNT N RG REF ORS I AVE Q CORR I AVE C 1 MI 73 36. 30 44.43
|
||
3133 0 III l AV ACPG 376.00 198.80 763.50 403.68 1 ORF 22.00 26.93
|
||
1 HB ACPG 21.60 198.80 43. 86 403.68 4363 HI ) _2 ACP 5.4« 90 -69.04
|
||
1 AV ACPG 255.00 98. 00 503.00 193.31 1 AV ACPG 5.90 11.54 7. 16 14.00
|
||
1 HB ACPG 16.00 98.00 31.56 193.31 l HB ACPG .70 11.54 10.56 14.00
|
||
_B â_S__ 73.00 98.00 45.37 193.31 -1 LU ACPG 5.90 11.54 7. 16 14.00
|
||
3312 G III l AV ACPG 22.10 13.40 41. 30 25.04 AS 7.90 11.54 9.59 14.00
|
||
1 HB ACPG 4.70 13.40 8.78 25.04 AS 10.00 11.54 12.13 14.00
|
||
3341 G III 1 AV ACPG 25.70 16.40 47. 39 30.24 _2_C 16.00 11.54 -19« 41 14.QQ
|
||
HP ACPG 7. 10 16.40 13.09 30.24 3 C 13.00 11.54 15.77 14.00
|
||
3346 ( NF V ) 1 AV ACPG 24.00 24.00 44. 16 44.16 4C 16.00 11.54 19.41 14.00
|
||
142S_ Q LU 1 AV ACPG 71.50 -J-1.5Q 126.83 176.83 22.00 11.54 -26.69 14.QQ
|
||
1 AV ACPG 35. 50 24. 85 62. 59 43.81 1 M 10.00 12.13
|
||
l HB ACPG 14.20 24.85 25.03 43.81 1 ORF 7.00 8.49
|
||
3-712 _H L- 1 HB ACPG L» 1Q— 1.10 1.J4 . 1.74 —N LU. -1 AV ACPG
|
||
3722 H I 2 AV ACPG 14.90 23.50 4471 WHE II 1 4 C 8.00 8.00 9.34 9.34
|
||
HP ACPG 0.80 1.26 4471 E I 1 HB ACPG 3.70 6.58 4.32 7.68
|
||
3-722, _LS LULL ? AV ACPG 14.90 73.50 1 LB ACPG L.1Q- 6.58 8.79 7«6ti
|
||
2 HB ACPG 0.80 1.26 1 A AS 7.80 6.58 9. 10 7.68
|
||
l ACP 22.90 36.06 1 B AS 4.30 6.58 5.02 7.68
|
||
1 AV ACPG 2.75 . _ 4^33- _1 2 C i o-nn
|
||
l HB ACPG 9.80 15.43 HE I I 1 AV ACPG 3.40 5.82 3. 86 6.61
|
||
1 LP ACPG 41.20 64.87 1 HB ACPG 1.70 5.82 1.93 6.61
|
||
1 A Ai 56.00 88. 17 -J 2—C 7. nn
|
||
13.00 20.47 1 3C 9.00 5. 82 10.22 6.61
|
||
10.00 15.75 1 4 C 8.00 5.82 9.09 6.61
|
||
in I I ) 1 HR ACPG .80 SU? B— ! HR ACPG -2. 10 2-.3Q
|
||
AS 6.40 10.06 N II! 2 1C 9.00 9.83
|
||
L AV ACPG 2.70 1.80 4.24 2.82 2 2 C 10.00 10.93
|
||
1 HB ACPG -Q. 90- _ l./LQ U41— -2-. 8-2— -2 3 C —Z. 00-
|
||
1 AV ACPG 3. 10 2.10 4.83 3.27 C III 2 1 C 9.00 9.83
|
||
1 HR ACPG 1. 10 2.10 1.71 3.27 2 2 C 10.00 10.93
|
||
1 AV ACPG 2.85 2.85 4.43 -4-.A3- -2 3 C 7. 00 —7.65
|
||
P III 1 AV ACPG 6. 10 3.75 9.47 5.82 1 AV ACPG 3. 19 3.74 3.48 4.09
|
||
1 HR ACPG 1.40 3.75 2. 17 5.82 1 HB ACPG 4.30 3.74 4.69 4.09
|
||
—H I 1 H-R A-C-P-G— -0 U_ 1 AV A r P G
|
||
l AV ACPG 3.95 3.78 6.03 5.78 ACP 74.90 82.90 80.28 88.85
|
||
I HP ACPG 3.00 4. 58 5.78 1 AV ACPG 111.47
|
||
1 L-B AX-P-G— 4.
|
||
3.78
|
||
- 3.X8 ■ .73- 1 hr appî; 104.00 64.80
|
||
82.90
|
||
82-90 69.A5
|
||
88.85
|
||
88.85
|
||
3819 HP I l HB ACPG 1.30 1.30 1.97 1.97 l LB ACPG 10.00 82.90 10.72 .85
|
||
3835 H I l AV ACPG 6.60 5.53 9.91 8.31 1 A AS 11.00 82.90 11. 79 .85
|
||
1 HP ACPG 5.20 8.31 .. 67.QQ
|
||
1 LP ACPG 4. 80 5.53 7.21 8.31 1 C 115.00 82.90 123.26 88.85
|
||
l ACP 56. 50 96.47 83.57 142.70 2 C 122.00 82.90 130.76 88.85
|
||
1 AV AT PG 58.40. .96.4-7 86. 38 142.70 _a_ . 1L1.QCL. £2.90 n 8.97 88.85
|
||
I HR ACP C 78.90 96.47 116.71 142.70 C 80.00 82.90 85.75 88.85
|
||
l LB ACPG 79.50 96.47 117.59 142.70 5C 88.00 82.90 94.32 88.85
|
||
1 A AS 112.00 96.47 165.67 142.70 M 94.00 82.90 100.75 88.85
|
||
l B AS 150.00 96.47 221.87 142.70 ORF 136.00 82.90 145.77 88.85
|
||
1 V 140.00 96.47 207.08 142.70 ACP 11.40 12. 10
|
||
_t! L_ 7 AV ACPG 13.90 70.36 AV ACPG 10.-53
|
||
2 HP ACPG 12.60 18.46 1 HB ACPG . 10 7.53 7.53
|
||
? LP ACPG 19.30 28.28 2 1 C 12.00 12. 73
|
||
HE I .2 AV ACPG _ 13.9Q 2(U36 - _2 2 C 16. QQ 16.98
|
||
2 HB ACPG 12.60 18.46 2 3 15.00 15.92
|
||
2 LB ACPG 19. 30 28.28 2 4 C 10. 00 10.61
|
||
UNE I1IJL _2 A-CP 18.30- 26.01 _2 5 C 15.QQ 15.92
|
||
1 AV ACPG 77.00 38.37 3 ACP 1 1.40 12.09
|
||
1 HP ACPG 31.30 32.82 44.48 46.65 2 AV ACPG 9.92 10. 52
|
||
1 LB ACPG 36.00 51.16 46.65 1 HB ACPG 1.80 1.91
|
||
1 AS 35. 00 32.82 49. 74 46.65 1 12.00 12.73
|
||
1 B AS 29.00 32.R2 41.21 46.65 2 C 16.00 16.97
|
||
_2_ ACP 18.20- 25.98 3 C 15.00 -15.S1
|
||
l HB ACPG 9.70 9.65 13.77 13.70 2 4 C 10.00 10.61
|
||
L« ACPG 9. 60 9.65 13.63 13.70 2 5 C 15.00 15.91
|
||
46-00 65_. 30— (AR IV ) 3 AC.P IL. 40 11.95
|
||
3970 (NE HT) 46. 00 65.30 1 AV ACPG 6.93 8.86 7.27 9.29
|
||
4026 HE I 1 HB ACPG 1.80 2. 10 2.50 2.91 1 HB ACPG 5. 50 8.86 5. 77 9.29
|
||
11 AV
|
||
LB ACPG 2.40 2.10 3.33 _2.9-L IBAS 6.60 8.86 6>S2- .29
|
||
ACPG 4. 79 3.04 6.53 4.15 1 1 C 11.00 8.86 11.53 9.29
|
||
1 HB ACPG
|
||
p 1.30 3.04 1.77 4.15 1 2 C 13.00 8.86 13.63 9.29
|
||
4Q76. Ui LJ L 11 HP AV A£ -JmÙA. 2.68 4.97 3.64 8.86
|
||
ACPG-G_ 1. 70 2.31 _1 3 .C—
|
||
l 4C
|
||
11.QQ
|
||
8. 00 8.86
|
||
11.53
|
||
8.39
|
||
__2*23—
|
||
9.29
|
||
2 ACP 33.60 45.25 1 ACP 100.00 100.00 100.00 100.00
|
||
1 AV ACPG .1 AV ACPG 100.00 ,-LQQ. QQ 1QQ.QQ . 10Û* QQ.
|
||
1 HR ACPG 1.70 2.29 1.89 1 HB ACPG 100.00 100.00 100.00 100.00
|
||
2 ACP 3 3.60 45. 17 l LB ACPG 100.00 100.00 100.00 100.00
|
||
1 AV ÆCPi- 24.60 33.07 _L_â âü 100.00 1 00.00 100.00 1Q0.00
|
||
HB ACPG 21.90 24.63 29.44 33.11 100.00 100.00 100.00 100.00
|
||
1 LB ACPG 20.80 24.63 27.96 33.11 1 C 100.00 100.00 100.00 100.00
|
||
1 A Ai 23. 00 24.63 30.92 33.11 2 C IQQ.f QQ 100.00 100.00 100.00
|
||
AS 20.00 24.63 26.89 33.11 C 100.00 100.00 100.00 100.00
|
||
1 C 29.00 24.63 38.99 33.11 C 100.00 100.00 100.00 100.00
|
||
2 C 30. 00 .¿4,63 40. 33 33.LL CQAL. IQfl.QQ LQQ*QQ LQQ*DQ 1 QQ.QQ
|
||
27.00 24.63 36.30 33.11 100.00 100.00 100.00 100.00
|
||
22.00 24.63 29.58 33.11 MI 73 100.00 100.00 100.00 100.00
|
||
2 8. QQ .24«_£3 37.64 33.11 ORF 1QQ.Q0 100.00 100.00 ifla.QQ-
|
||
4200 HE I I 1 HB ACPG 1.20 1.20 1.55 1.55 (0 III) l ACP 306.00 302.27 296.32 292.71
|
||
4227 ( FE V ) 1 AV ACPG 2.77 2.77 3. 54 3.54 1 AV ACPG 243.00 302.27 235.31 292.71
|
||
—426J— C I I 1 AV ACP-G— 3jl 3.30 4. 15 4.15 1 HB ACPG 404.00 -3jQ2-^ZJ _391.22 292.71
|
||
2 ACP 56.90 69.65 1 LB ACPG 436.00 302.27 422.21 292.71
|
||
1 AV ACPG 40.40 49.45 l A AS 379.00 302.27 367.01 292.71
|
||
NGC 7008 (PK NO. NGC 7008 (PK NO. 93+ 5 21
|
||
578
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7QQB (PK.NCL 931 5—Zl. NGC 7Q09 LPK-.ND, 37-34 1)
|
||
WAVE IDENT N RG REF OBS AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4959 _LQ III I 1. & LS 3Q9.QQ 302,27 299-23 297-71 3475.57 INF V _J C A41 1.10 I, 1Q 1.28 1.28
|
||
1 C 215.00 302.27 208.20 292.71 KOS 12.00X 13.92X
|
||
2C 200.00 302.Zl 193.67 292.71 3425.57 0 2 AKl 0.05 0.06
|
||
JL 3 C 175.00 302.27... 169-..46.- 292-71 342 7 0 KA 0.05 0.06
|
||
1 340.00 302.27 329.24 292.71 3428.70 0 III l AKl 1.20 1.20 1.39 1.39
|
||
1 ORF 318.00 302.27 307.94 292.71 3430.55 D III 1 AKl 0.21 0.21 0.24 0.24
|
||
5007 _LQ HI) 1 AÇP 979.00 816.85 932.88 778.38 3438.35 NE II _2 AKl 0.08
|
||
AV ACPG 666.00 816.85 634.63 778.38 3438.35 AR II 2 AKl 0.07
|
||
HB ACPG 1175.00 816.85 1119.65 778.38 3440.32 0 III 1 AKl 0.08 0.08 0.09 0.09
|
||
LB ACPG 1136.00 816.85 1Q82.49 778.38 3442.00 NE II 1 AKl 0. 06 0.06 0.07 0.07
|
||
AS 900.00 816.85 857.61 778.38 3444.00 0 III 1 AKl 5.25 4.97 5.76
|
||
AS 700.00 816.85 667.03 778.38 1 C A41 4.70 4.97 5.44 5.76
|
||
1 C 625.00 816,85.. 59.5,56 778.38 _1 KOS 15.00X 17.36X
|
||
2 C 620.00 816.85 590.79 778.38 3447.59 HE I AKl 0.13 0. 13 0.15
|
||
3 C 500.00 816.85 476.45 778.38 3453.20 HE I 1 KA 0.03 0.03 0.03 0.03
|
||
COAL- 724.40 816.85 690.?8 778.38 3456.80 HE I 1 KA 0.03 0.03 0.03 0.03
|
||
960.00 914.78 3461.00 0.03 0.03 0.03
|
||
ORF 991.00 944.32 3463 0.04 0.04 0.05 0.05
|
||
HE II X_£ 24.00 21,25 19.90 17.62 3464.21 0.02 .02 0.02 0.02
|
||
2 C 26.00 21.25 21.56 17.62 3466.04 HE I AKl 0.05 0.05 0.06
|
||
3C 23.00 21.25 19.07 17.62 3472.00 HE I AKl 0.03 0.03 0.03 0.03
|
||
5C 12 ■ Q.Q 21.25 9.95 17.62 3478.95 AKl 0.06 0- 06 0-07 0.07
|
||
5517 (CL III) 1 A AE2 1•30*A 1•04*A 3480.80 NF II AKl 0.04 0.04 0.05
|
||
5537 (CL III ) l A AE2 1.00* 0.80* 3487.77 HE I AKl 0.02 0.02 0.02 0.02
|
||
5876 HE I _J L_£L_ 28.00 29.25 2Q.21 21.11 3495.30 KA Q.Q4 0.04 . a,.Q5_ Q.Q5
|
||
30.00 29.2 5 21.65 21.11 3498.70 AKl 0.07 0.07 0.08
|
||
32.00 29.25 23.09 21.11 3 504 AKl 0.05 0.05 0.06
|
||
7 7- no 79.7 5 21.11 3517-51 AKl 0- flA n. n¿> n.Q7
|
||
1 C 600.00 613.86 362.78 371.15 3530.58 HE I 1 AKl 0. 14 0. 14 0. 16 0.16
|
||
2 C 603.00 613.86 364.59 371.15 3542.50 NF I I 1 KA 0.03 0.03 0.03 0.03
|
||
3C 646.00 613.86 390,59_ 371.15 3545 _Q KA 0.04 0.04 0.05..- 0.04
|
||
4 C 592.00 613.86 357.94 371.15 3554.55 HE I l AKl 0.17 0. 1 7 0. 19 0.19
|
||
5C 605.00 613.86 365.80 371.15 3558.30 NE I I l KA 0.03 0.03 0.03 0.03
|
||
440-no 613.86 371.15 3461.00 NF IT -J KA 0.03 0.03 Q-Q.3- 0-03
|
||
ORF 811.00 490.35 3566 0 KA 0.03 0.Û3 0.03 0.03
|
||
6717 ( S II ) 1 B AE2 0.90* 0.53* 3568.62 NE II 1 AKl 0. 12 0.12 0. 14 0.14
|
||
6730 (S II ) 1 R A F7 1-00* 0.58» 3474.79 NF II _1 AKl 0.03 0.03 0.03- 0.03
|
||
3578 AKl 0.02 0.02 0.02
|
||
REGION KEY (REG ION,REFERENCE,EX PL ANAT ION) 3583 AKl 0.03 0.03 0.02*
|
||
AV. ACPG. AVERAGE 3587.36 AKl 0.23 0.23 0.26 ■
|
||
HB, ACPG, HIGH EXCITATION BLOB 3599.70 HE I 2 KA 0.04 0.05
|
||
LB, AC°G, LOW EXCITATION BLOB 3599.70 HE I 2 KA 0.04 0.05
|
||
A, AF2 . REGIONS A AND B ON DIFFERENT SCALES -3601 _0 KA. - 0.05 0.06
|
||
AS DISTANT KNOT 3613.70 HE I AKl 0. 17 0. 17 0. 19 0.19
|
||
AS KNOT NEAP STAR 3634.35 HE I AKl 0.40 0.40 0.45 0.45
|
||
EAST SIDE OF RING 3648.90 _0 TIT -0^0-3.. ■ -ÛU13- Q. 03 0.03
|
||
2, C WEST SIDE OF RING 3657.59 2 AKl 0.24 0.27
|
||
3, C CUTER HALO WEST OF STAR 3657.59 2 AKl 0. 24 0.27
|
||
6, C NORTH...SI PE OF RING 3658.BI _J AK.l . ..a-23 0.26
|
||
C * SOUTH SIDE OF RING 3659.28 AKl 0.22 0.22 0.25 0.25
|
||
3660.22 AKl 0. 21 0.21 0.24 0.24
|
||
NOr. 7008 (PK NO. 933 5 3 441 - ? 4 -J AKl 0.21 0.21 0.24 0.24
|
||
3662.29 1 AKl 0.24 0.24 0.27 0.27
|
||
3663.40 l AKl 0.0 0. 0 0.0 0.0
|
||
3444-48 1 AKl 0-77 0-77 0.31 0.31
|
||
BEGIN NGC 7009 (PK NO. 37-34 11 C = 0.17 (RADIO-H BETA) 3665.93 AKl 0.27 0.27 0.31 0.31
|
||
3667.52 AKl 0.32 0.32 0. 36 0.36
|
||
WAVE IDENT N RG REF OBS I AVE C CORR I AVE C 3669 AKl 0. 31 0.31 0. 35 0.35
|
||
3121.71 0 III l AKl 0. 84 0.84 1.01 1.01 3671.32 AKl 0.38 0.38 0.43 0.43
|
||
3132.87 0 III l AKl 9.50 10.90 11.40 13.08 3673.61 AKl 0.42 0.42 0.47 0.47
|
||
i r a 41 17-30 1 0-90 14. 76 13.08 3676.75 AKl 0.46 0. 46 0. 47 0.57
|
||
3187.74 HE I AKl 1.50 1.80 1.79 2.15 3679.25 l AKl 0.49 0.49 0.55 0.55
|
||
1 C A4I 2.10 1.80 2.51 2.15 3682.74 l AKl 0.60 0.6 0 0.68 0.68
|
||
—3-20.3.10 HF II L AK.L. 3.00 3.-Q-5— 3..5J- 3.63 3686.86 _1 AKl Q «68 0.68 Q. 77 0.77
|
||
3.10 3.69 3691.49 l AKl 0.82 0. 82 0.93
|
||
3218.30 G 0.05 0.06 3694.17 NF I I 1 AKl 0.31 0.37 0.42 0.42
|
||
3218.30 NE II 0-05 0-06 ■3.6-91..1 1- H I _1 AKl 0.99 0.99 1,12. 1.12
|
||
3260.98 0 III l AKl 0.16 0.16 0.19 0.19 3698.90 C III L KA 0.04 0.04 0.05
|
||
3263.43 NE II l AKl 0. 15 0.15 0. 18 0.18 3702.82 0 I II 1 AKl 0.33 0. 33 0.37 0.37
|
||
3265.46 _Q LLL _1 AK1_ 0. 11 0.11 .13 0.13 3703.82 _H I A AKl -1.17 1.17 1,32- 1,32-
|
||
3267.31 III 1 AKl 0.06 0.06 0.07 0.07 3705.02 HE I AKl 0.70 0. 70 0.79
|
||
3299.36 III l AKl 0.91 0.91 1.07 1.07 3707.23 0 III AKl 0.33 0.33 0. 37 0.37
|
||
3305.15 II J AKl 0.05 0.05 0.06 0.06 3709.67 n in AKl 0.08
|
||
3306.60 II 1 AKl 0.06 0.06 0.07 0.07 3709.67 NE I I AKl 0.07
|
||
3312.30 1 II 1 AKl 2. 12 2.8 l 2.49 3.30 3709.67 AR I I AKl 0.07 0.08
|
||
-1 C A41 3.50 2.81 .11 3.30 3710.50 _S LLL 0.04 0.05
|
||
3323.90 NE II 0.08 0.08 0.09 0.09 3711.92 l AKl 1.27 1.27 1.43
|
||
3329.20 NE II 0.08 0.0 8 O. 09 0.09 3713.04 NF I I 1 AKl 0.24 0.24 0.27 0.27
|
||
3331.00 N 11 0.09 0.09 P. o.ll 3714.04 _e LLL 1 AKl 0.22 0.22 l 0.2? 0.25
|
||
3334.87 NE II 1 AKl 0.28 0.28 0.33 3715.15 III 0.30 0.30 0.34
|
||
3340.74 0 III 1 AKl 2.82 2.82 3.30 3717.80 III 0.04 0.04 0.05 0.05
|
||
3 C A41 3.60 4.22 3721.90 _J AKl 2.32 2.32 2.61 2.61
|
||
3 KOS 15.00X 17.56X 3726.01 (O II ) 1 AKl 8.48
|
||
3342.50 (NF III) l AKl 0. 18 0.21 I AN A41 180.00 202.33
|
||
3 C A41 3.60 4.21 i C A41 16.60 18.66
|
||
3 KOS 15.00X 17.56X AUV 1.00* 1.12*
|
||
3 C A41 3.60 4.21 LA 18.50 20. 79
|
||
3 KOS 15.OOX 17.55X OPC 1 5.40 17.31
|
||
3354.00 N I II 0.05 0.06 0.06 l PTP 15.90
|
||
3354.92 HE I AKl 0. 18 0. 21 1 VV 2 8.90 10.00
|
||
3354.92 NE II AKl 0.18 0.21 3728.73 (G II ) AKl 5-61 6.30
|
||
3367.00 0 I I l AKl 0. 10 0. 10 0.12 0.12 AUV 0.51*
|
||
3399.80 (FE V ) 1 AKl 0.05 0.05 0.06 0.06 3730.85 HE I AKl 0.02 0.02 0.02 0.02
|
||
3405.74 0 III 1 AKl 0.14 0.14 0. 16 0.16 373-2,60 HF I AKl .0,09 Q.Q9 0. 10 0.10
|
||
3408.13 1 AKl 0.08 0.09 3734.39 H I 1 AKl 1.94 1.94 2.18
|
||
3411.84 IV 2 AKl 0.05 0.06 3736.62 0 TV 1 AKl 0.02 0.02 0.02 0.02
|
||
3411.84 NE II _2 AKL 0.05 0.06 3740.24 0 II _1 AKL .06 -Q..Q6 0.0.7 Q.m-DSL-
|
||
3414. NE II AKl 0.18 0.21 3745.83 HE I 0. 03 0.03 0.03
|
||
3414.80 0 III AKl 0. 18 0.21 3748 HE IT 0.04 0.04 0.04 0.04
|
||
3417.71 NE II 1 AKl 0.07 . 0.08 . _Q-<_Q8_ 3750,14 H I 2.43 2.91 2.72 3.27
|
||
3423 0.06 0.07 LA 3.40 3. 81
|
||
3425.57 0.05 0.06 AKl 0.52
|
||
NGC 7009 (PK NO. 37-34 1) NGC 7009 (PK NO.
|
||
|
||
579
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7QQ9 Í PK NO. 37-34 1) NGC 7009 (PK NO. 37-34 1)
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF □ BS I AVE 0 CORR I AVE C
|
||
.-3.754.5 Q _Q LLI_ AM- —Ü^52..- Q..58- 3959 _Q KA Q» 03 . 0.03 0.03 —0.03
|
||
3755.90 HF I 1 KA 0.04 0.04 0.04 0.04 3964.79 HF I 1 AK1 0.66 0.72
|
||
3757.33 0 III l AK 1 0.33 0.33 0.37 0.37 3967.40 (NE III) 2 AKl 47.50 52.00
|
||
3759.93 ni_ _L aki_ -Lr.5-4 . -1.54.. —L..72 1.72 2 AN A4I —40. 00.. 43.79
|
||
3762.40 0 I I 2 AKl 0.10 0.11 2 C A41 39.50 43.24
|
||
3762.40 SI IV 2 AKl 0.10 0. 11 2 ACP 28.30 30.98
|
||
3766.49 NE II _1 AK.1 - 0.-06 . 0.0.6 -0. 07 QæJLÏ... _2 LA 48.40 -52.99
|
||
1 AKl 3.38 3.59 3.78 4.02 2 OPC 40.00 43.79
|
||
1 LA 3.80 3.59 4.25 4.02 2 VV 2 47.40 51.89
|
||
3773.08 SI IV _J AKl 0« 07 0.0 7 0. 08 0.08 3970.00 H T _2 A-Kl 47.50 52.00
|
||
3774.13 UI 1 AKl 0. 20 0.20 0.22 0.22 2 AN A41 40.00 43.79
|
||
3777.16 NE I I 1 AKl 0.07 0.07 0.08 0.08 2 C A41 39.50 43.24
|
||
3779.50 N III 1 KA 0.03 0.03 0.03 0.03 -2 ACP 28.30 30.98
|
||
3780 0.03 0.03 0.03 0.03 2 CB AE 43.00 47.07
|
||
3781.80 HE II 0. 07 0.07 0.08 0.08 2 WA AE 52.00X 56.93X
|
||
3783.80 (FE V ) 0.03 0.03 0.03 0.03 2 WE AE 45.QQX 49.26X
|
||
3784.91 I I AKl 0.04 0.04 0.04 0.04 2 LA 48.40 52.99
|
||
3791.42 I II 1 AKl 0.33 0.33 0.37 0.37 2 OPC 40.00 43.79
|
||
3792.70 UI... 1 KA Q.Q3 Q. 03 0 «03 _2 2 47.40 51.89
|
||
3795.20 (FF V ) l KA 0.05 0.05 0.06 0.06 2 CB AE 43. 00 47.07
|
||
3796.36 HF I I 1 AKl 0. 10 0.10 0. 11 0.11 WA AE 52.00X 56.93X
|
||
3797.93 _H I J AKl 4.28 4.77 5.29 WE AE 45.Q0X 49.26X
|
||
LA 5.20 4. 74 5.80 5.29 3973.16 G II 1 AKl 0.06 0.06 0.07 0.07
|
||
3805.96 HF I 1 AKl 0.05 0. 05 0,06 0.06 3974 0 KA 0.03 0.03 0.03 0.03
|
||
3811.08 _Q LU- _J AKl . - Q. 03 Q« 03 Q. 03... 0. Q3. 3976.77 G TV _1 AKl Q. Ql 0.01 -Q.Q1 0-01
|
||
3813.59 AKl 0. 11 0.11 0. 12 0.12 3979 0 AKl 0.02 0.02 0.02 0.02
|
||
3819.66 AKl 1.12 1.12 1.25 l .25 3982.96 O II 1 AKl 0.02 0.02 0.02 0.02
|
||
3826.93 AKl 0-02 -0.02 . 0-02 -Q..Q2-. 3986.1 9 S III J AJLL— 0.03 0.03 -0.03
|
||
3829.38 MG I 1 AKl 0.03 0.03 0.03 0.03 3993 0 AKl 0.03 0.03 0.03 0.03
|
||
3831.74 S III 1 AKl 0.04 0.04 0.04 0.04 3995.04 N II 1 AKl 0.02 0.02 0.02 0.02
|
||
3833.77 HF I _2 AKl- Q. 19 0.21 3997.15 (F LV—L J AKl 0.02 0.02
|
||
3833.77 HF I I 2 AKl 0.19 0. 21 3998 AKl 0.04 0.04 0.04 0.04
|
||
3835.43 H I 1 AKl 6.15 7.01 6.83 7.78 4001 AKl 0.02 0.02 0.02 0.02
|
||
1 CB-AE 7.60 7.01 -.&^44. 7.78 . 4QQ3.62 N I IT -AKl 0.07
|
||
1 LA 8.80 7.01 9.77 7.78 400 5 0.03 0.03 0.03 0.03
|
||
1 OPC 5.90 7.01 6.55 7.78 4009.31 HE I AKl 0.22 0.22 0.24 0.24
|
||
1 PT P 6.60 -2.0-1.. 7. 33 7.78 ■ 4026.15 LLE I— ■ AKl
|
||
3838.23 HF M I 2 AKl 0.09 0.10 l- C A41 1.40 2.95 1.52 3.21
|
||
3838.23 G I 2 AKl 0.09 0. 10 1 CB AE 2.40 2.95 2.61 3.21
|
||
3843.00 M U_ _I K-A 0.02 0.02 —1 WA AE
|
||
3848.00 II 1 KA 0.03 0.03 LA 3.10 3.37
|
||
3851.10 TI 2 AKl 0.05 0.06 PTP 2.34 2.55 A
|
||
3851.10 U -2 A-K-i— 0.05 -0.06 -3.21
|
||
3852.90 S I I 1 AKl 0.03 0.03 0.03 0.03 4035.08 Q 1 AKl 0.06 0.07 0.07
|
||
3855.90 SI II l AKl 0. 10 0. 10 0. 11 0.11 4041.41 N 2 AKl 0. 11 0. 12
|
||
3858.04 .HF II AKl . 14 0. 14 n. 16 0.16 4041.41 P _2 AKl Q. 11
|
||
3858.04 HE I I 1 AKl 0. 14 0. 14 0. 16 0.16 4043.57 N II 1 AKl 0.04 0.04 0.04 0.04
|
||
3860.60 s m l KA 0.04 0.04 0.04 0.04 4054.50 O II 1 KA 0.02 0.02 0.02 0.02
|
||
3862.57 SI II J AKl 0.12 .12 o>13 0.13 -.4056.03 C III -J AKl 0.07 -0.02 Q. 02 . 0.02
|
||
3864.60 0 I I 2 KA 0.04 0.04 4060.80 (F IV ) 3 AKl 0.04 0. 04
|
||
3864.60 0 I I 2 KA 0.04 0.04 4060.80 G II 3 AKl 0.04 0.04
|
||
3866 -0 AKl . -0^0 -Q-.-Q 4Q6Q.8Q Q LI 3 AKl Q.Q4 Q. 04
|
||
3868.63 (NF I II 1 l AKl 100.00 101.01 110.61 111.73 4062.91 O II 2 AKl 0.05 0.05
|
||
l AN A 41 110.00 101.01 121.67 111.73 4062.91 NF II 2 AKl 0.05 0.05
|
||
-3 C A4 1. —98. 50 108.95 4068.37 (S I T > J AKl - Q.67 -Q.73
|
||
1 ACP 108.00 101.01 119.46 111.73 l CB AE 2. 50 2.71
|
||
1 CB AF 101.00 101.01 111.72 111.73 l WA AE 7.00XA 7.58XA
|
||
1 WA AE 120.OOX 132. 73 X 1 WE AE 4.OOX 4. 33X
|
||
1 WE AE 95.00X 105.08X 4069.96 G I I 2 AKl 0.53 0.57
|
||
l LA 99.30 101.01 109.84 111.73 4069.96 0 I I 2 AKl 0. 53 0. 57
|
||
_! QPC 80.70 101-01 89.76 111.73 4072 (S JJ- } _l LA_ 2. 50 -Z..5Q 2.71 -2-. 71
|
||
l PTP 98.00 101.01 108.40 111.73 PTP 1.05 A l. 14 A
|
||
l VV 2 111.10 101.01 122.89 111.73 4072. II AKl 0.44 0.44 0.48 0.48
|
||
3870 _Q 4JU Q. 16 Q. 16 0. 18 0-1 8 _*lQ7Aj -III AKl Q.Q6 0.06 Q« 06 0-06
|
||
3871.73 HF I l AKl 0.08 0.08 0.09 0.09 4075. 94 G I I 2 AKl 0.58 0.63
|
||
3875.3C 0 T I 1 KA 0.03 0. 03 0.03 0.03 4075, 94 (S II ) 2 AKl 0. 58 0.63
|
||
_ L2J.82.i9 LL _2 AKl . HaLL . -0.11 0. 12 0.12 .4080. iO Q_ III 1 AKl 0.07 0.08
|
||
3888.79 2 AKl 18.90 20.85 4081, II l AKl 0.03 0.03 0.03 0.03
|
||
2 AN A 41 20. 00 22.07 4083. II 1 AKl 0.14 0.14 0. 15 0.15
|
||
3 C A 4-1 _ 98.50 .JLaa. 68 -Æ0-8.5. 24 Q_ -H.. l AKl 0.1^ 0.14 _Qi_L5_ -Q.15
|
||
2 WA AE 25.OOX 27.58 X 4087. 19 1 AKl 0. 14 0. 15
|
||
2 WE AE 7.OOX 7.72X 4089. 1 8 2 AKl 0.30 0.32
|
||
_2 LA_ .18*40 20.30 4089. U SI_ _2 AKl t 30 _Q-fL-32
|
||
1 ÜPC 16. 00 17.65 17.65 4092. II AKl 0.09 0. 10
|
||
2 VV 2 23.70 26. 15 4097. III 3 AKl 1.94 2.09
|
||
3888.79 HE I 2 AKl 18.90 -2Pt95 -2 C A41 24.90 26.88
|
||
2 AN A41 20.00 22.07 4097.25 G II AKl 1.94 2.09
|
||
3 C A41 98.50 108.68 4097.25 O II AKl 1.94 2.09
|
||
2 WA AE 25.OOX 27.58X 4101.67 H I _1 AKl -26.50 25.61 28.60 _2J-»6^
|
||
2 WE AE 7.OOX 7.72 X 1 AN A41 20.00 21.58 27.64
|
||
2 LA 18. 40 20.30 C A41 24.90 26.87
|
||
2 W 2 23.70 26.15 _L.C3 AE —¿2« 7Q 25,61 29.89 27.64
|
||
3891.44 (FE V 1 AKl 0. II 0.11 0. 12 0.12 1 WA AE 25.OOX 26.98X
|
||
3895.66 (FE V 1 AKl 0.09 0.09 0. 10 0.10 1 WE AE 22.OOX 23.74X
|
||
3905 0 AKl 0.04 0.04 0.04 0.04 _J LA_ 28.30 30-54 27.64
|
||
3907.38 0.03 0. 03 1 MI73 25.20 25.61 27.20 27.64
|
||
3912.00 0.03 0.03 l OPC 25.40 25.61 27.41 27.64
|
||
3912.00 KA 0.03 0-03 -1 PTP .25. IQ 25.61 27.09 27.64
|
||
3918.91 Il 2 AKl 0.04 0.04 VV 2 26. 70 28. 81
|
||
3918.91 II 2 AKl 0.04 0.04 4103.41 N III AKl 0.97 1.05
|
||
3920.52 HF II II _1 AKl 0.03 . 0.05 0.05 0.05 C A41 24.90 26.87
|
||
3923.51 1 AKl 0. 18 0.18 0.20 0.20 4103.41 G II 2 AKl 0. 97 1.05
|
||
3926.56 HE I 1 AKl 0.16 0.16 0. 18 0.18 4104.90 G II l AKl 0.10 0.10 0. 11 0.11
|
||
3928.87 S III 2 AKl 0.02 0.02 —4107.01 Q LL_ _1 AKl Qa 06 0.04 Q. 06 Q..Q5
|
||
3928.87 AP I I 2 AKl 0.02 0.02 1 KA 0.03 0.04 0.03 0.05
|
||
3933.19 S I I 1 AKl 0.03 0.03 0.03 0.03 4110.63 0 I I 1 AKl 0.05 0.05 0.05 0.05
|
||
3935 0 AKl 0.03 0.03 0. 03 0.03 4112.55 CL II 1 AKl . 0.04 0.04 0.04 n-f>4.
|
||
3944.87 l AKl 0.03 0.03 0.03 0.03 4115.88 SI IV AKl 0.03 0.03 0.03 0.03
|
||
3947.99 l AKl 0. 05 0.05 0.05 0.05 4119.52 O II AKl 0.22 0.22 0.24 0.24
|
||
3954.94 1 AKl Q---94. . 0.04 0.04 O.OA 4120.85 HE I AKl 0.24 Q- 24
|
||
3955.90 0.03 0.03 0.03 0.03 4123.55 (FE V ) AKl 0.03 0.03 0.03 0.03
|
||
3959 0.03 0. 03 0.03 0.03 4125.30 S III AKl 0.03 0. 03 0.03 0.03
|
||
NGC 7009 (PK NO. NGC 7009 (PK NO. 37-34 1)
|
||
|
||
580
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 7009 IPK NO. 37-34*1) -ttg-C 70Q9 l-PK_N,Q, 37-34 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C N RG REF OBS I CORR I AVE C
|
||
4128.70 AR I I 1 AK1 0.05 0.05 0.05 0.05 ? KA 0.02 0.02
|
||
4130.DO ÍFE III) 1 KA 0.03 0.03 0.03 0.03 4353. 2 KA 0.02 0.02
|
||
4132.66 0 II 1 AK1 0. 10 0.10 0. il 0.11 4355 0 AK1 0.02 0.02 0.02 0.02
|
||
4135 O AK1 0.03 0.03 -QtQ.3_ _Q-»-Q3 4363.16 (0 III) 1 AK1 7.94 8.49 8.35 -£.»33
|
||
4136 AK1 0.02 0.02 0.02 0.02 1 C A41 10.30 8.49 10.83 8.93
|
||
4139 AK1 0.04 0.04 0.04 0.04 2 ACP 57.50 60.44
|
||
4143.81 HE I AK1 0.36 0.36 0.39 -P-t3.9 1 CB AE 8.00 8.49 8.41 8.93
|
||
4146.00 0 I I 2 AK 1 0.04 0.04 1 WA AE 11. 10X 11.67X
|
||
4146.00 0 I I 2 A KI 0. 04 0.04 1 WE AE 7.50X 7.88X
|
||
4150.56 NE II _L AK1 Qt 02 Q«_Q2— Q.Q2 _1 âîL. 10. 70X 11.25X
|
||
4153.66 11 l AKl 0. 16 0.16 0. 17 0.17 BOO 1.00* 1.05*
|
||
4155.48 0 11 i AKl 0. 11 0.11 0.12 0.12 1 LA 8.40 8.49 8.83 8.93
|
||
4L63..12 V L1 AKl Qt Q3 . Q.Q3 Q.Q3 Q .03 1 QCB .-8-» 50 »49 -.93 .93
|
||
4166 0.02 0.02 0.02 0.02 OPC 9. 70 8.49 10.20 8.93
|
||
4169.14 II AKl 0.08 0.08 0.09 0.09 PTP 6.60 8.49 6.94 8.93
|
||
4171.57 II l AKl Q.Q3 Q..Q3 Q.Q3- Q.Q3 4^65.90 NF T I 0.06 n. Oft
|
||
4176.00 AKl 0.03 0.03 0.03 0.03 4366.97 0 I I 1 AKl 0. 16 0.16 0. 17 0.17
|
||
4181.15 1 AKl 0.04 0.03 0.04 0.04 4369.20 0 I I l AKl 0.05 0.05 0.05 0.05
|
||
_J KA_ Q.Q3 —Q.-Q-3— ..Qa-Q3_ _Q.Q4 4371.73 -0 UL_ AKl 0.05 -JO.05 0-05
|
||
4185.51 0 11 1 AKl 0.08 0.08 0.09 0.09 4376.67 C I I 1 AKl 0.05 0.05 0.05 0.05
|
||
4186.94 C III 1 AKl 0. 13 0.13 0.14 0.14 4379.20 N III 1 AKl 0.39 0.3 9 0.41 0.41
|
||
4189.78 _□ LI_ _1 AKl Q « 11 Q.ll 0.12 0.12 4384 HF I 1 IA 2.70 2.70 .2.83 2.83
|
||
4195.72 III AKl 0.08 0.09 0.09 4387.90 HE I l AKl 0.68 0. 74 0.71 0.78
|
||
4199.90 HE II 1 AKl 0.49 0.39 0.52 0.42 l CB AE 0.80 0.74 0.84 0.78
|
||
-1..CË-AE.... Q.3Q Q«39 Q. 32 Q. 42 4397.nn NF T I -J AJ£J 0-10 0. 1 0
|
||
4202.00 AR II AKl 0.02 0.02 4396.00 0 I I 1 KA 0.02 0.02 0.02 0.02
|
||
4202.00 AR I I AKl 0.02 0.02 4398.02 NE I I 1 AKl 0.06 0.06 0.06 0.06
|
||
4215.8Q h LLL_ AKL- Q.Q3 Q.Q3 Q.Q3 Q.Q3 4408 _0 AKl 0-06 0.06 0-06
|
||
4217.20 0 I 2 AKl 0.03 0.03 4409.42 NE I I AKl 0. 10 0. 10 0.10 0.10
|
||
4217.20 NE II 2 AKl 0.03 0.03 4412.95 NE I I AKl 0.05 0.05 0.05 0.05
|
||
4219.79 NF II -J AKJ 0.08 0-09 4414.94 -0 UL_ AKl 0.13 0.14
|
||
4225.07 K I I 1 AKl 0.03 0.03 0.03 0.03 4416.94 NE II 2 AKl 0.11 0. 12
|
||
4231.61 NE II 1 AKl 0.03 0.03 0.03 0.03 4416.94 0 I I 2 AKl 0. 11 0. 12
|
||
4233.83 _C I _J AKl 0.02 0.02 0.02 0.0? 4419 _0 AKl
|
||
4237.04 II 2 AKl 0.06 0.06 4428.50 NE I l AKl 0.07 0.07
|
||
4237.04 II 2 AKl 0.06 0.06 4428.50 NE I I AKl 0.07 0.07
|
||
-4740 _0 KA 0.07- _o_a2— 4431.09 NF I I AKl 0-08
|
||
4242.24 1 AKl 0.10 0.10 0. 11 0.11 4432.7b AKl 0.07 0.07 0.07 0.07
|
||
4245 0 AKl 0.02 0.02 0.02 0.02 4434 AKl 0.03 0.03 0.03 0.03
|
||
4248 -0 AKl 0.02.. ■ 0.02 0.02 -4437.60 AKl
|
||
4250.53 NE II 1 AKl 0.03 0.03 4439.95 NF I I 1 AKl 0.03 0. 03 0.03 0.03
|
||
4253.88 n 11 2 AKl 0.09 0. 10 4446.68 NE I I 1 AKl 0.03 0.03 0.03 0.03
|
||
4253. —2 AKl - 4448.37 JO LL -I AKl-
|
||
4263.60 II 1 KA 0.05 0.05 0. 0.05 4452.40 C I I 1 KA 0. 04 0.04 0 0.04 0.04
|
||
4267.11 II l AKl 1.04 1.17 1. 10 1.24 4456.83 NE I I 1 AKl 0.04 0.04 0.04 0.04
|
||
-J f. A41 1.17 1.24 4459 _0 AKl
|
||
1 CB AE 0.80 0.85 4464 0 AKl 0.03 0.03 0. 03 0.03
|
||
4272.88 l AKl 0.03 0.03 0.03 0.03 4465.65 1 AKl 0.06 0.05 0.06 0.06
|
||
—47J5.57 _1 AKl 0.12 0.13 -J KA
|
||
0.05 0.05 4471.50 HF I 1 AKl 6.01 5.03 6. 25 5.24
|
||
4276.73 II AKl 0. 11 0. 12 1 C A41 4. 30 5.03 4. 47 5.24
|
||
4776.73 II AKl -ACP 5.03
|
||
4277.74 II 1 AKl 0.08 0.08 0.08 0.08 1 CR AE 4.90 5.10
|
||
4281.38 II 1 AKl 0.03 0.03 0.03 0.03 1 WA AE 4 • 60 X 4. 79X
|
||
4283.79 -LI _4 AKl 0.07 0.07 1 WF AF 6- 50X 6. 76 X
|
||
4283.29 AKl 0.07 0.07 AN 9.00 X 9.37X
|
||
4283.29 AKl 0.07 0.07 LA 6. 00 5.03 6.24 5.24
|
||
4283.29 AKl 0.07 0.07 OPC 4.80 5.03 4.99 5.24
|
||
4285.7C AKl 0.08 0.08 0.08 0.08 PTP 4.56 5.03 4. 75 5.24
|
||
4288.80 AKl 0.04 0.04 0.04 0.04 VV 2 3.70 5.03 3. 85 5.24
|
||
4291.61 AKl 0.06 O-Oft 4478.04 O II AKl 0.05 Qt 05 0»Q5 0.05
|
||
4291.61 2 AKl 0.06 0.06 4481.16 1 AKl 0.04 0.04 0.04 0.04
|
||
4294.85 1 AKl 0.10 0. 1C 0. 11 O.li 4487.85 l AKl 0.03 0. 03 0.03 0.03
|
||
4303.89 _1 AKl 0. 18 -Q.JLÍL. -Q*19 0.11 4489.7C _i AKl 0.04 Qt Q4 Qt.Q4
|
||
l KA 0.02 0.10 0.02 0.11 4491.89 0 II AKl 0.07 0.07 0.07 0.07
|
||
4307.33 11 1 AKl 0.05 0.05 0.05 0.05 4498.52 AP I I l AKl 0.03 0.03 0.03 0.03
|
||
-43.Q9.2 1 11 1 AKl 0.02 0.02 Q.QZ 0.02 45Q4 _Q AKl -Q-t.Q, -Qt Q 0.0
|
||
4309.21 2 AKl 0.02 0.02 4510.99 N III l AKl 0.23 0.23 0.24 0.24
|
||
4311 0 AKl 0.0? 0.02 0.02 0.02 4515.08 N III 1 AKl 0.08 0.08 0. 08 0.08
|
||
■4.312.10 1 KA 0.02 0.02 -Q«-Q2. 0.02 4517.32 C III _i AKl 0.04 Q. 04 Q.Q4
|
||
4313.95 II 2 AKl 0.04 0.04 4518.10 III 0.07 0.07 0.07 0.07
|
||
4313.95 II 2 AKl 0.04 0.04 4523.65 N III AKl 0.08 0.08 0.08 0.08
|
||
4315.36 I I 2 AKl ' 0.05 0.05 4529.7Q _Q III AKl 0.05 Q.Q5 Q.Q5 Q .05
|
||
4315.36 2 AKl 0.05 0.05 4530.32 II l AKl 0.07 0.07 0.07 0.07
|
||
4317.24 1 AKl 0. 13 0. 13 0. 14 0.14 4534.57 N III 1 AKl 0.09 0. 09 0.09 0.09
|
||
4319.81 1 AKl 0.09 0.09 0.09 4541.59 HE II J AK.l 0.66 0.58 Q. 68 —Q..6Q
|
||
4324.00 III 2 KA 0.02 0.02 1 CR AE 0. 50 0.58 0.52 0.60
|
||
4324.00 III ? KA 0.02 0.02 4544, III 1 AKl 0.09 0.09 0.09 0.09
|
||
4325.83 II J. AKl Q.Q7 0.07 4547, III 1 AKl 0.05 0.05 0105 0.05
|
||
4331.39 1 AKl 0.03 0.03 0.03 0.03 4552, 54 N 1 AKl 0.07 0.07 0.07 0.07
|
||
4333.01 1 AKl 0.05 0.05 0.05 0.05 4562, 66 NF l AKl 0.03 0.03 0.03 0.03
|
||
4337.10 1 AKl 0.06 0.06 0.06 4564, 43 AR 1 AKl 0.04 Q.Q4 Q« 04 -Q.Q4
|
||
1 AKl 49. 10 43. 13 51.72 45.43 4571. I l AKl 0. 13 0.1 3 0. 13 0.13
|
||
1 AN A41 40.00 43.13 42. 14 45.43 4590. II 1 AKl 0. 10 0. 10 0. 10 0.10
|
||
I C A4 1 34.20 43.13 . 36.Q? 45.43 4596. 17 0_ I I _1 AKl 0.08 -Qt.Q.8 ■Q..Q8 Q.Q8
|
||
2 ACP 57.50 60.57 4602. 10 II 0.08 0.08 0.08 0.08
|
||
l CB AE 45.00 47. 40 4608. 30 (FE III) 0.03 0.03 0. 03 0.03
|
||
1 WA AF 45-QQ X 47- 40 X 4ftf)9 . U
|
||
42.00X 44.24X 4609. II AKl 0. 17 0. 17
|
||
50.00X 52.67X 4613. II AKl 0.03 0.03 0.03 0.03
|
||
LA 49.10 43.13 31.72 -45.»A3 - 4621 II AKl 0.03 0-03 0-03 0-03
|
||
l MI 73 42. 10 43.13 44.35 45.43 4631. ION II l AKl 0. 10 0.10 0. 10 0.10
|
||
l OCR 41.60 43.13 43. 82 45.43 4634. 16 N III 1 AKl 1.56 1.56 1.60 1.60
|
||
_J Q££_ 43.5Q .43.13 A5.92 45.43 _4 C A41 3.80
|
||
1 PTP 43. 70 43.13 46. 04 45.43 2 LA 6.30 6.45
|
||
1 R2 35. 00 43. 13 36. 87 45.43 4634 N l A AW70 1.43 1.43 1.46 1.46
|
||
1 W 2 51. IQ 43. 13 53.63 -45.43 —4638.85 CL. _J AKl 0.05 0.05 0-05
|
||
4344.51 0 II 1 AKl 0. 09 0.09 0.09 0.09 4640.64 N III 1 AKl 2.94 3.01
|
||
4345.72 0 I I 1 AKl 0. 15 0. 15 0. 16 0.16 4 C A 41 3.80 3. 89
|
||
4347.80 _Q II_ _1 AKl Q.Q7 0.07 0. 07 0.Q7 1. C-B—AE
|
||
4349.46 AKl 0. 22 0.22 0.23 0.23 A AW7C 3.90 3.99
|
||
4351.75 AKl 0.04 0.04 0.04 0.04 A AW70 3.90 3.99
|
||
NGC 7009 (PK NO. 37-34 1) NGC 7009 (PK NO. 37-34 1)
|
||
581
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 7QQ9 (PK NQ. 37-34 1) NGC 7009 (PK NO. 37-34 1)
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE (DENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4641 D I I 3 A AW7C 3.90 3.99 4959 (0 III) 1 LA_ - 3.5.1 »-9P_ 353.73 348.11 350.81
|
||
4641.90 N III AKl 0.91 0.93 l LA 54 433.00 353.73 429.43 350.81
|
||
4641.90 O II AK1 0.91 0.93 l OPC 364.00 353.73 361.00 350.81
|
||
- A£4 7.4 Q C LU_ AK1 Q. 32. Q. 36 . Q. 33 Q.37- 1 PTP 372._Q0_ 353.73 368.93 350.81
|
||
1 A AW70 0.40 0.36 0.41 0.37 l R2 350. 00 353.73 347.11 350.81
|
||
4649.14 O II L AKl 0.87 0.96 0.89 0.98 1 VV 2 222. 30 353.73 220.47 350.81
|
||
1 A AW7 0 1.05 0.96 1.07 0.98 1 WYSE 430. 00 426.45 A
|
||
4651.35 C III AK1 0.35 0. 4986 (FE III) 2 WYSE 50 A 1.48 A
|
||
A41 3.80 3. 4986 N II 2 WYSE 50 A 1.48 A
|
||
A AH 70 0.40 0.37 0.41- 0.38 4994 (FE VII) 2 WYSE 50 A 1*48
|
||
LA 6.30 6.44 4994 II 2 WYSE 1. 50 A 1.48 A
|
||
4658.42 C IV AKI 0. 07 0.07 5006 III) l AN A41 1060. 00 1067.86 1046.94 1054.70
|
||
C A41 § 88_ 0.24 1 C A41 960. 00 1067.86 948.17 1054.70
|
||
A AW70 0.40 0.23 0.41 1 ACP 1030. 00 1067.86 1017.31 1054.70
|
||
4661.64 O II AKl 0.30 0.33 0. 31 0.34 l WA AE 1217. OOX 1202.OOX
|
||
AW 70 0.36 0.33 Ot 37 , 0.34 1 WE AE -1380. sm, 1363.QQX
|
||
4667.28 N II AKl 0.06 0.06 0.06 0.06 AN 460. OOX 454.33X
|
||
4673.75 O II AKl 0.10 0.10 0. 10 0.10 BDO 186. 00* 183.71*
|
||
—4.676.2 6 Q Li_ AKl 0.24 0.25 0.24 Q.26- _ÜE —1QQ.Q-« 00* 981.68*
|
||
AW7 0 0.27 0.25 0.28 0.26 LA 1030. 00 1067.86 1017.31 1054.70
|
||
46«5.68 HE II AKl 18.80 14.Q1 19. 14 15.18 LA54 1175. 00 1067.86 1160.52 1054.70
|
||
C A4! 13.50 14.91 13.74 15.18 PTP 1150, Ü0 1067.86 1135.83 1054.10
|
||
1 CB AE 15. 80 16.09 R2 1070. 00 1067.86 1056.82 1054.70
|
||
l AN 23.OOX 23.42X VV 2 0. O A1067.86 0.0 A1054.70
|
||
-J LA- 16. HO WYSE 1480. 00 A 1461.76 A
|
||
ÜPC 14. 10 14.91 14.35 15. 18 HE I 1 BE 76* 1.74*
|
||
PTP 1 2.. 80 14.91 13.03 15.18 1 WYSE 00 3.95 A
|
||
VV 2 12. 60 14.91 12.83 15.18 (FF I IU—1 MYSF
|
||
4689 KA 0.05 0.05 0.05 0.05 5041 A W7 0 12 0. 12
|
||
4698 A W7 0 0.07 0.07 0.07 0.07 5074 WYSE 50 A 1.47
|
||
4701 (FE III) 1 AJcLLC Q. Lü. 0.16 5090 WYSE 50 A _L 47 A
|
||
4705.36 0 II AKl 0.05 0.05 0.05 0-.05 5111 1 A AW70 0.0 0.0 0.0
|
||
4711.34 (AR IV ) AKl 5.29 5.29 5.37 5.37 5117 1 A AW70 0.0 0.0 0.0
|
||
A4 1 5131 1 A AW70 . Qt 09 Q.Q9 .Q_jlQ9
|
||
5.70 5.79 5135 l A AW70 0. 0.0 0.0
|
||
OPC 4.40 4.47 5140 i A AW70 0.0 0.0 0.0
|
||
-4713. 1 7 h£—L AK 1 0.65— 8 1 48 _] A AW70
|
||
3 C A41 4.40 4.47 1 B AW70 0.13 0.17 0.13
|
||
2 CB AE 4.60 4.67 l A AW70 0.05 0.05 0.05
|
||
_2 LA —1 B AW7Q
|
||
2 OPC 4.40 4.47 5173 A AW70 0.10 0. 10 0.10
|
||
4712 (AR IV ) 2 CB AF 4.60 4.67 5176 A AW7 0 0.08 0.06 0.08
|
||
-47-2A— (NF IV ) -J AX 1 . B AW70 —Q^QB— O.Ofl
|
||
AW 7 C 0.03 0.03 5181 N II WYSE 1.46 A
|
||
4734 (FE III) AW 70 0.C8 0.08 0.08 0.08 5191 (AR III) A AW70 0.19 0.21 0.18
|
||
-4J40.2C (AR IV ) AKl 7.^40 6.35 ■ 5.42- B AW7Q 0.19 0. 16 Q.lfi
|
||
3 C A 41 4. 40 4.45 1 CB AE .06 0.06
|
||
1 CB AE 4.40 4. 45 1 WA AE . 40X 6. 21 X
|
||
-J LA —1 WF AF
|
||
OPC 4.90 5.35 4. 96 5.42 1 A AW70 0.17 0.14 0.16
|
||
4755 AW70 0.12 0.12 0.12 0.12 1 P AW70 0.17 0.04 0.16
|
||
4.775. PC 0.12 —1 PTP
|
||
4775.00 C I 0. 12 0.12 1 A AW70 0.07 0.11 0.07
|
||
4782 NF II AW70 0.05 0.05 0.05 0.05 1 B AW70 0.07 0.04 0.07
|
||
4784.50 (CR V Q. IQ Q.1Q 0. IQ 0.10 (FF III) 1 AW7Q O- ?3
|
||
4805 A AW 70 0.07 0.07 0.07 0.07 B AW70 ,29 0.26 0.28 0.26
|
||
4819 A AW70 0.05 0.05 0.05 0.05 5304 A AW7 0 ,03 0.03 0.03 0.03
|
||
4821 ( FF I I I ) WYSE 0. 70 0. 70 5323 A AW70 0.04 0.04 0.04
|
||
4861.30 H I AKl 100.00 100.00 100.00 100.00 WYSE 0.96 A
|
||
AN A4 l 100.00 100.00 100.00 100.00 5338 A AW70 0.06 A
|
||
C A41 100.00 1 CO.00 100.00 100*tOQ 5343 A AW7.0. CL. 15
|
||
ACP 100.00 100.00 100.00 100.00 1 B AW70 0. 10
|
||
1 CB AE 100.00 1 00.00 100.00 100.00 5345 1 WYSE 1.44 A
|
||
1 WA AE 1QQ.QQX 100.QQX 5402 -J WYSE .QQ A- Q. 95 A
|
||
l WE AE 100.OOX 100.OOX AE 24* 0.23*
|
||
l AN 100.OOX 100.OOX 1 CB AE 25 2.25 1.19 2.14
|
||
_J K-QS 100.QQX 1QQ.0QX _1 A AW7.Q.. A5_ . 2«25 1.3B 2.14
|
||
LA 100.00 100.00 100.00 100.00 l B AW70 2.25 3. 14 2.14
|
||
L A 54 100.00 100.00 100.00 100.00 l VV 2 00 2.25 2. 86 2.14
|
||
MI 73- 100.00 1 CO.00 100.00 . -LOO.00 -J WYSE 00 A 7.62 A
|
||
□CP 100.00 100.00 100.00 ICO.00 5422 B AW70 0.07
|
||
PTP 100.00 ICO.00 100.00 100.00 5488 1 B AW70 . 10 0.09 A
|
||
R2 100*00 1QQ.QQ 1QQ.QQ .100.00 1 WYSE *-0.0
|
||
VV 2 100.00 100.00 (CL III ) 1 A AE 0.23*
|
||
WYSE 100.00 100.00 A 1 CB AE 0.42
|
||
__4867.30 A FE IV ) 3 Q . Q-B 1 1A A E 2 71*_ 0-67*
|
||
4867.30 N III KA 0.08 0.08 l 2A AE2 80* 0.76*
|
||
4867.30 N III KA 0.08 0.08 1 A AW70 10 0.87 1.04 0.82
|
||
_.4B73 C LI- WYSF 1.QÛ A 1.00 _1 B AW7Q 36_ . Q. 87 1.00 0.82
|
||
4882.50 (FF III) 2 0. 09 0.09 WYSE 1.89 A
|
||
l 0.24 0.24 5530 N II WYSE 50 A 1.42 A
|
||
4882.50 (FE III) 2 0^.09 Q. 09 5537 (cl im _AE 35* 0.33*
|
||
4896 (FF VII) l WYSE 1.50 A 1.50 A 1 CB AE 61 0.58
|
||
4901 A AW7 0 0.06 0.06 l IA AE2 00* 0.94*
|
||
-A9Q4 J WYSE- 1. 50 A 1.49 A _1 2 A AE2- 00* .-0*94*
|
||
4906 A W70 0.10 0. 10 1 A AW70 1.06 1. 16 1.00
|
||
491 5 WYSF 1.50 1.49 A 1 B AW70 1.06 1.25 1.00
|
||
4921.96 HF I AKl 1. IQ 1. IQ 1.09 _1 WYSE- QQ .A 2.83 A
|
||
3.00 A 2.98 A 5563 l WYSE 50 1.41
|
||
4931.00 (O I III 0.45 0.36 0.45 0.36 5577 l WYSE 00 A 2. 82
|
||
0.28 0.36 0- ?B 0.36 5586 -I B AWjJL- .Qt04- 0*04 -0,0.4- 0.04
|
||
WYSE 2.00 1.99 1 A AW70 0.11 0.07 0.11
|
||
4931 (FE III) WYSF 2.00 1.99 1 B AW70 0.11 0. 15 0.11
|
||
4937 (FE III) WYSE JLl-5-0 1*49 5597 _J A AW7Q 0.02 0.02 0.02
|
||
4949 1 WYSE 1.50 1.49 A 5634 1 WYSE 1.40 A
|
||
4959 l AN A41 400.00 353. 73 396.70 350.81 5667 1 A AW70 0.16 0. 16 0.15
|
||
1 C A41 3A0-.-00 353.73 337.20 350.81 -J B AW7.Q - -0.16 0..1.5
|
||
1 ACP 351.00 353.73 348.11 350.81 5677 (FE VI ) 1 CB AE 0.28
|
||
1 CB AE 354.00 353.73 351.08 350.81 5677 N II l WYSE 50 A 1.40
|
||
1 WA AE 416.QQX 41 ? . 5/ X 5679 1 A AW7Q 3L4 0.37 Q.3J
|
||
l WE At 450.OOX 446.29X l B AW70 0.39 0.42 0.37
|
||
l AN 170.OOX 168.60X 1 B AW70 0.05 0.05 0.05
|
||
NGF 7009 (PK NO. 37-34 l) NGC 7009 (PK NO. 37-34 1)
|
||
|
||
582
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7009 <PK NO. 37-34 1) NGC 7009 (PK NO. 37-34 1)
|
||
HAVE IDENT N RG REF OBS I CORR I HAVE IDENT N RG REF OBS I CORR I
|
||
5695 L WYSE 1.50 A 1.40 6LL7 LS LI ) 1 ¿B—AE2. 0.55* 0.48»
|
||
A AH70 0.09 0.11 0.08 0.11 l HD 0.53*
|
||
B AH70 0. 14 O.ll 0.13 0.11 (S II » 1 PTP 3.02 2.63
|
||
A AH70 0.07 0.07 0.07 0.07 J HYSE 5.22
|
||
1 B AH70 0.08 0.07 (S II ) 1 A AE 8.01* 6.97*
|
||
5734 1 HYSE 1.50 A 1.39 A 1 CB AE 1.15 1.00
|
||
5754 _1N II ) 2, C A41 13.50 - 12.52 1 HA AE 64.10* 55.78X
|
||
A AE 0.43* 0.40* l WE AE 52.00X 45.25X
|
||
CB AE 0.30 0.28 1 16 AE2 1.00* 0.87*
|
||
HA AE 7■1QX_ 6.58X 1 7B AE2 1.00* 0.87»
|
||
WE AE 6.60X • 12X 1 HD 1.00* 0.87*
|
||
A AW70 1.04 0.60 0.96 0.56 6890 HE II 1 CB AE 0.09 0.09 0.08 0.08
|
||
B AW70 Q.46 . Q.6Q Q. 56 .7Qfl5 LAJL-V L 1 CB AE 0.06 0.06 0.05 0.05
|
||
PTP 0.41 A 0.38 A 1 A AE 8.90* 7.61*
|
||
HYSE 1.50 A 1.39 A l CB AE 6. 10 5.22
|
||
_J A AH7Q- Q.Q9 n» 1 WA AE JLt2QX 4. 45X
|
||
B AW70 0. 14 0. 13 0.11 1 WE AE 5.40X 4. 62X
|
||
HYSE 1.50 A 1.39 A 1 LAR 1.41* 1.21*
|
||
IV _1 A AH7CL_ Q.Q3 —Q..-Q3 0.07 _1 PTP ■ 62 5.86 4.81 5.Q1
|
||
B AH70 0. 13 0. 12 7130 (AR IV ) 1 OPC 18.70 18.70 15.94 15.94
|
||
WYSE 1.50 A 1.39 A 7135 íAR III) 1 A AE 33.40* 28.47»
|
||
1l CB 2Q.QQ 17.Q5 . 17 «-Q5
|
||
B AW70
|
||
0. 16
|
||
0.44
|
||
Q. 15
|
||
0.40 WA AE
|
||
AE 31.00X
|
||
2a.QQ
|
||
26.43X
|
||
C A41 13.50 12.41 1 WE AE 32.00X 27.28 X
|
||
11. Qfl* IQ.11» -J LAR 0^85» 0.72*
|
||
CB AE 14.20 13.06 7238 (AR IV 1 1 CB AE 0.50 0.50 0.42 0.42
|
||
WA AE 14.80X 13.61X 7262 (AR IV ) 1 CB AE 0. 10 0.10 0.08 0.08
|
||
1 HE AJE_ 16.6QX— 15.26X 7283 HE_ 1 CB AE -Q.7Q 0.7Q 0.59 0.59
|
||
OPC 20.90 15.97 19.22 14.69 7319 (C I I ) l CR AE 1.30 1. 10
|
||
PTP 16.20 15.97 14.89 14.69 7325 (0 II ) l WA AE 27.60X 23.3lX
|
||
12.60 1 5.97 11-58 14.69 1 HE AE 27.IPX 72.89 X
|
||
WYSE 35.00 A 32.18 A PTP 2.40 A 2.03 A
|
||
5885 WYSE 0.0 A 0.0 A (0 II) 1 CB AE 1.30 L. 10
|
||
5970 1.50 A 1.37 A- J LAR 0.45» 0.3B»
|
||
6035 HYSE 1.00 A 0.91 A 7530 (CL IV ) 1 CB AE 0.60 0.60 0.50 0.50
|
||
6066 WYSE 0.90 A 0.82 A 7593 HE II l CB AE 0.40 0.40 0. 33 0.33
|
||
0.90 A.. 0.87 A- 7751 (AR III) 1 CR AF 4.60 3.81
|
||
6097 WYSE 1.00 A 0.91 A l WA AE 8.50 X 7.03X
|
||
6102 (K IV ) l CB AE 0.30 A 0.27 A l WE AE 8.60X 7. 12X
|
||
0.80 A 0.72 A 1 CB AF 1.40 1.14
|
||
6155 WYSE 0.80 A 0.72 A 8236 HE I I l CP AE 0.60 0.60 0.49
|
||
6253 WYSE 0.90 A 0.81 A 9069 (S III) 1 LAR 0.98* 0. 77*
|
||
6300 -ID I ) 1 A A-E— -U-6Û* 1.43» 1 _ClRf. ??. 72.90 1 8.09
|
||
CB AE 0.08 0.07 9229 H I 1 LAR 0.44* 0. 35*
|
||
WA AE 50.00X 44.62X 9 53 2 H I 2 LAP 2. 14* 1.67*
|
||
7B.40X-. 75.34X 0530 -Jd L- _2 OPC 54.60 62^-58
|
||
CAM 0.00* 0.00* 9539 (S III) 2 OPC 54.60 42.58
|
||
PTP 1.15 A 1.03 A 9546 (S III) 2 LAR 2. 14* 1.67*
|
||
3.70 3.30 1 no40 H I J l.-AR CUAZ* 0.36»
|
||
WYSE 2.00 A 1.78 A l LAR 4.98* 3.77*
|
||
(S III) l A AE 1.60* 1.43* l OPC 108.00 81.84
|
||
1.30 1. 16- _1 LAR 0.55» 0.47*
|
||
WA AE 50.00X 44.59X 10 MU (S IV ) GMS 97.00 115.00 65.58 77.75
|
||
WYSE 3.00 A 2.68 A HGR 133.00 115.00 89.92 77.75
|
||
2 WE AE 7R.4nx 25.32X
|
||
AE 0.56* 0.50* REGICN KEY (REG ION,REFERENCF,EX PL AN AT I ON)
|
||
WA AE 15.60X 13.87X AN, A41 , MEAN OF TWO ANSAE
|
||
WE AE 9.00X 8.00X C, A41 , CENTRAL REGION
|
||
WYSE 1.00 A 0.89 A A, AE , OUTSIDE OF BRIGHT RING, WEST OF STAR
|
||
6403 WYSE 0.90 A 0.80 A CB, AE , AVE. OF 2 PTS. IN BRIGHT RING NORTH QF STAR
|
||
-6423 ItOQ A_ Q.89 A- WA. AE . WEST ANSA
|
||
11)3 C -wy.s.L-
|
||
A41 145.00 A 127.49 A WE, AE , EAST ANSA
|
||
1 A AE 20.90* 18.38* IA, AE2 , PA = 300 DEG., 6 ARCSEC FROM STAR — A, R ON DIF. SCALES
|
||
1 HA AE 18Q.QQX- L58.27X _2Aj, AF2 . PA = 2 50 DEG.. 9 ARCSEC FROM STAR — A. B ON DIF. SCALES
|
||
WE AE 140.OOX 123.10X AW70, MAIN 8CDY INNER RING
|
||
OCB 5.20 5.20 4.57 4.57 AW70, HIGH EXCITATION REGION
|
||
WYSE 0.0 A 5.20 0.0 A 4.57
|
||
C A41 145.00 A 127. 38 A NGC 7009 (PK NO. 37-34 1)
|
||
k AE 3.15* 2.77*
|
||
-L..CB. AE 304.00 267,05
|
||
WA AE 315.OOX 276.71X
|
||
WE AE 315.OOX 276.71X RFGIN NGC 7026 (PK NO. 89+ 0 1) 0.86 (RADIO-H BETA)
|
||
CAM 1.00* 0.88*
|
||
LAP 10.00* 8.78* WAVE IDENT N RG REF OBS I AVE 0 CORR l AVE C
|
||
MI 73 305.00 298.50 267.93 262.22 3132 C III l FM CA70 37.00 37.00 93. 12 93.12
|
||
OCB ¿69,QQ _ 298.5Q 236.3Q _2.62.22 3203 HF I I 1 FM CA70 8.80 8.80 21,32 21.J.2.
|
||
OPC 291.00 255.63 3299 0 III 1 FM CA70 2.70 2.70 . 14 6.14
|
||
PTP 316.00 277. 59 3312 0 III 1 FM CA70 4. 20 2.20 9.48 4.97
|
||
66.80 . 58.68 1 IP CA70 0.20 2.20 0.45 4...9 7
|
||
WYSE 470.00 A 412.87 A I FM CA70 5.00 4. 85 11. 10 10.77
|
||
(N II ) 2 OPC 291.00 255.63 l IR CA70 4. 70 4. 85 10.44 10.77
|
||
vv 2 66.80 58.68 3444.. 1 FM C.A70 m.2Q 8.45 15..Q7 17.69
|
||
II ) 3 C A41 145.00 A 127.22 A l IR CA70 9.70 8.45 20. 31 17.69
|
||
1 A AE 56.40* 49.48* 3530 HP I 1 FM CA70 4. 20 4.20 8.39 3.39
|
||
1 CB AE 9.IQ .-9.8- . 12-14 3587 HE I 1 FM CA70 2.60 2.60 5.03
|
||
WA AE 542.OOX 475.52X 3673 1 FM CA70 0.40 0.40 0.74 0.74
|
||
WE AE 411.OOX 360.59X 3676 1 FM CA70 0.50 0.50 0.93 0.93
|
||
CAM Q...Q6*— Q.Q5* 3679 1 FM CA70 -0*8.0 Q.-8-Q 1,48 1.48
|
||
OCB 13.80 13.83 12.11 12.14 3682 1 FM CA70 1.00 1.00 1.85 1.85
|
||
PTP 18.60 13.83 16.32 12.14 3686 1 FM CA70 1.20 1.20 2.21 2.21
|
||
WYSE 3Q.QQ A_ 26.32 A. 1 IR CA7C 0.70 1.29 A
|
||
6614 WYSE 1.50 A 1.31 A 3691 H I l FM CA70 1.70 1.40 3.13 2.58
|
||
6678 A AE 4. 10* 3.58* 1 IR CA70 i.10 1.40 2.02 2.58
|
||
1 CB AF 4.IQ 4.10 3.58 3.58 3697 H I 1 FM CA70 1.90 1.70 3.49 3.12
|
||
WA AE 5.10X 4.45X 1 IP CA7C 1.50 2.75
|
||
WE AE 4. 80X 4. 19X 3703 HE I 2 IR CA70 2.70 4.94
|
||
HYSE- 15.00 A. 13.09 A- 3703 _H I_ 2 FM CA7Q .90 5t_3.Q.
|
||
( S 11)1 A AE 4.60* 4.01* 2 IP CA70 2.70 4.94
|
||
1 CB AE 0.66 0.57 3703 HE I 2 FM CA70 2.90 5.30
|
||
L HA AE 48.6QX 42.32 X 3712 _y i— 1 FM CA 70 2-70 4.9?
|
||
WE AE 38.70X 33.70X 1 IR CA70 2.50 .55
|
||
IB AE2 0.47* 0.41* 3721 2 FM CA70 4. 80 .69
|
||
NGC 7009 lPK NO. 3t-34 1) NGC 7026 (PK NO. 89+ 0 1)
|
||
583
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7026 (PK NCU 89-«- QU NGC 7026 (PK NO. 89+ O 1)
|
||
WAVE IDENT N RG REF OBS I WAVE IDENT N RG REF OBS I CORR I
|
||
3721 H I 2 IR CA70 4,80 4129 1 FM CA70 0.20 A 0.2«? A
|
||
( S III) 2 FM CA70 4.80 8.69 1 FM CA70 0.78 0.84 1. 1.21
|
||
2 IR CA70 4.80 8.69 1 IR CA70 0.90 0.84 1.29 1.21
|
||
3726 (0 II) L â 3 1.00 56. Ql cato n-SQ
|
||
1 L A 47.00 84.92 4156 C III 2 FM CA70 0.35 0.50
|
||
1 0 A 54.00* 97.56* 4199 HE II I FM CA70 0. TO 0.85 0.98 1.19
|
||
JL L_A_ 45.00* 81.3Q*. 1 IR CATO 1.00 _QJ.8.5_ 1.39 1.19
|
||
l 2 A 41.00* T4.08* 422T (FE V ) 1 IR CATO 0.40 A 0.55 A
|
||
1 3 A 4T.20* 85.28* 426T C I I l FM CATO 1.60 UTO 2. 16 2.29
|
||
_1 4 _A_ 56.00* 1Q1.18* i UL CATO 1.80 . 1.70 2.43 2.29
|
||
1 5 A 59.00* 106.60* 4275 1 IR CATO 0.34 A 0.46 A
|
||
1 6 A 58.00* 104.79* 4288 1 IR CATO • 0.24 A 0.32 A
|
||
_J L_4_ 64.00» 115.63* 4340— 1 C A 37.00 36.58 48.15
|
||
l 8 A 223.00* 402.91* l L A 44.00 36.58 57.26 47.60
|
||
1 FM CATO 16.40 29.63 i FM CATO 32.20 36.58 41.90 47.60
|
||
1 IR CATO.. 25.00 45.17 J E_ CATO 37.30 36.5.a_. 48.84 47.60-
|
||
VV 2 44.70X 80.76X OCR 32.40 42. 16
|
||
3728 II ) l FM CA70 27.60 49.79 ORF 57.00 A 74.17 A
|
||
3734 J I FM CA70 3.30 5.93 5.84 --YY-2- 41.3QX S3.74X
|
||
1 IR CATO 3.20 3.25 5.76 5.84 l C 1.80 5.75 2. 32 7.40
|
||
1 FM CATO 4.00 4.15 7. 13 7.40 l FM CA70 7.20 5.75 9.26 7.40
|
||
1 IR CA70 4.30 ..4JJ- 7.67 7.40 1 IR CA70 8.00 5.75 10.29- 7.40
|
||
O III 1 FM CATO 0.82 0.91 1.46 1.62 1 0C8 6.00 7.72
|
||
1 IR CATO 1.00 0.91 1.78 1.62 l VV 2 27.50X 35.38X
|
||
3759 LLL 1 FM CATO 1.80 2.2.Q. 3.19 _N LU 1 FM CA70 Q. 94 Q.97 U2Q 1.24
|
||
1 IR CA70 2.60 2.20 4.61 3.90 1 IR CA70 1.00 0.97 1.28 1.24
|
||
1 FM CA70 4.50 4.95 7.93 8.72 1 FM CA70 l. 34 1.37 1.70 1.74
|
||
1 IR CA7Q S. 40 4..95. 9.52 1 IR C A 70 I -40 .37 1-78 1-74
|
||
3797 1 FM CA70 6.60 7.75 11.46 13.46 l C 4.40 7.42 5.38 9.07
|
||
l IR CA70 8.90 7.75 15.45 13.46 l L A 5.60 7.42 6. 85 9.07
|
||
3819 i pM r a7n 1-90 7-35 3. 26 4.0.3 1 FM CA7Q— 1 Q. IQ 7.42 1¿^35_ 9.07
|
||
l IP CA70 2.80 2.35 4.80 4.03 CA70 10.00 7.42 12.23 9.07
|
||
i FM CA70 8.40 9.95 14.26 16.90 CA70 10.70 7.42 13.09 9.07
|
||
1 IR CATO 11.50 9.95 . L9-..53— 1A-90 . K-A2 3.70 7.42 4.53_ 9.07
|
||
3858 HF I I l FM CA70 0.30 0.50 l VV 2 18.90X 23.12 X
|
||
3865 HE I 1 FM CA70 0.30 A 0.50 A 1 FM CATO 1.00 1.18
|
||
3868 (NF III) J—C A 66.00 109.97 1.80 A 7.17 A
|
||
74. 00 123.24 l FM CA70 0.45 0.45 0.52 0.52
|
||
0 A 78.00* 129.91* 1 IR CATO 0.45 0.45 0.52 0.52
|
||
1 A_ 75.00» 174.91t 1 IR CA 70 Q.4Q A 0.46 A
|
||
1 2 A 77.00* 128.24* 2 C A 6.00 6.75
|
||
l 3 A 73.50* 122.41* 2 L A 4.60 5. 17
|
||
7.25
|
||
—1 4 A 72.QQ*.- 119.91 *— 1 FM CA7Q 2.00
|
||
l 5 A 60.00* 99.93* 1 IR CA70 2.40 2.70
|
||
1 6 A 43.00* 71.62* 2 C A 6.00 6.72
|
||
_J 7 A . 4?.nn» 69.Q5* 4.60 5.16-
|
||
1 8 A 54.00* 89.94* 1 FM CA70 4.50 5.39 5.04 6.04
|
||
l FM CA70 47.00 78.28 102.09 1 IR CA70 5.60 5.39 6.28 6.04
|
||
1 IR rA7n 39.00 A 64.95 A r A 70 6.07 5.39 . 6.80 6.04 -
|
||
1 P CA70 58.20 96.93 102.09 O I I 1 FM CATO 1.60 1.65 1.78 1.84
|
||
l VV 2 103. 20X 171.88 X i IR CA70 1.70 1.65 1.90 1.84
|
||
1 C A 1.9 m 0.0 17.37 31.75 78.58 4658 r. i v 1 FM CAZO- 0.80 0-60 0.89 0.67
|
||
1 L A 21.00 17.37 34. 54 28.58 1 IR CATO 0.40 0.60 0.44 0.67
|
||
1 EM CA70 14.70 17.37 24. 18 28.58 l C A 28.00 19.36 30.65 21.19
|
||
_J P CATO 1 4. RO 17.37 74.34 78.58 -J—1 A_ 13.00 19. 36 . 1 4.7.3-- 71.19
|
||
2 VV 2 41.30XA 67.93XA i CATO 36.80* 40.29*
|
||
3889 HF I 2 VV 2 41.30XA 67.93 XA 1 B C A 70 25.20* 27.59*
|
||
3923 HE I I 2 FM CA70 0.40 0.65 l C CATO 19.60* 21.46*
|
||
2 IR CA70 0.25 0.40 l D CATO 17.90* 19.60*
|
||
2 FM CA70 0.40 0.65 1 FM C A 70 19.00 19.36 20.80 21.19
|
||
2 IR CA7.Q... Q.25 Q. 40 1. I« A70 19.36 21tl-9_-
|
||
21.19
|
||
2 C A 31.00 48.99 CA70 16.40 19.36 17.95
|
||
2 L A 36.00 56.90 KA2 10. 10 19.36 11.06 21.19
|
||
1 FM CA70 21.8Q.... 34.45 ORF 25.00 19.36 27.37
|
||
1 IR CA70 16.00 25.29 29.20X 31.97X
|
||
2 P CATO 32.45 51.29 1 C 2.70 4.95 2.92 5.35
|
||
? W 2 37.8QX . 59.74X - I- -L- 3.80 4.95 4. 10 5.35
|
||
2 C 31.00 48.99 1 FM CA 70 3.70 4.95 4.00 5.35
|
||
2 L A 36.00 56. 90 l IR CA70 9.60 4.95 10.37 5.35
|
||
1 FM CA70 11.80 18. 65 CATO 5.50 5.94
|
||
1 IR CA70 8.00 12.64 4713 HE I 1 FM CATO 1.60 1.73
|
||
2 P CA70 32.45 51.29 2 P CATO 5.50 5.94
|
||
2 VV 2 37.80X 59.74X 4740 (AR IV ) 1 FM CA70 4.40 4.57 4.68 4.86
|
||
1 FM CA70 0.55 0.55 0.85 0.85 1 IR CA70 5.10 4.57 5.42 4.86
|
||
1 IR CA70 0.55 0.55 0. 85 0.85 1 P CA70 4.20 4.57 4.47 4.86
|
||
HE L. 2 FM CA7Q 3.50 5.37 4861- l C ^ 100.OQ 100.00 100.00 100.00
|
||
2 IR CA70 3.80 5.83 l L A 100.00 100.00 100.00 100.00
|
||
2 FM CA70 3.50 5.37 1 CA70 100.00 100.00 100.00 100.00
|
||
2 IR CA7Q 3.80 5.83 _1 E_ CA7Q 100.QQ 100.QQ 100..00.. 100.00
|
||
2 C 5.80 8.69 CPDA 100.00 100.00 100.00 100.00
|
||
2 L A 4. 10 6. 14 KA2 100.00 100.00 100.00 100.00
|
||
1 A CA70 3.10* 4.64* QCB 100.00 100.00 lOQ^QO... 100.00
|
||
l B CA70 5.00* 7.49* 1 ORF 100.00 100.00
|
||
1 C CA70 7.70* 11.53* l VV 2 100.OOX 100.OOX
|
||
J P CA7Q 10.70* 16.02* . HE !.. 1 FM CATO 4.00 4.00 3^2fl 3.90
|
||
1 FM CATO 6.20 5.75 9.29 8.61 4.00 4.00 3.90 3.90
|
||
l IR CA70 5.30 5.75 7.94 8.61 (O III ) 1 C 420.00 348.09 402.79 333.82
|
||
4Q,I6_ _Li II 1 _2_C A 5.80 8.65 400.00 348. Q9-- 383.61 333^82-
|
||
? L A 4.10 6. IÏ 1 FM CA70 330.00 348.09 316.48 333.82
|
||
1 FM CA70 2.60 2.45 3.88 3.65 i P CATO 330.00 348.09 316.48 333.82
|
||
1 IR CA7Q 2-30 2.45 3-43 .65 CPDA 323.60 348.09 310.34 333.82
|
||
1 FM CATO 2.31 2.70 3.40 3.99 KA2 332.00 348.09 318.40 333.82
|
||
1 IR CA70 3. 10 2.70 4.57 3.99 ORF 301.00 348.09 288.67 333.82
|
||
2 P CA7Q 2-5^3Ü_ 37- ?fl VV 2 653*6QX 626.82X-
|
||
4101 1 C 22.00 22. 10 32.34 32.49 1 C 960.00 952.67 901.59 894.70
|
||
l L A 22.00 22. 10 32.34 32.49 1 L 840.00 952.67 788.89 894.70
|
||
1 F* CA70 22.20 22.10 ■3.2. 63. 32.49 J Q_ 1240.00* 1164. 5-6.*-.
|
||
1 IR CATO 22.20 32.63 1 1 890.00* 835.85*
|
||
2 P CA70 25.30 37. 19 1 2 655.00* 615.15*
|
||
1 VV 2 27.5QX 40.42X J 3_ 610.00* 577-89*
|
||
1 FM CATO 0.70 0.65 1.02 0.95 l 4 920.00* 864.03*
|
||
1 IR CA70 0.60 0.65 0.87 0.95 i 5 1030.00* 967.33*
|
||
NGC 7026 (PK NO. 89+ O 1) NGC 7026 (PK NO.
|
||
584
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7026 < PK NO. 89* Q 1) NGC 7027 (PK NO. 84 -3 11
|
||
WAVE IDENT N RG REF 08S I COR« I AVE C WAVE IDENT N BG REF □ BS I CGRR I AVE C
|
||
5006 (O IIH I 6 A 770.00* 723-15* 3340.8L (FE III ) 2 I KACE 3,65 13.00
|
||
l 7 A 680.00* 638.63* 3342.55 (NE III) 2 ABW l.OOX 3. 56X
|
||
1 8 A 2800.00* 2629.64* 2 1 KACE 0.33 1.17
|
||
1 FH CA70 960.00 901.99 3_ A41 13.6Q 4B.37
|
||
1 P CA70 960.00 952.67 901.59 894.70 KOS 16.00X 56.91X
|
||
1 CPDA 1000.00 952.67 939.16 894.70 3342.55 (CL 111)2 ABW l.OOX 3.56X
|
||
_1 QRF 996.00 952.67 935.40 894.7Q 2_ . KACE Q.33 1.17
|
||
VV 2 2580.COXA 2423.03XA 3345.86 (NE V ) 1 ABW 12.40X 44. 00 X
|
||
5411 HE II 1 VV 2 22.40 17.55 1 1 KACE 11.90 42.23
|
||
5517 (CL. 1.11J 1 IA AE2 Q.52* Q. 39.* 3_ AA1 13.60 48.26
|
||
l 2A AE2 1.00*A 0.75*A KOS 16.00X 56.78X
|
||
l IA AE2 1.00* 0.74* LA 16.50 58.55
|
||
1 2A AE2 l.QQ* 0.74* 3349.12 O IV ABW Q.15X Q.53X
|
||
5554 (N II ) l VV 2 43.00 43.00 31.71 31.71 KACE 0.02 O.C 0.08
|
||
5876 HE I l ORF 30. 00 30.50 19.61 19.94 ABW 0. 19X 0.67X
|
||
J
|
||
l
|
||
W_2_ 31-00
|
||
CAM 0. 01 *A
|
||
30-50 20-26
|
||
0 • 01 *A
|
||
19.94
|
||
3350.82 0 III 2
|
||
1 KACE
|
||
ABW
|
||
0-03
|
||
0. 19 X
|
||
0.03 0.10 ■ -Q.1Q
|
||
0.67X
|
||
l VV 2 44. 70 44.70 25. 12 25.12 3353.33 (CL III) l ABW 0.26X 0, 92 X
|
||
6548 _LN II ) J 162.00 62.00 84.50 1 KACE 0.07 0.24
|
||
1 QCB
|
||
CAM 1.00* 0.52* 84.5Q 3355.05 NF II 1 ABW 0.15X 0.53 X
|
||
1 OCB 692.00 593.00 359.23 307.84 2 1 KACE 0. 10 0.36
|
||
_1 QBJf- 494.00 593.00 2 56.45 307.84 -.3.35510ft (Fg III) 2 I KACE 0. 10 0.36
|
||
2 VV 2 1290.00 669.67 3357 0 ABW 0. 40 X 1.40X
|
||
1 W 1.00* 0.52* 0 1 KACE 0.0 0.0
|
||
6563 LN Li L 2 VV 2 129Q.QQ 669.67 3362.20 (NA IV ) 1 ABW , O^QX It 7ftX
|
||
6583 (N II ) l CAM 0.99* 0.51* 1 KACE 0. 13 0.45
|
||
1 OCB 389.00 369.50 200.66 190.60 ABW l.OOX 3.43X
|
||
J ORF 350.00 369.50 I BO.55 190.60 1 KACE Q. 25 0.25 0.86
|
||
1 W 0.44* 0.23* 3383.40 III 1 KACE 0.06 0.21 0.21
|
||
6717 (S II ) l IB AE2 0. 55* 0.27* 3385.5C IV I ABW 0.80X 2.73X
|
||
1 2R AF2 Q-6ft* 0.344 JL_ 1. KACE 0.17 0.17 0.58 0.58
|
||
l ORF 41.00 20.36 3396.67 0 IV 1 ABW 0.30X 1.01X
|
||
6730 (S II ) 1 IB AE2 1.00* 0.49* l 1 KACE 0.06 0. 19
|
||
._L 2B AE2 1.00* 0.494 3403.54 0 IV 1 AJBW 0 » 82 X
|
||
ORF 51.00 51.00 25.24 25.24 l 1 KACE 0.23 0.23 0.77 0.77
|
||
10 MU ( S IV 1 GMS 710.00 710.00 98.01 98.01 3404.82 I l 1 1 KACE 0.07 0.07 0.23 0.23
|
||
3405.71 _JLLI 1 4fiW 0-60X 2- 01 X
|
||
REGION KEY (REG ION,REFERENCE»EXPLANAT ION) 1 KACE 0. 11 0.36
|
||
1, A , MEAN 1 SEC FROM CNTR ON LINE BTWN LOBES 3407.96 0 III ABW 0.24X 0.80X
|
||
MF AN ? SFf. FROM CNTR ON LINE BTWf4-. LOBES -1.-KACE
|
||
MEAN 3 SEC FROM CNTR ON LINF BTWN LOBES 3409.60 ABW 0.45X 1.50X
|
||
MEAN 4 SEC FROM CNTR ON LINF BTWN LOBES 1 KACE 0. 0.25
|
||
MEAN S SEC. FROM CNTR (IN LINF BTWN LOBES —3411.74 Añil 1. 30X 4.34 X
|
||
MEAN 6 SEC FROM CNTR ON LINE BTWN LOBES 1 KACE 0.33 l. 10
|
||
MEAN 7 SEC FROM CNTR ON LINE BTWN LOBES 3413.66 O IV ABW 0.22X 0. 73X
|
||
MEAN 8 SEC FROM CNTR ON LINF BTWN LOBES
|
||
CENTER 3415.18 0 III 1 ABW 0.76X 2. 53X
|
||
LOBFS l 1 KACE 0.18 0.60
|
||
. X EUT E &. .UN- INF BETWEEN ? 1 ORES 3425. 97 (NE V 11 &3M 46.Q0X 151.69X
|
||
AE2 , PA=260 DEG., 3 ARCSEC FROM STAR - ,B ON DIF. SCALES 1 KACE 41.90 37.83 138.17 124.76
|
||
AE2 , PA=0 DEG., 0 ARCSEC FROM STAR — ON DIF. SCALES A4 1 29. 80 37.83 98.27 124.76
|
||
CA70. NEAP STAR. SEE REF. HLQ-S
|
||
CA70, INTERLOPE SPACE EAST OF STAR. SEE REF. LA 52.10 171.81
|
||
CA70, INTFRLOBE SPACE WEST OF STAR. SEE REF. MI71 41. 80 137.84
|
||
CA7Q, £N_i.C9£Sj SEE REF. T IT ARM 3-.40 X 1 1 . 1 BX
|
||
CA7C, FINAL MEAN L 1 KACE 1.34 4.41
|
||
CA70, INNER REGION I II 1 ABW 0 . BOX 2.63 X
|
||
CA70, PHOTOELECTRIC SCAN OF WHOLE NEBULA l 1 KACE 0. 16 0.16 0. 53 0.53
|
||
3431 0 1 KACF 0.07 0.07 0.23 0.23
|
||
NGC 7026 (PK NO. 89+ O II 3444.00 III) L ABW 8.00X 25.96X
|
||
X -KACE 6.69 ?1 .71
|
||
A41 7.20 23.36
|
||
KOS 26.COX 84.36X
|
||
BEGIN NGC 7027 (PK NO. 84-3 1) 1.37 (HYDROGEN LINES) J-A 52. 10 169.05
|
||
3447.54 ABW 0. 35X l. 13X
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR X 1 KACE 0.05 0.05 0.16 0.16
|
||
1549 C 1 BMS 0.17 -Q.a-7_ 3450.40 1 KACE 0.04 0. 12 0.12
|
||
1640 HE II 1 BMS 0.04 0.04 3455.20 0 III 1 1 KACF 0.07 0. 22
|
||
1909 (C III I 1 BMS 0. 10 0. 10 3466.38 (NI ) 1 ABW 0 • 47 X 1.50X
|
||
3047.13 0 III ABW 2.40X Ht?8X L_ 1 KACE 0.11 0.35 0.35
|
||
l 1 KACE 0.84 0.84 3.98 3.98 3471.80 HF I 1 KACE 0.05 0. 17
|
||
3121.67 0 III 1 ABW 1.80X 7.91X 3478.78 N I V ABW 0.27X 0. 85X
|
||
_1 1 KACE .6.3: 9.63 2,77 2.77 1 KACE _Q-.Q7 —CL. 21
|
||
3132.86 0 III 1 ABW 21.30X 92.68 X 3478.78 HE I ? 1 KACF 0.07 0.21
|
||
1 1 KACE 19.40 16.45 84.41 71.57 3487.90 HE I 2 l KACE 0.07 0.21
|
||
1 A41 13.50 16.45 58.74 71.57 3487.90 (MG IV ) 2 1 ABW KACE . Q.Q7 0.21
|
||
3187.81 HE I 1 ABW 1.70X 7.06X 3498.61 0. 22 X 0.68 X
|
||
1 1 KACE 0.97 4.03 l KACE 0.02 0.07
|
||
3203.15 HE II 1 ABW 8.20X 33.59X 3512.58 ABW 0.25X 0. 76 X
|
||
1 1 KACE 4.85 4.72 19.87 19.36 1 KACE 0.05 0.05 0. 15 0.15
|
||
l A41 4.60 4.72 18.84 19.36 3530.58 HE I ABW 0. 27 X 0. 81 X
|
||
3241.67 (NA _i_l ABW i-.-Qpx. 3.93X 1 KACE 0.06 0. 19 0.19
|
||
1 KACE 0.39 0.39 1.53 1.53 3554.34 ABW 0.40 X 1. 18X
|
||
3260.96 1 ABW 0. 28X 1.08 X 1 KACE 0. 10 0.29
|
||
_I 1 KACE On 11 0. 1 1 0« 42 0.42 3554.34 1 KACE 0.10
|
||
3265.43 0 III 1 ABW 0.50X 1. 92 X 3568.53 ABW 0.21 X 0. 61 X
|
||
l l KACF 0.14 0. 54 1 KACE 0.04 0.13
|
||
_3_29.9_.33 Q LLL 1 APW 2.ftQX 9.27X 3587.08 -ABW 0.50 X 1.43 X
|
||
1 1 KACE 1.18 0.94 4.37 3.48 1 KACE 0.20 0.57
|
||
l A41 0.70 0.94 2. 59 3.48 3587.08 (FE VII) 2 l KACF 0.20 0.57
|
||
3312.33 Q LLL 1 ABW 2.7QX —3.« 89 X 3613.59 HF I 1 ABW 0« 32X
|
||
l l KACE 2.45 2.87 8.97 10.53 KACE 0.08 0.24
|
||
i A41 3.30 2.87 12.08 10.53 3634.29 HE I ABW 0. 70X 1.93 X
|
||
3319.00 (FE III ) 1 1 MCX Q.Qft Q.Q5 0.18 0.18 1 KACF
|
||
3334.84 (FE III 1 KACE 07 0.25 3657.68 H I ABW 0. 08 X 0.22X
|
||
3334.64 NE II 1 ABW 26 X 0.93X 3658.56 H I ABW 0. 10X 0. 27X
|
||
2 3659.46 _b I— 1 KACE ABW Q.1QX
|
||
1 ABW 3.30X 11.77X 3660.34 ABW 0.14X 0.38 X
|
||
2 1 KACE 3.65 13.01 1 KACE 0.0 0.0
|
||
_3 AAJ 13.60 48.49 3661.78 ABW O- 7DX
|
||
16.00X 57.05X KACE 0.0 0.0
|
||
16.50 58.83 3662.25 H I ABW 0. 31 X 0.84X
|
||
NGC 7027 (PK NO. 84 -3 1) NGC 7027 (PK NO. 84-3 1)
|
||
585
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGf 70? 7 (PK ND- NGC 7027 (PK NO. 84-3 1)
|
||
WAVE 1DENT N RG REF OBS 1 AVE 0 CORR I AVE C WAVE I DENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3662. 2_5 H I 0 1 KACE Q.Q Q^Q Q.Q- Û^JÛ 3740 HE II 0 I KACE 0.0 0.0 0.0 0.0
|
||
1 ABW 0.39X 1.05X 3740.30 (FE VI ) 0 1 KACE 0.0 0.0 0.0
|
||
0 1 KACE 0.0 0.0 3744 O ABW 0.30X 0.76X
|
||
3664.67 H I -L AB1L 0. 52 X I.40X -J. 1 KACE 0.04 0.04 0.09 0.09
|
||
1 1 KACE 0. 14 0.14 0.38 3745.91 N III ABW 0.20X 0.50X
|
||
3666.15 H I 1 ABW 0.67X 1.80X 1 KACE 0.03 0.08 0.08
|
||
_1 1 KACJE 0.15 -Q.15 - -0.4JL 3748 - -HE LL . ABW Q*AQX . -1.Q1X
|
||
ABW 0. 2.26X 84X 1 KACE 0. 0.04 0. 11
|
||
1 KACE 0. 18 0.48 ABW 2.80X 7.03X
|
||
ABW 1. -2.69X QQX 1 KACE 1. L.33- -3.62 3.34
|
||
1 1 KACE 0. 18 0.18 0.50 0.50 A41 1.20 3.01
|
||
l ABW 0.90X 2.41 X ABW 1.40X 3.50X
|
||
JL 1 KACE 0.22 ■Q.22_ 0.59 i KACE 0^50. fl* 5-0— 1.25
|
||
3673.73 H I 1 ABW 2.41X 3757.26 0 III 1 ABW 0.80X 2.00X
|
||
1 l KACE 0.24 0.64 1 l KACE 0.11 0.28
|
||
_1 ABW— 3 7.59.76 Q LLI L_ ABW 3..JQX -9.Z2X
|
||
KACE 0.30 0.30 0.80 KACE 2.17 1.83 5.40 4.57
|
||
ABW 0. 07 X 0. 19 X A41 1.50 1.83 3.74 4.57
|
||
KACE Q.-Q1 -0.03 3768 -HE. JJL ABW 0.60X 1
|
||
3679.37 H I ABW 1.02X 2.72X 1 KACE 0.08 0.08 0.20
|
||
KACE 0.35 0.93 3770.59 H I ABW 3.20X 7.89X
|
||
36.81 HE II L_ ABW 0^12 X_ _ Q. 32.X— 1 KACE 1.84
|
||
1 KACE 0.02 0.05 A41 1.20 2.96
|
||
ABW l. 10X 2.93X ABW 0.70X 1.72X
|
||
1 KACE Q..44 - 1.-U 1 KACE 0.11 -0.28
|
||
3685 ABW 0. 13X 0. 35X 3773.98 (FE VI ) 2 1 KACE 0. 11 0.28
|
||
1 KACE 0.02 0.05 3777.07 (FE V ) 2 1 KACE 0.01 0.04
|
||
3686. ABW L.50X - 3.98X- 3777.07 -fclF U l_
|
||
1 KACE 0.48 0.44 1.27 1.18 1 KACE 0.01
|
||
Ml71 0.41 0.44 1.09 1.18 HE I I 1 ABW 0.60X 1.47X
|
||
3689 âaw Q..25X- - 0.66X L_ 1 KACE 0.08 .0.21
|
||
KACE 0.04 0. 10 3783.47 (FE V 11 ABW 0.20 X 0.49X
|
||
3690.07 HF II ABW 0.25X 0.66 X 3784.80 HE I 0 1 KACE 0.0 0.0
|
||
3691.56 ti I ABW 1 .bOX 3 7-91.2-7 _□ I_U 1 _ABM—
|
||
l 1 KACE 0.55 0.52 1.45 1.37 l l KACE 0. 18 0.44
|
||
1 MI 71 0.49 0.52 1.29 1.37 3795.23 (FE V 1 1 ABW 0. 17X 0. 41 X
|
||
—HE. JJ 1 ABW Q.15X . Q.4QX L_ -l—KACF 0.03 0. OB
|
||
l KACE 0.02 0.02 0.06 3796.30 ABW 0.47 X 1. 13X
|
||
3694.38 NE TI ABW 0.24X 0.63X 1 KACE 0. 10 0.23
|
||
1 KACE 3 797 - ft 1 ABM 4.50 X 10.84X
|
||
3695 HF II I ABW 0.30X 0.79 X l KACE 2.46 2.52 5.93 6.07
|
||
l 1 KACE 0. 05 0. 13 A41 2.20 2.52 5.30 6.07
|
||
3697.17 H I _1 ABW 1.7Q-X- 4.47X LA 2.90 2.52 -6.99 6.07
|
||
l 1 KACE 0.64 0.59 1.68 1.55 ABW 0. 15X 0.36X
|
||
1 MI 71 0. 54 0.59 1.42 1.55 KACE 0.02 0.06
|
||
3698.7? He T T 1 ABW 0.30 X 0.79 X 3805.65 HE I- ABH Q.15X 0.36X
|
||
1 l KACE 0.05 0. 12 1 KACE 0.03 0.08 0.08
|
||
1 ABW 0.30X 0.79 X ABW 0.15X 0. 36X
|
||
-4 1 KACE ■ HE I I 1
|
||
-LKAC-E
|
||
ABW
|
||
Q.-Q2
|
||
0.70X
|
||
Q. 02 Q.Q6
|
||
1.66X
|
||
1 ABW 1.80X 4.71 X
|
||
1 1 KACE 0.69 0.65 1.81 1.71 l 1 KACE 0.13 0. 31 0.31
|
||
-J M1-2 1 n. 0-65 1.71 —HE I 1 ABW 1-?0X 2. 83 X
|
||
3705.05 HE I ABW l.OOX 2. 61X 1 KACE 0.49 1.16
|
||
1 KACE 0.26 0.68 3829.93 N I I 1 KACE 0.01 0.02
|
||
ABM Q-» 23JL Q_6QX. 3829.93 NF T ! ABM- Q.-Q6X— n. 14x
|
||
1 K AC F 0.04 0.04 0. 10 0.10 1 KACE 0.01 0.02
|
||
ABW 0.34X 0. 89 X 3833.78 HE II 1 KACE 0.11 0.25
|
||
1 KACE 0.02 0.02 0.06 0.06 3833.78 HE I ABW 0.60X 1.40X
|
||
3709.59 0 III 1 KACE 0.03 0.08 3833.78 HE II ABW 0.60X 1.40X
|
||
3709.59 NP II ABW 0.20X 0. 52X 3835.35 H I ABW 5.20X 12.09X
|
||
JL KACE_ 0.Q3 Q.^QS 1 KACE 3.50 3-55_ -8.,_L4._ j-25-
|
||
3710 HE II A 8W 0. 27X 0.70X A41 3. 10 3.55 7.21 8.25
|
||
1 1 KACE 0.04 0.11 LA 4.70 3.55 10.93 8.25
|
||
3711.98 H I _J ABW - 5-H2X_ _Q_ 1»9_Q_ 3.55 6.14 3.-25
|
||
L KACE 0.84 0.69 2. 18 1.78 3839.50 V 1 l ABW 0. 31X 0.72X
|
||
l A41 0.50 0.69 1.30 1.78 1 1 KACE 0.08 0.08 0. 18 0. 18
|
||
_1 BLll— -Û.72- 0.69 1.87 1.78 . 3843.00 _LI L_ 1 KACE Q. 04 Q. Q4- . Q.IQ (Lao .
|
||
3715 HP II 2 ABW 0.70 X 1 • 8 1X 3 844 I KACE 0.03 0.03 0.07
|
||
2 1 KACE 0.10 0.26 3851.20 (FE V 11 ABW 0.09X 0. 21X
|
||
3715.18 0 HI _2 ABW B. 7QX_ 1.81X . 3853.42 SI II 1 ABW 0.06X 0. 14X
|
||
1 KACE 0. 10 0.26 I KACE 0.01 0.01 0.03 0.03
|
||
371 7 1 KACE o;o3 0.08 3856.03 SI II ABW 0. 30X 0.68X
|
||
3.720 _J ABW- CL.36X. Û.93X 1 KACE j.03— 0.03 0.06 0.06
|
||
1 KACE 0.04 0.11 3858.09 HE I I l ABW 0.80 X 1.82X
|
||
ABW 3.70X 9.53 X l l KACE 0. 19 0.43
|
||
1 KACE 1.94 5.00 3862.54 SI I I 1 ABW 0.35X 0.79X
|
||
3721.38 ( S III » ABW 3.70X 9. 53X 1 KACE 0.13 0.13 0.29 0.29
|
||
2 l KACE 1.94 5.00 ABW 0.0 X 0.0 0.0 X 0.0
|
||
37?6.CO (□ II > 1 A&W 10.80X _ 2 7 ♦_? 1 X— 1 KACE 0.0 0.0 0.0 0.0
|
||
KACE 8.62 22. 12 3868.75 (NE III 1 1 ABW 51.00X 114.94X
|
||
A41 11.90 30. 53 1 1 KACE 50.20 48.80 113.14 109.98
|
||
_AH— L.QO* 2.57» 1 A41 44.30 48.80 99.84 109.98
|
||
AUV 1.00» 2.57» 50.70 48.80 114.27 109.98
|
||
LA 16.30 41.82 50.00 48.80 112.69 109.98
|
||
MI71 Bj 62 — 22.12 52.60X 118.55X
|
||
0 12.90 33. 10 3871.59 HE I l ABW 0.40X 0.90X
|
||
FTP 14. 50 37.21 1 KACE 0.07 0.07 0.15 0.15
|
||
VV- 2 - 15.8QX -4Q.-54X- 3887.53 -HE . li 1— . ABW 0.0 X ■Q.Q 0.0 X .Q-.Q
|
||
3728.74 (O II ) 1 ABW 5.60X 14.33X 1 KACE 8.80 19.47
|
||
l 1 KACE 3.00 7.68 ABW 8.00X 17.68X
|
||
J AH 0-47* 1.2Q* . 1- KA.C.E -&.8Q 19.45
|
||
AUV 0.47* 1.20» A41 8.00 17.68
|
||
MI71 3. 13 8.01 LA 7.90 17.46
|
||
_2.7 3-.-L_ ABW _ Q.21X Q. 54X 0 9.10 _20-j-Ll—
|
||
0 l KACE 0.03 0.08 VV 2 0.0 XA 0.0 XA
|
||
1 ABW 0.60X 1.53 X 1 KACE 8.80 19.45
|
||
_L 1 KACE— Q. 06
|
||
2.60X
|
||
Q. 16 AAJ 8.00 17.68
|
||
3734.33 H I 1 ABW 6.62X 7.90 17.46
|
||
1 1 KACE 1.15 2.93 9.10 20.11
|
||
3736.77 O IV 1 ABW C.90X 2.29X VV 2 0.0 XA 0.0 Q.Q XA Q.Q
|
||
1 KACE 0. 16 0.41 3891.33 (FE V ) 1 ABW 0.50X 1. 10X
|
||
ABW O. 50X 1.27X 1 KACE 0. 10 0.22
|
||
NGC 702 7 ( PK NO. 84-3 1) NGC 702 7 (PK NO. -3 1)
|
||
586
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 7027 (PK NO. 84-3 1) NGC 7Q27 (PK NO. 84-3 1>
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3895.48 (FE V ) I ABW 0.35X 0.77X 4103.31 N III I \ KAÇÇ 0.47 0.47 0.87 Q-»_9-l-.
|
||
1 1 KACE 0.05 0.05 0.12 A41 13.00 23.99
|
||
3911.86 (FE V I 1 ABW 0.07X 0. 15X ABW 0.20X 0. 36X
|
||
1 1 KACE Q. Ql Q..QL 0.02 Q.Q2 1 KACE 0.04 0.07
|
||
3919.21 C I I l ABW 0.07X 0. 15X 4120.73 HE I ABW O. 50X 0. 91X
|
||
l 1 KACE 0.01 0.02 0.02 l KACE 0. 14 0.25
|
||
392Q.66 _C LL_ _1 ABW Q.16X Q.34X- 4122.46 (K V ABW 0.35X 0.64 X
|
||
l 1 KACE 0.03 0.06 0.06 1 KACE 0.09 0.09 0. 16 0. 16
|
||
3923.47 HE II 1 ABW 0.70X 1.50X 4128.75 (FE I III l 1 KACE 0. 12 0. 12 0.22 0.22
|
||
_1 1 KACE Q.24 0.22- _fl.¿2 0.47 4128 0_ ABW 0. BOX . 54 X
|
||
A41 0.20 0.22 0.43 0.47 4143.63 HE I 1 ABW 0.60X 1.07X
|
||
3926.55 HE I ABW 0.30X 0.64X l 1 KACE 0. 17 0.20 0.30 0.37
|
||
1 KACE 0.06 0.12 _L_ A41 • 24.. . 0.20 0.43 0.37
|
||
3954.50 0 I I 1 ABW 0.07X 0. 15X 4146 0 ABW 0.0 0.0
|
||
1 1 KACE 0.01 0.01 0.02 0.02 4152.55 C III i ABW 0.07X 0. 12 X
|
||
3956.86 0 IV _J 1 KAÇ.E 0.04 0.04 0.08 0.08 4156.28 C LU 1 A_ß_H Q.3QX -Q.53X
|
||
3956 0 ABW 0.22 X 0.46 X 1 KACE .02 0. 04 0.04
|
||
3961.64 1 ABW 0.20X 0.42X 4163.25 (K V ) 1 ABW 0.50X 0. 88X
|
||
_2 I KAC-E Q.Q3 0.07 _L 1 KACE Q.18 -0.32 0.32
|
||
3961 (F IV I 1 KACE 0. 0.07 4168.92 03HE I ABW 0.11X 0. 19 X
|
||
3964.82 HE I 1 ABW 1. 10X 2.29X 1 KACE 0.03 0.05
|
||
J 1 KAC-E Qm 29 0.29 Q.6Q Q.6Q.. 4180.86 (FF V I I ABW Q. 15X -Q.26X
|
||
3967.47 (NE III) 1 ABW 25.00X 51.85 X 1 KACE 0.03 0.05
|
||
1 1 KACE 20.30 2 0.30 42. 10 4185.46 O II ABW 0.11X 0. 19X
|
||
2 A4! 21.60 44. 80 L KACE 0.03 Q. Q3 -Q.Q5
|
||
LA 26.40 54.75 4186.82 ABW 0.50X 0.86 X
|
||
0 24.50 50.81 KACE 0. 17 0.29
|
||
VV 7 8. 90X 59.94X 4189.75 ABW Q. 15X -Q.26X
|
||
1 ABW 25•00 X 51.81X l KACE 0.03 0.03 0. 05 0.05
|
||
2 1 KACE 6.20 A 12.85 A 4194 1 KACE 0.02 0.02 0.04 0.04
|
||
_2 A41 21.60 44.76 41QS.60 AÜW
|
||
26.40 54.71 KACE 0. 03 0.05
|
||
24. 50 50.77 4199.81 HE II ABW 1.50 X 2.55X
|
||
2B.9QX 59. 89 X K Ar p
|
||
3970 HE II 2 1 KACE 6.20 A 12.83 A 1 A41 0.30 0.51
|
||
3997.36 (F IV ) l ABW 0. 16X 0.32X 4227.35 (FE V ) I AUW 0.45X 0. 75X
|
||
J I KACE 0.03 0.05 1 KACE
|
||
4003 ABW 0.0 X 0.0 X 0.0 4229.21 (FF V 11 1 KACE 0.03 0. 05
|
||
4007.91 ABW 0. 13X 0.26 X 4229 ABW 0. 11X 0. 18 X
|
||
KACE 0.05 4.753,70
|
||
4009.26 HE I 1 ABW 0.40X 0.80X l KACE 0. 01 0.01 0.02 0.02
|
||
1 1 KACE 0.09 0. 18 4253.79 ABW 0.08 X 0. 13X
|
||
401 1.60 (NA V L _2 1 KACE 4761 n. 03 0.05
|
||
4011.60 1 ABW 0.06X 0.12X ABW 1 .OOX I • 61 X
|
||
2 1 KACE 0.01 0.02 l KACE 0.42 0.41 0.68 0.66
|
||
4026.0? _2 AB-W -CU.4U. 0.66
|
||
2 1 KACE 1.32 2.61 4275.48 1 KACE 0.01 0.02
|
||
1 A41 1.00 1.50 1.97 2.96 4275 ABW 0.09X 0. 14X
|
||
1.5-Q- 2.96
|
||
VV 2 7.40X 14.61X 4276.55 0 I I 1 KACE 0.02 0.03
|
||
4026.02 HE II ABW 2.30 X 4.54X 4276.55 0 I I 1 KACE 0.02 0.03
|
||
1 KACF
|
||
4034.80 0 I I 1 1 KACE 0.02 0.02 0.05 0.05 4325.90 ABW O. 12X 0. 18 X
|
||
4046.40 (FE I II 1 1 1 KACE 0.07 0.07 0. 14 0.14 l KACE 0.02 0.03
|
||
4060.23 (FF TV 1 J ABW 0.30X nT 57* 4338.B9.. ABW - 33.OOX 50. 25 X
|
||
l KACE 0.09 0.09 0. 17 0.17 1 KACE 0.72 1. 10
|
||
4068.57 ( S III ABW 4.50X 8. 56 X ABW 33.OOX 50.20X
|
||
1 KACE 3.70 3.70 7.04 7.04 l KACE 31.10 30.60 47. 31 46.55
|
||
4070.12 C III ABW 0.50X 0.95X A41 27. 10 30.60 41.23 46.55
|
||
1 KACE 0.28 0.28 0.53 0.53 AN 46.70X 71.04X
|
||
4Q71.29 (FE V L_ ABW 0 . 22 X Q.42X LA .32.9Q 3Q.6Q —5QU35 _46.5.5_
|
||
l 1 KACE 0.04 0.04 0.08 0.08 31.20 30.60 47.46 46.55
|
||
4072 (S II I l A41 4.80 6.53 9. 10 12.38 3 1.20 30.60 47.46 46.55
|
||
_! LA 6.JgO_ 6.53 12.33 12.38 30. 70 30.60 46. 70 46.55
|
||
0 9.8 6.53 18. 58 12.38 31.90 30.60 48. 53 46.55
|
||
FTP 5. 02 6.53 9.52 12.38 30.60 30.60 46. 55 46.55
|
||
4072.13 Q LL_ ABW Q. 3QX... 0. 57X 34.20 30.60 52.03 46.55
|
||
l 1 KACE 0.07 0.07 0. 14 0.14 0 30.90 30.60 47. 01 46.55
|
||
4073.93 1 1 KACE 0.03 0.03 0.05 0.05 ncR 28.80 30.60 43. 81 46.55
|
||
4073 0 ABW 0.20 X 0.38X PTP 30.20 30.60 45. 94 46.55
|
||
4076.20 ( S I I I 1 ABW 2.30X 4. 35X 27.00 41.07
|
||
1 l KACE 1.46 2.76 44.70X 68.OOX
|
||
4078.69 C I I 1 ABW 0.09X . L7*_ 4343 ABW Q.2QX O.3QX
|
||
l 1 KACE 0.02 0.02 0.03 0.03 KACE 0. 03 0.05 0.05
|
||
4080.86 1 1 KACE 0.01 0.01 0.03 0.03 ABW 0. 12X 0. 18 X
|
||
4Q8Q _Q ABW 0.08X Q« 15X l .KAÇE, 0.02 Q...Q-2- 0.03
|
||
4084.01 l 1 KACE 0.02 0.04 4363.21 (0 III I l ABW 18.OOX 26.89 X
|
||
4084 0 ABW 0. 11X 0. 21X l 1 KACE 18.30 18.04 27.34 26.95
|
||
4CB7-15 0 I I _J ABW Q.Q3X Q.Q6X L_ A4 1 14.60 18.04 21.81 26.95
|
||
1 1 KACE 0.01 0.01 0.01 0.01 AN 35.10X 52.44X
|
||
4089.18 O II 1 ABW 0. 15X 0. 28 X LA 19. 10 18.04 28.53 26.95
|
||
_1 1 KACE 0.03 Q, 06 Q.Qfr - 17.40 18.04 2 5.99 26.95
|
||
4097.33 N III 1 ABW 2.OOX 3.71X 1 MM 19.20 18.04 28.68 26.95
|
||
1 1 KACE 1.07 1.98 2 MM 17.40 18.04 25. 99 26.95
|
||
J A 41 ,1 24,11- 22.30 18,Q4 .. —33.31 26.95
|
||
4100.07 HE II 1 ABW 1.40X 2.59 X n 17.40 18.04 25.99 26.95
|
||
l 1 KACE 0.40 0.74 OCB 17. 30 18.04 25.85 26.95
|
||
4101.72 H I 1 ABW 14.OOX 25. 88X PTP . 17,49 18.04 25.99 26.95
|
||
1 KACE 13. 30 24.58 44.70X 66.78 X
|
||
3 A41 13.00 24.03 ABW 0.17 X 0.25 X
|
||
1 LA 15.40 29,46 28.23 1 KACE 0.03 0.04
|
||
M I 71 14.40 15.27 26.62 23.23 4376 1 KACF 0.03 0.03 0. 04 0.04
|
||
MI 73 15.30 15.27 28.28 28.23 4379.17 ABW 0.30X 0. 44X
|
||
MM 15.30 15.27 28.28 28.23 1 KACE 0.08 0.08 -Q.n 3.11
|
||
l B MM 15.60 15.27 28.83 28.23 4387.84 ABW 1.20 X 1.76X
|
||
1 1 MM 16. 50 15.27 30.50 28.23 1 KACE 0.33 0.33 0.48 0.48
|
||
1 2 MM 15.50 15.27 28.65 . 28^,3 4391 .95 1 KACE 0.02 0.02 0.03 0.03
|
||
17.50 15.27 32.35 28.23 4391 ABW 0. 12 X 0. 18X
|
||
14.10 15.27 26. 06 28.23 4414.81 ABW 0.14 X 0. 20X
|
||
15. 10 15.17 27.91 28.23 KACF Q. 02 _flU)2 0.03
|
||
VV 2 19.20X 35.49X ABW 0.08 X 0. L1 X
|
||
4103.31 N III ABW 1.90X 3. 51X 1 KACE 0. 01 0.02
|
||
NGC 7027 (PK NO. NGC 7027 (PK NO.
|
||
587
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 702 7 I PK NO*. NGC 7027 (PK NO. 84 -3 II
|
||
WAVE N PG REF OBS I CORR I WAVE I DENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
_S ABW 0.11X 0. 16X 4678.17 N II 1 1 KACE 0.03 0.03 0.03 0.03
|
||
0 1 KACE 0.02 0.02 0.03 0.03 0 ABW 0.09X 0. 10X
|
||
4437.61 HE I 1 ABW 0. 17 X 0. 24X 0 1 KACE 0.04 0.05
|
||
1 1 KACE 0.04 -Qf-QA.. 0.06 0.06 468Q _Q k&M Q.18JL. -0.21 X
|
||
ABW 0. 14X 0. 20 X 4685.75 HE II ABW 42.00X 48.51X
|
||
1 KACE 0.02 0.03 l 1 KACE 41.20 39.93 47.59 46.13
|
||
ABW QtUX . Q»17X_ I PE KACE 39« 70 39.93 __4.4«7Q ^6.13
|
||
0 l KACE 0.02 0.03 0.03 A41 38.90 44.93
|
||
4471.39 HE I 1 ABW 5.00X 6.89X AN 66.00X 76.24X
|
||
_J 1 *A.CE 2.99 -^.9-7 . 3.« U 4.10 LA *3.30 39.93 . 47.59
|
||
30..02 49.13
|
||
2.70 3.72 l 1 41.20 39.93 46.13
|
||
12.00X 16.54X 1 2 42. 50 39.93 49.09 46.13
|
||
LA.. 3.90 2.97 5.37 4.10- _1 3_ 35.00 39.93 40.43 46.13
|
||
2.76 2.97 3.80 4.10 39. 80 39.93 45.97 46.13
|
||
2.43 2.97 3.35 4.10 PTP 38. 80 39.93 44. 82 46.13
|
||
4.08 . .97 5.62 4.10 . VV 2 42.IPX 48.63 X
|
||
2.60 2.97 3.58 4. 10 4688 ABW 0.22 X 0.25X
|
||
PTP 2. 62 2.97 3.61 4.10 KACE 0.04 0.05
|
||
VV 2 10.00X 13.78X 4701.26 (FE III) ABM 0. 09 X 0. IPX
|
||
4481.29 MG II 1 ABW 0. 10X 0.14X 1 1 KACE 0.05 0.05 0.06 0.06
|
||
1 1 KACE 0. 01 0.01 0.02 0.02 4711.42 (AR IV ) 1 ABM 2.80X 3. 17X
|
||
4491.16 Q LI_ 1 1 K AC F Q.Q1 X Q^Ql. 0.01 J 1 KACE 1.76 1.76 1-99
|
||
4491 0 ABW 0.09 0.12X 2 PE KACE 13.50 15.27
|
||
4510.94 III 2 l KACE 0.05 0.07 3 A41 10.20 11.54
|
||
4510.94 III 2 1 KACE 0.05 0.07 LA . . 13»,3Q,. 15.04
|
||
4510.94 (K IV ) 1 ABW 0.50X 0. 67 X 0 7.40 8.37
|
||
2 1 KACE 0.05 0.07 A41 10.20 11.54
|
||
4514.58 N LLL 1 ABW 0- 11X Q.15X -LA 13.30 ■ 15.Q4
|
||
1 KACE 0.02 0.02 0.02 2 0 7. 40 8.37
|
||
ABW 0.09 X 0. 12 X 4713.20 HE I l ABM 0.0 X 0.48 0.0 X 0.54
|
||
1 KACE 0.01 0.02 O.n? _J 1 KACE 0.48 0.48 0.54 Q.54
|
||
4518.02 N III ABW 0.09X 0. 12 X 4715.74 (NE TV ) l ABM 0.80X 0.90X
|
||
KACE 0. 01 0.02 l 1 KACE 0.69 0.69 0.78 0.78
|
||
4523.57 N III Aß M— 0.07 X 0.09 X 4715.74 (NE IV ) 1 1 KACE
|
||
ABM ■Q-. ¿2 0.22 .0.25 0.25
|
||
l l KACE 0. 01 0.01 4725.67 (NE IV ) 1 1.30X 1.45 X
|
||
4534.53 N III l ABW 0.07X 0. 09X 1 KACE 0. 97 1.08
|
||
.1 1 KAC 4725.67 (NF IV 1 1 -L KA.CE 0.78 0.87
|
||
4541.43 HP II ABW 2. 50X 3. 2ÓX 4733.68 (FE III) ABM 0.0 0.0 0.0 X 0.0
|
||
1 KACE 1.28 1.84 1.67 2.40 4740.03 (AR IV ) ABM 0.0 7.56 0.0 X 8.34
|
||
A 41 1. 70 1.84 Z.22 2.40 ■ l- KACE -8.34
|
||
3.10 1.84 4.04 2.40 PE KACE 13. 50 14.90
|
||
1.30 1.84 1.69 2.40 A4 1 10.20 11.25
|
||
Q.Q3X Q.Q4X LA 13.30 -44.6B
|
||
1 1 KACE 0.01 0.01 0 8. 70 9.60
|
||
4552.OC SI III 1 ABW 0. 40X 0. 52X 4754.90 (FE III) ABM 0.40 X 0.44X
|
||
-4562 (MG I L 1 ABW 1 KAC.F
|
||
1 l KACE 0. 04 0.05 0.05 4859.32 HE II 1 ABM 0.0 X 1.80 0.0 X 1.80
|
||
4570.92 MG I 1 ABW 1.90 X 2.41X 1 l KAC P 1.80 1.80 1.80 1.80
|
||
—1 1 KA-C-E— _4861..3Q H J _JL ABM 1QQ.QQX 100.QOX
|
||
A41 0.60 0.76 1 1 KACE 98.20 99.91 98.20 99.91
|
||
4590.80 O II ABW 0. 09 X 0. 11X 1 PE KACE 100.00 99.91 100.00 99.91
|
||
1 KACE _1 A44 99.91 99.91
|
||
4596.08 0 II ABW 0.06 X 0. 07 X AN 100.OOX 100.OOX
|
||
l KACE 0.02 0.02 0.03 0.03 CPDA 100.00 99.91 100.00 99.91
|
||
4603.80 N— /LEW 0. 05 X 0. 06X _Q£ 1QQ.QQ 99.91 100.00 _aa.9i.
|
||
l KACE 0.02 0.02 0.02 0.02 KOS 100.OOX 100.OOX
|
||
4606.55 (FE III) ABW 0.35 X 0. 43 X LA 100.00 99.91 100.00 99.91
|
||
1 KACE 0. 09 0.09 0. 11 0.11 L A 54 100.00 99.91 100.00 99.91
|
||
4619.87 N V ABW 0.12X O. 15X MI 7 1 100.00 99.91 100.00 99.91
|
||
1 KACE 0. 02 0.02 0.03 0.03 MI 7 3 100.00 99.91 100.00 99.91
|
||
4625.43 IAP V L ABM Q.4QX Q.49X 100.00 99.91 1QQ.QQ 99-91
|
||
1 KACF 0.06 0.06 0.07 0.07 B MM 100.00 99.91 100.00 99.91
|
||
4632 ABW 0.43X 0. 52 X 1 MM 100.00 99.91 100.00 99.91
|
||
1 KAC.F 0. 18 0.22 -2.-M 100.00 99.91 100» 00 99.91
|
||
4634.11 1 ABW 2. 50X 3. 01X 100.00 99.91 100.00 99.91
|
||
1 1 KACE 1.16 1.40 MS 100.00 99.91 100.00 99.91
|
||
_4 ÔA1 5.80 6.99 _Û— 100.00 . 9-9 «.91 100.00 -39*.91
|
||
LA 9.20 11.09 OCB 100.00 99.91 100.00 99.91
|
||
4640.69 N III ABW 3.60X 4.31X PTP 100.00 99.91 100.00 99.91
|
||
1 KACE . 2.35 2.35 2.82 2.82 _BZ - IQQj QQ -19^91 100.00 ,99.91
|
||
4 A41 5. 80 6.95 1 100.OOX 100.OOX
|
||
4642.01 N III 1 ABW 0.60X 0. 72X 4893.42 (FE VII) 1 ABM 0.06X 0.06X
|
||
1 1 KACF 0.35 J L&a.çe 0.12 -fl. 12 0.12 -0.12
|
||
4647.34 C III ABW 1.20X 1.43X 4921.96 HF I ABM 3. 10X 2.97X
|
||
l 1 KACE 0.37 0.44 KACE 0. 89 0.85
|
||
_ 4649^1 0 II . _ 1 ABW Q.41X 0 « 49 X 4930.97 (0 ITT) 0.05X Q.Q5X
|
||
1 1 KACE 0. 14 0. 14 0.17 0.17 l l KACE 0.33 0.33 0.31 0.31
|
||
4650.35 C III l ABW 0.50 X 0. 59 X 4944.10 (FE VII ) l ABM 0.0 X 0.0 0.0 0.0
|
||
J. 1 KACE... 0« 20 -0.i2.fl- ■Q. 24 0.24 _Q 1 KACE Q.O 0.0 Q.O
|
||
5.80 6.90 4950 ABM 0.0 X 0.0 0.0 X 0.0
|
||
9. 20 10.94 1 KACE 0.0 0.0 0.0 0.0
|
||
4651.54 C. Ill 1 0« 20 X —0..24X- 4958.95 (0 III) 1 ABM 514.OOX 48Q.84X
|
||
1 KACE 0. 06 0.06 0.07 0.07 l l KACE 512.00 511.60 478.97 478.59
|
||
4654.4C N I I 1 KACE 0. 04 0.04 0.05 0.05 1 PE KACE 510.00 511.60 477. 10 478.59
|
||
4657.69 (fe mi J ABW. - 1.6QX 1.89X _1 A41 49Q.QQ 511.60 -458.39 .478.59
|
||
1 1 KACE 0.27 0. 32 365.OOX 341.45X
|
||
1 ABW 1.60X 1.89 X CPDA 489.80 511.60 458.20 478.5*
|
||
_1 1 KACE Q. 42 0.42 Q.5Q —Q..5.Q.. -LA -JLQ6. QQ 511.60 473. ..47Bt59
|
||
4 A41 5. 80 6.85 675.00 511.60 631.45 478.59
|
||
I ABW 0.13X O. 15X 502.00 511.60 469.61 478.59
|
||
_1 1 KA.CE ..Q.t 05 . . . 0.05.. . 0.06 0.06 L. Mil... 51Q.QQ 511.60 477.10 478.59
|
||
l ABW 0.06X 0.07X 1 2 MM 512.00 511.60 478.97 478.59
|
||
l 1 KACE 0. 02 0.02 1 3 MM 573. 00 511.60 536.03 478.59
|
||
-4.665.61 C LUL _1 ABW 0. 13 X Q. 15X 1 MS 520.00 511.60 486.45 478.59
|
||
1 KACE 0.05 0.06 0 513.00 511.60 479.91 478.59
|
||
4665.61 C IV 2 I KACE 0.05 0.06 R2 338.00 511.60 316.19 478.59
|
||
4669.20 IP LL_ _L 1 KACE- _Q._Q3_ 0.03- Q.Q3 ..Q.Q3 VV 2 2893,OOX 2706.37X
|
||
4669 ABW 0.22 X 0. 26X 4972.12 (FE VI ) l ABM 0.0 X 0. 17 0.0 X 0.16
|
||
4673.46 ABW 0.09X 0. 11X 1 1 KACE 0.17 0.17 0. 16 0.16
|
||
1 KAC.F 0- OB 5006.88 (0 III) 1 ABM 1545.OOX 1397.89X
|
||
4676.06 0 II l ABW 0. 18 X 0. 21 X 1 1 KACE 1553.00 1453.15 1405.13 1314.79
|
||
l I KACE 0.04 0.05 l PE KACE 1500.00 1453. 15 1357. 17 1314.79
|
||
NGC 7027 (PK NO. 84 -3 1) NGC 702 7 (PK NO.
|
||
|
||
588
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
7 6Ap JS ... .31. . 517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 702 7 (PK NQ. 84 ~3. ll_ NGC 70? 7 (PK Nfl.
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE N RG REF OSS I AVE 0 CORR I AVE C
|
||
5006.88 (0 I II ) I A41 1390 .00 14 53 f 15.,.. 1248.60 l314*79 5726 0 ABM 0.0 X 0.0 0.0 X 0.0
|
||
AN 789.OOX 713.87X 2 l KACE 0.56 0.31
|
||
BE 1000.00* 904.78* 5754.59 (N II ) 1 ABM 12.OOX 6. 54X
|
||
ÇPP-A. 1230.00 1453,15. 1112.88 1314.79 J \ K.AÇE IQtOO 11.03 5.45
|
||
1 LA 1590.00 1453. 15 1438.60 1314.79 1 PE KACE 11.20 11.03 6. 10 6.01
|
||
1 LA54 1345.00 1453.15 1216.93 1314.79 1 A41 10.00 11.03 5.45 6.01
|
||
1 A MM 1567.00 1453.15 1417,79 1314.79 _1 1 mm 9.02 11.03 frtQl
|
||
1 1 MM 1580. 00 1453. 15 1429. 56 1314.79 1 2 IO. 30 11.03 5. 61 6.01
|
||
1 2 MM 1582.00 1453.15 1431. 36 1314.79 1 3 12.90 11.03 7. 03 6.01
|
||
1 3 MM 1564.00 1453.15 1415. 08 1314.79 _1 CL- 13.90 11.03 7.52 6.01
|
||
MS 1480.00 1453. 15 1339. 08 1314.79 1 PTP 7. 95 4.33 A
|
||
PTP 1510.00 1453.15 1366. 22 1314.79 5776.37 (MN VI ) l ABM 0.0 0.0 0.0 X 0.0
|
||
1010. 00 1453. 15 913. 83 1314.79 _0 LJLA.Qf. o.o 0.0 0.0
|
||
VV 2 2893.OOX 2617. 53X ABM 0.0 0.0 0.0 X 0,0
|
||
5015.55 HE I ABM 0.0 X 1.06 0. 0 X 0.95 1 KACE 0.0 0.0 0.0 0.0
|
||
1 KACE 1.06 K06. 0.95 5790 HF II _J. ARM 0.0 o.o o.o x 0.0
|
||
BE 0.25* 22* 0 1 KACE 0.0 0.0 0.0 0.0
|
||
5041.31 SI II ABM 1.60X 41 X 1 ABM 0.0 0.0 0.0 0.0
|
||
KAC.E, 0.28 _Q 1 KACE .Q.tJL- 0.0 o.o 0.0
|
||
5047.92 HE II 1 ABM 1.40 X 23 X 5801. IV 1 AB« 2.20X l. 17X
|
||
l l KACE 0.25 22 l 1 KACE 0. 75 0. 75 0.40 0.40
|
||
5056.45 SI I I 1 ABM 1.50X 31 X 5806 II 1 ABM 0.0 X 0.0 0.0 X 0.0
|
||
1 1 KACE 0.08 .07 0.07 0 1 KACE 0. 0 0.0
|
||
0 ABM 0. 50 X • 42 X 1 ABM 1. 10X 0.58 X
|
||
1 KACE Q. 16 0.16 0. 14 _J 1 KACE 0.41 fl. 7?
|
||
5112.00 l KACE 0.03 03 0.03 5820 1 ABM 0.0 0.0 0.0 X 0.0
|
||
5112.00 ABM 0. 50X 42 X 0 1 KACE 0.0 0.0 0.0 0.0
|
||
_5-LLZ 1 KACE .08 JQZ 0.07 5828 _L ABM .Jk-O-X. 0.0 o.o X 0.0
|
||
0 ABM 0.60X l 1 KACE 0.02 0.01 A
|
||
0 1 KACE 0.23 l ABM 0.30X 0. 16 X
|
||
5145.78 (FE VI > J âfiM 0.90X 73 X _J 1 KACE Q. 02 -Q..Q2 . Q...Q1 Q.Q1
|
||
l l KACE 0.36 0.36 29 0.29 1 ABM 0.0 0.04 0.0 0.02
|
||
5151.00 (FE III) l 1 KACE 0. 05 0.05 04 0.04 l 1 KACE 0.04 0.04 0.02 0.02
|
||
5158.94 (FE VII) _1 ARM 0. 60X 48X _J ARM 0.0 X 0.0 0.0 X 0.0
|
||
2 l KACE 0.25 l KACE 0.0 0.0 0.0 0.0
|
||
0 ABM 0.60X . 48X 5862.34 (MN V ) l ABM 0.0 0.0 0.0 0.0
|
||
_2 1 KAf.E- 0.-2-5 *-20 1 KACE Q.Q 0.0 Q.Q
|
||
5176.42 l ABM 0.90X 72X 5864. 81 (MN V ) 1 ABM 0.0 0.0 0.0 0.0
|
||
l 1 KACE 0.29 23 5867 2 ABM 0.0 0.0 0.0 0.0
|
||
-5JL9Í.81 ( AR III) J. A_B_M Q. 9QX 71X ü 1 KACE 0.0 0.0 0. 0 0.0
|
||
l 1 KACE 0.28 0.28 .22 0.22 5867. 82 SI ABM 0.0 X 0.0 X
|
||
5197.95 (N I ) l ABM 1 ■ 20 X . 94X 5875. 63 HP AßM 24.OOX 12.20 X
|
||
J 1 KACE- 0.-43 Q..52- ^34 0.40 1 KACE 22.40 11.38
|
||
1 PE KACE 0.0 0.52 0.40 1 PE KACE 20.90 21.22 10.62 10.79
|
||
1 PTP 1. 12 0.52 0.40 l A41 24. 00 21.22 12.20 10.79
|
||
5200.41 IN I L J ABM , 0. 30X —1 1 - M_M IQ..-50 . 21.2 2 9. 91 10.79
|
||
1 KACE 0. 11 .09 20. 80 21.22 10. 57 10.79
|
||
0 ABM 0. 50X . 39X 20.80 21.22 10.57 10.79
|
||
__Q l. KAlC-E— 0- 16 -_L2 2-U 2 2 10.79
|
||
ABM 0.40X 31X 20.00 10. 16
|
||
KACE 0. 13 0. 13 10 0.10 34.20 X 17.38 X
|
||
..ARM 0.0 -0.0
|
||
0 l KACE 0.0 .0 1 KACE 0.0 0.0 0.0 0.0
|
||
5270.28 (FE III) 1 ABM 0.30X • 22 X 5885 ABM 0. 0 0.0 0.0 0.0
|
||
-1 1 KACC- 0.23 ■ ■ 0.17■ 1 -KACE.- 0.0 ...-CUO.. 0.0 0.0
|
||
5277.76 (FE VII ) ABM 0. 30X 22X 5890. 98 (MN V ) ABM 0.0 X 0. 0 0. 0 X 0.0
|
||
1 KACE 0.10 0. 10 07 0.07 l KACE 0.0 0.0 0.0 0.0
|
||
5309.17 ( CA V ) ABM 1.70X 23X 5894. 01 («N VI ) ARM 0.0 X 0.0 0.0 X 0.0
|
||
1 KACE 0.47 0.47 34 0.34 1 KACE 0.0 0. 0 0.0 0.0
|
||
5323.26 (CL IV ) ABM l.OOX 72 X 5896 HE II ABM 0. 0 X 0.07 0.0 X 0.04
|
||
1 MCE .15 Q. 15 LL. Q.ll 1 KACE Q.Q7 0.07 0.04 0.04
|
||
5335.22 (FE VI ) l ABM 1.20 X 86X 5913 HE I I I ABM 0.0 X 0.11 0.0 X 0.05
|
||
1 1 KACE 0. 16 11 0.11 l 1 KACE 0. 11 0. 11 0.05 0.05
|
||
5345 0 ABM 1.20 X 85 X ,5932 HE U.. _L ABM ..D.^ñQJL. . a^.19 x
|
||
1 KACE 0. 13 09 0.09 1 KACE 0. 13 0.13 0.06 0.06
|
||
5411.54 HE II ABM 9.OOX 10X 5945 1 KACE 0.04 0.04 0.02 0.02
|
||
1 1 KACE 6^20 4t 55 ZQ 3.08 5953„ . iL.aa-X-. —Q. 44 X.
|
||
1 PE KACE 6. 50 4.55 ,41 3.08 1 KACE 0. 13 0. 1 3 0. 06 0.06
|
||
l A41 4.00 4.55 71 3.08 ABM 0.70 X 0. 33X
|
||
] Q_ l«-5j3— 4.55 -Ü2— 3.Q8 1 KACE Of 17 0.17 0.08 0.08
|
||
1 VV 2 23. 70 XA . 06 X A 6004 HF I I ARM 1.20 X 0.57X
|
||
5423.87 (FE VI ) 1 ABM 0.40X . 27X 1 KACE 0. 16 0. 08
|
||
_L 1 KACE 0.t.l.5_ 0.15 . 10 6037 ,16 HE H ABM 1. IPX 0. 51 X
|
||
5426.57 ABM 0.20X . 13X 1 KACE 0.18 0.1 b 0.08 0.08
|
||
l KACE 0. 18 . 12 6074.30 HE n ABM 1. 10X 0.50 X
|
||
547 C ABM 0.40X . 26X 1 1 KACE 0.25 -CU25. . XU-LL-
|
||
0 1 KACE 0.13 0.13 08 0.08 6086.88 (CA V ) ABM 2. 50X 1. 13 X
|
||
5484.79 (FE VI ) 1 ABM 0. 50X 32 X 2 1 KACE 1.15 0. 52
|
||
1 1 KACE 0.18 0.18 12 0.12 2 PE KACE 2.70 1.22
|
||
5517.72 (CL III) l ABM l.OOX , 63 X 6086. 88 (EE vil) ABM 2.50 X 1. 13X
|
||
1 1 KACE 0.25 , 16 6101. 76 (K IV ) ABM 2.50X 1. 12 X
|
||
2 PE KACE 2.70 1 KACE 1.03 0.46
|
||
5537.80 (CL III) 1 ABM 2. 70X • 68X ? PE KACE 2.70 1.21
|
||
1 l KACE 1.01 .63 6118.31 HE II l ABM l. 10X O. 49X
|
||
2 PE KACE 2.70 1 1 KACE 0.28 0.28 0. 12 0.12
|
||
5554 (N II ) 1 23.70X 59 X 6151 0 ABM 0.0 0.07 0.0 0.03
|
||
5577.36 (0 1 ) l ABM 1. 50X 91 X 0 1 KACE 0.07 0.07 0.03 0.03
|
||
I L-ljA.Cf.. Jk-32- 0.32 12 0.19- 6133 (FE III ) 1 1 KACE 0. 18 0.18 0. 08 0.08
|
||
5592.17 0 III 1 ABM 1.10-X . 66 X 6166. 22 (MN V ) ABM 0.30 X 0. 13 X
|
||
L 1 KACE 0.20 . 12 KACE 0. 34 0. 15
|
||
5604.00 (K VI ) 1 AßM, QtfrOX . 36X 6170. 73 HE I I ABM 1. IPX 0. 47X
|
||
1 1 KACE 0.06 A 2 1 KACE 0.34 0. 15
|
||
5614.65 (CA VII) 1 ABM 0.0 X 0.0 0.0 6218.64 (MN V ) 1 ABM 0.0 X 0.03 0.0 X 0.01
|
||
_Q 1 KACE 0.0 Q.Q Q.Q 1 1 KACE 0.03 0.03 Q.Q1 -Q.Ql
|
||
5630.88 (FE VI ) 1 A8M 0. 70 X 6221.04 (MN V ) 48M 0.0 0.0 0. 0 0.0
|
||
1 1 KACE 0. 15 KACE 0.0 0.0 0.0 0.0
|
||
5677.Ql (FE VI 1 1 AB.M 1.1QX -ÛIX— 6228.41 (K VI ) ABM Q-^Q 0.0 0.0 X 0.0
|
||
1 1 KACE 0.28 0.28 0.16 1 KACE 0.44 0. 18
|
||
5696.06 C III 1 ABM 0.0 0.0 0.0 6233.80 HE II ABM 0. 90 X 0. 37X
|
||
—Q 1 KA-C-E 0.0 _JLuQ 0.0 1 KACE n. 44 •_LS—
|
||
5721.13 (FE VII ) 1 ABM 1.20X 67 X 6300.31 (01)1 ABM 28.OOX 11. 18X
|
||
2 1 KACE 0.56 31 1 KACE 28.50 11.38
|
||
NGC 7027 (PK NO. NGC 7027 (PK NO. 84 -3 1)
|
||
|
||
589
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7027 (PK NO, 84-3 It NGC 7293 (PK NO. 36-57 1)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N PG REF OBS I AVE 0 CORR I
|
||
10123 HE II 1 SP 98.00 98.00 11.85 11.85 3729 10 I I I 1 L OS 1.30» -1.3Q-*
|
||
) 1 KN 22.80* 2.68* 1 M 1.31* 1.31*
|
||
1 SP 12.60 A 1.48 A l N I. 1.30*
|
||
) 1 KN 24.90» 2.91» _J Q_ J. . 1.37*
|
||
l 0 35.00 4.09 1 P 1.32* 1.32*
|
||
10330 (S II ) 1 SP 28.80 A 3.36 A 1 Cl 8.00* 8.00*
|
||
. 10370
|
||
IQ-333 - (S < S 11 K-N ¿.34* 1 C2 1Q.QQ* IQ.QQ*
|
||
II )) 1 KN ¿■11.50*
|
||
Q.IQ»— 1.33* l C3 8.00* 8.00*
|
||
10373 (S II ) 1 SP 5.50 A 0.64 A l C4 9.00* 9.00*
|
||
10400 (N I ) 1 KN 13.60* 1.57» L-CJ> LQi QQ* 1Q.QQ*
|
||
SP 8.70 A 1.00 A l C6 13.00* 13.00*
|
||
DG 1180.00 74^.00 126.21 1 B1 11.00* 11.00*
|
||
LAR 13.70* 1.47» 1 B2 13.00* 13.00*
|
||
0 950.00 749.00 101.61 80.11 16.00* 16.00*
|
||
SP 117.00 749.00 12.51 80.11 11.00* 11.00*
|
||
10938 LAR 1.34* 0. 14* 11.00* 11.00*
|
||
1 0 97.00 97.00 10. 18 10. 18 1 B6 14.00* 14.00*
|
||
l SP 85.00 A 8.92 A (NE III) l 84.00 84.00
|
||
9 MU (AR III) 1 GBR 160.00 160.00 6. 83 6.83 1 Cl 89.00» 89.00*
|
||
10 MU (S IV ) 1 1076.00 1 076.00 45.90 45.90 1 C2 110.00* 110.00*
|
||
10 MU (S IV ) l GMS 546.00 553.50 23.29 23.61 1 C3 94.00* 94.00*
|
||
L_ HGR 561.00 553.50 --L_CA 1QQ.0Q* 100.00*
|
||
C5 130.00* 130.00*
|
||
REGION KEY (REG ION,REFERENCE,EX PLANATION) 1 C6 82.00* 82.00*
|
||
1. KACF. BRIGHT REGION 1 B1 74.00* 74.00*
|
||
PE. KACE. PHOTOELECTRIC OBSERVATIONS 1 B2 73.00* 73.00*
|
||
A, MM , EAST-WEST SLIT OF WIDTH 7.8 ARCSEC l B3 75.00* 75.00*
|
||
. —B-i . ENTIRE NEBULA 1 B4 84.00* 84.00*
|
||
1. MM , N-S SLIT 1.2 ARCSEC WIDTH THROUGH BRIGHT KNOT 1 B5 61.00* 61.00*
|
||
2. MM , N-S SLIT 1.2 ARCSEC WIDTH, 3.0 ARCSEC EAST OF RG 1 l B6 65.00* 65.00*
|
||
3. MM , M-S SLIT 1.2 ARCSEC WIDTH. 8.4 ARCSEC EAST OF RG 1 _Ji9£2_ I NE I I T) 1 Cl 19.QQ* 19.QQ*
|
||
l C2 16.00* 16.00*
|
||
NGC 7027 (PK NO. 84-3 1) 1 C5 17.00* 17.00*
|
||
l.Cfr -33j-Q0* 33.00*
|
||
l B1 22.00* 22.00*
|
||
1 B2 20.00* 20.00*
|
||
BEGIN -NGC 7048 ( PK NO. 88 -1 LI C-= -L»Q?_ CR ADID-H—BFT-A) 1 B3 21.00* 21.00»
|
||
1 B4 21.00* 21.00*
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 1 B5 18.00* 18.00*
|
||
46B6 HE II _J QRF 46^QQ_ 4.6. QQ. 51.20 51.20 1 R6 1 19.00» 19.00»
|
||
4861 I 1 0063 100.00 100.00 100.00 100.00 2 31.00 31.00
|
||
1 ORF 100.00 100.00 100.00 100.00 l Cl 35.00* 35.00*
|
||
4959 (□ III) 1 QRF 393.00 _ 3 93-. Q Q 373.95 3J3.95 l C2 35.00* 35.00*
|
||
(0 I II ) 1 0063 955.00 1032.50 886.38 958.31 1 C3 1 33.00* 33.00*
|
||
1 ORF 1110.00 1032.50 1030.24 958.31 1 C4 36.00* 36.00*
|
||
_I 1 ORF 507.00- 502.00. 232.97 2-3-2.97 1 C5 37.00* 37.QQ*
|
||
6583 (N II ) l ORF 637.00 637.00’ 290. 52 1 C6 ! 26.00* 26.00*
|
||
I PI I1 34.00* 34.00*
|
||
END NG.C .7048 LPK_NQ. 88 -1 U 1 B2 32.00* 32.00*
|
||
33.00* 33.00*
|
||
35.00* 35.00*
|
||
26.on* 26.00.»
|
||
BEGIN NGC 7094 (PK NO. 66-28 1) = 0.20 (HYDROGEN LINES) 1 B6 24.00* 24.00*
|
||
3970 (NE III) 2 31.00 31.00
|
||
...WAYf mmi N.FS RE.F OB_S. I . AVE 0 CORR I AVE C 4101 tí I 1 2 L.QQ - 21.00
|
||
4686 II CLZ2 100.00 00.00 102.12 102.12 1 Cl ! 25.00* 25.00*
|
||
4861 I CLZ2 100.00 100.00 100.00 100.00 1 C2 25.00* 25.00*
|
||
4991 III) CLZ 2 1000.00 1000.00 987.16 987.16 1 C3 i 25. 00* 25.00*
|
||
6563 I CLZ 2 330.00 330.00 283.33 283.33 1 C4 ! 25.00* 25.00*
|
||
I C5 25.00* 25.00*
|
||
END NGC 7094 (PK NO. 66-28 1) 1 C6 ’ 25.00» 25.00*
|
||
l Bl 25.00* 25.00*
|
||
1 R2 25.00* 25.00*
|
||
1 B3 25.00* 25.00»
|
||
BEGIN NGC 7139 (PK NO. 104+ 71) C = 0.54 (HYDROGEN LINES) 1 B4 25.00* 25.00*
|
||
l B5 I 25.00* 25.00*
|
||
WAVE I D ENT N RG REF oas. I . AVE Q CQRR I- 1 B6 1 25.00* 25.00*
|
||
3727 (0 II ) l 280.00 405.80 4340 41.00 42.90 41.00 42.90
|
||
3 869 (NE III) l 55.00 75.74 44.80 42.90 44.80 42.90
|
||
3970 H ! 2 30.00 39.96 4861 . IQQj QQ - 1 CQjQQ - 1QQ.QQ _LQQjiQQ—
|
||
3970 (NF III) 30.00 39.96 1 MI 73 100.CO ICO.00 100.00 ICO.00
|
||
4101 H I l 20.00 20.00 25.48 25.48 1 XI WR 100.00 100.00 100.00 ICO.00
|
||
4340 H I 1 40.00 40.00 47.19 47.19 1 X2 MR 1QQ.QQ . 1QQ.0Q - 1QQ.QQ -1QQ.QQ-
|
||
4686 HE I I 1 M 18.00 18.00 19.05 19.05 1 X 3 100.00 100.00 100.00 100.00
|
||
4861 H I 1 M 100.00 100.00 100.00 100.00 1 X4 100.00 100.00 100.00 100.00
|
||
1 0D63 100,00 100.00 100.00 100.00 1 X5 100.00 100.00 100.00 100.00
|
||
4959 (0 I II ) 1 320.00 320.00 311.69 311.69 l X6 100.00 100.00 100.00 100.00
|
||
5 007 (0 I II ) 1 910.00 800.90 874.77 769.90 1 Yi 100.00 100.00 100.00 100.00
|
||
691.80 800.90 665.02 769.90 1 -Y-2 MR_ —IQQj-QQ . 1CQ.QQ - 100.QQ. 100.QQ
|
||
l Y3 100.00 100.00 100.00 100.00
|
||
NGC 7139 (PK NO. 104+ 7 1) 1 Y4 100. 00 1 CO.00 100.00 100.00
|
||
100.00 1 QO.-QQ - lOfl.OO- . 10-0.00-
|
||
WR 100.00 ICO.00 100.00 100.00
|
||
4959 (D I II ) l M 210.00 210.00 210.00 210.00
|
||
BEGIN NGC 7293 (PK NO. 36-57 1) 0.0 (RADI 0—H BETA) 5007 (0 I I I ) 1 600.00 1011.54 600.00 1011.54
|
||
l XI 1700.00 1011.54 1700.00 1011.54
|
||
WAVE IDENT N RG REF DBS I AVE O CORR I AVE C l X2 1300.00 1011.54 1300.00 1011.54
|
||
3726 (O II ) 1 M 310.00 ?l.<kQQ 1 X3 860.00 1011.54 860.00 1011.54
|
||
1.00* 1.00* l X4 600.00 1011.54 600.00 1011.54
|
||
M OS i.ocr* 1.00* 1 X5 370.00 1011.54 370.00 1011.54
|
||
N OS 1j-QQ*_ -«.QQ* 770.00 1011.54 27Qj.QQ 1QL1« 54.
|
||
1 G OS 1.00* 1.00* 1600.00 1011.54 1600.00 1011.54
|
||
l POS 1.00* 1.00* 1400.00 1011.54 1400.00 1011.54
|
||
1 Cl WR 274.00* 274.00* 1 Y3 HR 13QQ-.QQ 1011.54 1300.00 1011.54
|
||
1 C2 WR 346.00* 346.00* 1 Y4 1200.00 1011.54 1200.00 1011.54
|
||
1 C 6 WR 499.00* 499.00* 1 Y5 95 0.00 1011.54 950.00 1011.54
|
||
1 Bl WR 84.00» 84.00* _JL6_ MR- -LQQQj-QQ IQ 1L« 54 1CQQ.QQ 1Q11.54
|
||
i B2 WR 68.00* 68.00* (N I ) l XI 30.00 19.42 30.00 19.42
|
||
1 B3 WR 6 0. 00* 60.00* 1 X2 28.00 19.42 28.00 19.42
|
||
1 B4 WR 61« QQ* 61.QQ» 1 X3 16. QQ 19.42 16« QQ 19.42
|
||
l B5 WR 39.00* 39.00* 1 X4 1 18.00 19.42 18.00 19.42
|
||
1 B6 WR 35.00* 35.00* 1 X5 I 26.00 19.42 26.00 19.42
|
||
NGC 7293 (PK NO. 36-57 1) NGC 7293 (PK NO. 36-57 1)
|
||
|
||
591
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
7 6Ap JS . i. . 31 . . 517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
Nr,r 7?q^ T6-57 1) NG£ 7293 ( PK NQ.
|
||
W AVF IDF NT PG REF OBS r AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
5199 (N I ) 1 X6 WR 45.00 19.42 45.00 19.42 6.731 JLS U . ) 1 XI WB 25.00 19.33 25.00 -19.33
|
||
Y1 WR 16. 00 19.42 16.00 19.42 1 X2 WR 19.00 19.33 19.00 19.33
|
||
Y2 WR 15.00 19.42 15.00 19.42 1 X3 WR 15.00 19.33 15.00 19.33
|
||
Y3 HR— . QQ_ 19.42 7.QQ- 19.42 1 X4 WR 16.00 19*33 16.00 19.33
|
||
Y4 WR 11.00 19.42 11.00 19.42 1 X 5 WR 18.00 19.33 18.00 19.33
|
||
Y 5 WR 10.00 19.42 10.00 19.42 l X6 WR 23.00 19.33 23.00 19.33
|
||
Y6 WR 11. QQ 19.42 11.00- 19.42 (AR III) 1 XI WR 44.00 26.58 44. 00 26.58
|
||
) 1 XI WR 26.00 17.67 26.00 17.67 X2 WR 26.00 26.58 26.00 26.58
|
||
l X2 WR 2 5.00 17.67 25.00 17.67 l X3 WR 19.00 26.58 19.00 26.58
|
||
X 3 WR 23.00 17.67 23.00 17.67 1 .&4.JdR 20. QQ 26.-53 2Q..QQ —¿6.5.3—
|
||
X4 WR 25.00 17.67 25.00 17.67 i X5 WR 22.00 26.58 22.00 26.58
|
||
X 5 WR 23.00 17.67 23.00 17.67 1 X6 WR 24.00 26.58 24.00 26.58
|
||
X6 WR 22.00 17.6.7_ 22.00 LLt_67._ 1 Y1 HR 4Qt QQ 26.58 4Q.QQ -26.58_
|
||
Y l WR 14.00 17.67 14.00 17.67 i Y2 WR 35.00 26.58 35.00 26.58
|
||
Y2 WR 12.00 17.67 12.00 17.67 1 Y3 WR 19. 00 26.58 19.00 26.58
|
||
Y3 WR- 1L.0Q 1 7.63_ 1 l.QQ- 17.67 1 Y4 WR, 40.00 26.58 40.00 26.58
|
||
Y4 WR 12.00 17.67 12.00 17.67 1 Y5 WR 14.00 26.58 14.00 26.58
|
||
Y5 WR 11.00 17.67 11.00 17.67 l Y6 WR 16.00 26.58 16.00 26.58
|
||
8.00 1 7.67 8.00 17.67
|
||
XI WR 63.00 43.92 63. 00 43.92 REGION KEY (REG ION,REFERENCE,EX PL ANAT ION)
|
||
X2 WR 66. CO 43.92 66. 00 43.92 1, LO , PA 21 DEGt R 4.81 MIN
|
||
1 X3 HB- 42.QQ 43.92 42.00 43*92 _LQ Q PEG». 3 4.83--MIN
|
||
X4 WR 36.00 43.92 36.00 43.92 3, LO PA 10 DEG 5.63 MIN
|
||
1 X 5 WR 46. 00 43.92 46.00 43.92 4, LO PA 5 DEG 5.79 MIN
|
||
1 X6 WR- 59.00 43.92 59.00 43-*92 . PA--5Q PEG« R 5 81 MIN
|
||
Y1 WR 58.00 43.92 58.00 43.92 6» LO PA 27 DEG. R 5.82 MIN
|
||
Y2 WR 50. 00 43.92 50. 00 43.92 7, LO PA 30 DEG, R 6.63 MIN
|
||
Y3 WR 27.QQ .43.92 . 27. QQ 43.92 B. 10 PA 43 DFG. R 6.77 MTN
|
||
Y4 WR 31.00 43.92 31.00 43.92 9, LO PA 39 DEG, R 6.80 MIN
|
||
Y 5 WR 25.00 43.92 25.00 43.92 10, LO PA 57 DEG, R 6.87 MIN
|
||
Y4 WR 24.on 43.92 24. no 43*92- 11. in PA 50 DFG f R 7-77 MtN
|
||
) 1 XI WR 350.00 270.00 350.00 270.00 L, OS RING NORTHEAST OF CENTRAL STAR
|
||
1 X2 WR 310.00 270.00 310.00 270.00 M, OS RING NORTHEAST OF CENTRAL STAR, WEST OF L
|
||
X3 WR- 1Bo.no -2-7 0.00- 180.na 270*00 N, OS RING SOUTHWEST DF CENTRAI ST AR
|
||
X4 WR 180.00 270.00 180.00 270.00 n, os RING SDUTHWEST OF CENTRAL STAR, NORTHWEST OF N
|
||
X 5 WR 280.00 270.00 280.00 270.00 p, cs RING SOUTHWEST OF CENTRAL STAR, NORTHWEST OF 0
|
||
X6 HR_ 5QQ.QQ 27Q.QQ 5Q0.QQ 270.00 Cl . WP- SI II- C.IN. RJNG SW OF STAR, 1 TO 6 BFI.CW GO JO W-
|
||
Y 1 WR 360.00 270.00 360.00 270.00 XI, WR SAME AS Cl ABOVE
|
||
Y2 WR 320.00 270.00 320.00 270.00 C 2, WR SLIT C, IN RING SW OF STAR
|
||
Y3 WR . ¿LQ.QQ . 27Q.Q0 710-00 270.00 X2, WR SAMP AS C2 -ARflVF
|
||
Y4 WR 200.00 270.00 200.00 270.00 C3, WR SLIT C, IN RING SW OF STAR
|
||
Y5 WR l70.00 270.00 170.00 270.00 X3, WR SAME AS C3 ABOVE
|
||
Yh WR 1ftO t oo 270.00 lan.-O-o. 270.00 C4, WR SLIJ- C, IN-RING SW STAR.
|
||
1 LO 1.00* 1.00* X4, WR SAME AS C4 ABOVE
|
||
2 LO 1.00* 1.00* C 5, WR SLIT C, IN RING SW OF STAR
|
||
—I. 00 l.OQ* X5, WR SA-ME- AS C5 -ABOVE
|
||
LO 1.00* 1.00* C6, WR SLIT C, IN RING SW OF STAR, W END OF SLIT
|
||
LO 1.00* 1.00* X6, WR SAME AS C6 ABOVE
|
||
i. no* 1-00* R1 , WR St L~L B,RING F OF STAR. 1 TO 6 BELOW GO F TO
|
||
7 LÜ 1.00* 1.00* Yl, WR SAME Bl ABOVE
|
||
8 LO 1.00* 1.00* 02 , WR SLIT RING E OF STAR
|
||
1 - on* 1.00» Y2, WB- SA MF B2 ABOVE
|
||
11 LO 1.00* 1.00* B3, WR SLIT CENTER E OF STAR
|
||
M I 7 3 296.00 343.54 296.00 343.54 Y3, WR SAME B3 ABOVE
|
||
XL WR 480.00 343.54 480.00 343.54 ff4, MR- SI IT CENTER F flF STAR-
|
||
X2 WR 420.00 343.54 420.00 343.54 Y4, WR SAME B4 ABOVE
|
||
X3 WR 340.00 343.54 340.00 343.54 05, WR SL IT CENTER E
|
||
X4 WR 310.00 343.54 310.00 343.54 Y5, WR SAME B5 ABOVE
|
||
X5 WR 310.00 343.54 310.00 343.54 B6, WR SLIT CENTER E OF STAR, W END CF SLIT
|
||
X6 WR 290.00 343.54 290.00 343.54 Y6, WR SAME 06 ABOVE
|
||
_L_3L 1 WR 51Q,QQ 343. 510.00 343.54
|
||
Y2 WR 460.00 343.54 460.00 343.54 END NGC 7293 (PK NO. 36-57 It
|
||
Y3 WR 270.00 343.54 270.00 343.54
|
||
Y4 WR 260.00 343.54 260.00 343.54
|
||
Y5 WR 240.00 343.54 240.00 343.54
|
||
Y6 WR 280.00 343.54 280.00 343.54 BEGIN NGC 7354 (PK NC. 107+ 2 1) C = 1.81 (RAD 10—H BETA)
|
||
6 563 _ ( N_ 10 LO 1.00* 1.00*
|
||
6584 (N 1 LO 0.37* 0.37* WAVE IDENT RG REF OBS I CORR I
|
||
2 LO 0.45* 0.45* 3727 (0 II ) l ACP 28.40 98.51
|
||
3 LQ 0.40*.- Q*4Q* -3-968_ (NE III) 1 A 55,QQ 45«JLQ 16Q-.92 131.96
|
||
4 LO 0.36* 0.36* l 50.30 45.10 147.17 131.96
|
||
5 LO 0.45* 0.45* 1 30.00 45.10 87.78 131.96
|
||
6 LQ Q. 36* Q. 36* (NE III) 1 26.QQ 26.QQ 6.a*16 68.16
|
||
LO 0.30* 0.30* ACP 31.20 81.79
|
||
8 LO 0.3b* 0.36* ACP 31.20 81. 54
|
||
9 LO 0. 34* 0. 34* 14.00 36.59
|
||
10 LO 0. 33* 0.33* 3970 (NE III) 2 14. 00 36.59
|
||
11 LO 0.29* 0.29* 4097 N III 2 ACP 27.50 62.20
|
||
XI WR 930.00 5Q9.92 930.00 4101 ti I 1 —A 2 8.00 18.50 63.04
|
||
X2 WR 820.00 509.92 820.00 509.92 27.50 61.91
|
||
X 3 WR 850.00 509.92 850.00 509.92 9. 00 18.50 20.26 41.65
|
||
X 4 WB^ 960.00 509.9? 960.00 5Q9.92 —434-Q— 36.QQ- 31,.Q.Q 62.67 53.96
|
||
X 5 WR 870.00 509.92 870.00 509.92 56.20 97.83
|
||
X6 WR 900.00 509.92 900.00 509.92 26.00 45.26
|
||
Yl WR 270.00 509.92 270.00 5Q?_t92_ _436_3_ -LQ HP 2 ACP 56.20 95.51
|
||
Y2 WR 190.00 509.92 190.00 509.92 l 0.0 A 0.0 0.0 A 0.0
|
||
Y3 WR 100.00 509.92 100.00 509.92 62.00 52.43 74.99 63.42
|
||
Y4 WR 90.00 509.92 90.00 5 09., 9 2 62.30 75.35
|
||
1 Y5 WR 70. 00 509.92 70.00 509.92 33.00 52.43 39.91 63.42
|
||
l Y 6 WR 69.00 509.92 69. 00 509.92 100.00 100.00 100.00 100.00
|
||
6717 _LS U. ) 1 XI WR 2 6.00 .16.90 . 26.00 16.90 -ACP 100-00
|
||
100.00 1QQ.Q0 1QQ.QQ 100.00
|
||
100.00 100.00 100.00
|
||
X2 WR 25. 00 16.90 25.00 16.90
|
||
X3 WR 20. 00 16.90 20.00 16.90 □D63 100.00 100.00 100.00 100.00
|
||
X4 HR 22.00 16.90 22.00 16.90 W 2 -1QQ.QQÄ 1QÛ.QQX-
|
||
X5 WR 2 7. 00 16.90 27.00 16.90 III) 2 A 1400.00 1281.87
|
||
X6 WR 26.00 16.90 26.00 16.90 1 ACP 422.00 441.00 386.39 403.79
|
||
Yl WR 13.00 . 16.90- 13.QQ 16.90 1_ 460.00 441.00 421.19 403.79
|
||
Y2 WR 17.00 16.90 17.00 16.90 190.OOX 173.97X
|
||
Y 3 WR 9.60 16.90 9.60 16.90 (O I II ) 2 A 1400.00 1226.48
|
||
Y4 WR 5.-5-Q— 16.9Q 5.5Q 16.9Q L_ -A CP.. 1243.QQ 1308.67 1088.94 1146.47
|
||
Y5 WR 5. 20 16.90 5.20 16.90 1270.00 1308.67 1 112.59 1146.47
|
||
Y6 WR 6.50 16.90 6.50 16.90 1413.00 1308.67 1237.87 1146.47
|
||
NGC 7293 (PK NO. NGC 7354 (PK NO. 107+ 2 1)
|
||
|
||
592
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7354 (PK NO. 1Q7+ 2 1) NGC 7662 (PK NQ. 106-17 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I CORR I
|
||
5007 (0 III) 1 VV 2 820,COX 7l9t37X 3705.00 HE I Z 2 3.77
|
||
2 3 HA 3.30 3.77
|
||
NGC 7354 (PK NO. 107+ 2 1» 3707 .¡20 O III 1 AKB 0.36 0.36 0.41 .41
|
||
3709.50 0 LLL _I AKg Q.Q 0.0 0.0 0*0
|
||
3710 HE II AKB 0.12 0.12 0. 14 0.14
|
||
3712.00 H I AKB 2.10 2.47 2.40 2.82
|
||
BEGIN NGC 7662 (PK NO. 106-17 1) 0.19 (RAPIQ-H BETA) ¿.¿0. ¿.41- 2.51 2.82
|
||
l 2 MA 3. 10 2.47 3.54 2.82
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C l 3 HA 3.50 2.47 4.00 2.62
|
||
3023 O III 1 A41 0.0 0.0 0.0 0.0 1 MI 71 1.44 2.47 1.94 2.82
|
||
3047 O III 1 A4! 20.80 A 25.81 A 3715.00 HE II AKB 0.48 0.55
|
||
3121.69 O III I AKB 1.84 2.26 3715.00 0 III AKB 0.48 0.55
|
||
1 A41 6.60 A 8.10 A .3720 Hg ¡I AKB 0.19 0.19 0.22 0.22
|
||
1 AKB 78.00 74.50 95.64 91.35 2 AKB 3.08 3.51
|
||
1 A41 71.00 74.50 87.06 91.35 2 C MA 3.60 4. 10
|
||
1 KQS 47.QQX 57.« 63.X 2 2 MA 4.20 4.79
|
||
3187.74 HE I AKB 1.21 1.21 1.47 1.47 2 3 MA .70 4.22
|
||
3203.23 HE II AKB 31.00 24.95 37.70 30.34 1 60 MA 3. 10 3.53
|
||
A4L- 18.90 24. 9 5... 22.98.. 30.34 3721.98 (S III) 2 AKB 3.08 -3jJLL-
|
||
1 KOS 19.00X 23.10X 2 C MA 3.60 .10
|
||
3241.72 (NA IV ) 1 AKB 0.56 0.56 0.68 0.68 2 2 MA 4.20 .79
|
||
3295.47 0 ILL. J ÔML. _£M2_ 0.0 0.0 0.0 _2 3 3.70 4.22
|
||
I AKB 4.70 3.65 5.64 4.38 3726.13 (O II ) AKB 6.00 6.84
|
||
l A41 2.60 3f 65 3. 12 4.38 A41 24.00 27.35
|
||
AKB 0.19 0.19 0.23 _QLl LA.. 10.00 1U4Q-
|
||
3312.35 0 III l AKB 8.00 9.2 5 9.58 11.07 LU 1.80* 2.05*
|
||
1 A41 10.50 9.25 12.57 11.07 C MA 5.60 6.38
|
||
3340.85 Q LLL_ J. AKB 12.80 12.80 15.27 15.27 ? MA 12.50 14.25
|
||
3 A41 15.70 18.73 3 6.00 6.84
|
||
3 KOS 23.00X 27.43X 4 MA 19.00 21.65
|
||
_2 LA 24.00 28.63 _5_ 6.00 6.84
|
||
3342.68 (NE I II » 2 AKB 0.34 0.41 l 60 MA 10.70 12. 19
|
||
3 A41 15.70 18.72 1 M I 71 5.92 6.75
|
||
3 K-flS_ 23.00X 27.42X _J 0 7.41 8*44 .
|
||
3342.68 (CL III) ? AKB 0.34 0. 41 PTP 11.70 13.33
|
||
3345.89 (NE V I 1 AKB 4.00 4.77 TAM 7.90 9.00
|
||
3 A41 1 5.70 18.71 VV 1
|
||
3 KOS 23.OOX 27.42 X 3728.84 (O II ) AKB 3. 38 3.85
|
||
2 LA 24.00 28.61 LU 1.00* 1.14*
|
||
3362.21 (NA IV ) J AKB —0.27— MA 3.10 3-S3
|
||
3381.25 O I AKB 0. 18 0.18 O. 21 0.21 1 2 MA 8.10 9.23
|
||
3385.53 O .1 AKB O. 16 0.16 0. 19 0.19 i 3 MA 4. 10 4.67
|
||
L- ■ A-KB— 1 5 MA 3.80 4.33
|
||
3403.52 O IV 1 AKB 0.17 0.17 0.20 MI71 3.72 4.24
|
||
3405.81 O III 1 AKB 0.38 0.38 0.45 3731.60 O III AKB 0.41 0.41 0.47 0.47
|
||
3407.40 Q Li J AKB 0.11 0.11 0-13 3732 HF II AKB 0.22 0.22 0.25 0.24
|
||
3411.84 O IV AKB 0.32 0.32 0.38 0.38 3.10 3.76 3.53 4.28
|
||
3415.19 O III AKB 0.44 0.44 0. 52 0.52 3.40 3.76 3.87 4.28
|
||
3425.94 ( NF V 1 AKB— 9.24 11.-42- 10.91 13.47 3.30 3.76 3.76 4.28
|
||
1 A41 12.00 14. 16 MA 4.70 3.76 5.35 4.28
|
||
2 KOS 24.OOX 28.32X MA 5.00 3.76 5.69 4.28
|
||
—1 LA MA
|
||
3428.69 III 1 AKB 3.88 3.88 4.58 4.58 I 60 MA 3.00 3.76 3.42 4.28
|
||
3430.51 III l AKB 0.56 0.56 0.66 0.66 3736.70 O IV 1 AKB 0. 11 0.11 0.13 0.13
|
||
3433 _0 AKB 0.23 0.23 0.27 0.27 3740 HE J-L. 1 AKB 0.13 0.1 3 0-14 0.15
|
||
3444.09 0 III AKB 17.20 18.73 20.25 22.06 3748 HE II AKB 0. 15 0.15 0. 17 0.17
|
||
A41 20.00 18.73 23.55 22.06 3750.19 H I AKB 3.50 4.79 3.98 5.44
|
||
KOS 24.OOX 28.26X 7.70 4.79 8.75 5.44
|
||
LA 19.00 18.73 22.37 22.06 3.80 4.79 4.32 5.44
|
||
3447.60 HE I AKB 0.11 0. 11 0. 13 0.13 3.90 4.79 4.43 5.44
|
||
3512.51 J±E L_ AKB 0^12 Q» 12 0. 0-14 -SuBB- -4>ia... 6. 02 5^44 .
|
||
3530.50 HF I 1 AKB 0.08 0.08 0.09 0.09 l 4 MA 6.00 4.79 6.82 5.44
|
||
3554.40 HF I 1 AKB 0. 13 0.13 0. 15 0.15 1 5 MA 4.50 4.79 5.11 5.44
|
||
-3.5-6 9_ _Q AKB . 0.15 0.15.. Q. 17 Q. 17 1 60 MA -2*60 4.09 .5*44.-
|
||
3587.30 AKB .28 0.28 0.32 0.32 3754.69 0 III 1 AKB 1.57 1.73 1.78 1.97
|
||
3606 AKB 0. 14 0. 14 0. 16 0.16 l 60 MA 1.90 1.73 2.16 1.97
|
||
-26.13 t 60 HE I AKB- 0» 26 0.26 0.30 0.30 ? TAM 6.70 7.6L
|
||
3634.20 HE I 2 AKB 0.37 0.43 3757.29 0 III AKB 0.68 2.59 0.77 2.94
|
||
3661.20 I l AKB 0.27 0.27 0.31 0.31 C MA 2.20 2.59 2.50 2.94
|
||
3.662*30 _L AKB 0.31 . 0.31 0.36.. ..0*36 3 MA 3. 50 2.59 3.97 2.94
|
||
3663.40 H I AKB 0. 39 0.39 0.45 0.45 0 3.98 2.59 4.52 2.94
|
||
3664.70 H I AKB 0.37 0.37 .42 0.42 3759.87 O III AKB 5.60 5.75 6.36 6.53
|
||
3666.10 _ü L_ AKB . Q.t_3_B_ 0.38 Q.44-- 0.49 *4-4 5. 80 5.75 6.58 _ 6_. 53,
|
||
3667.70 1 AKB 0.43 0.43 0.49 1 2 MA 3.60 5.75 4.09 6.53
|
||
3669.50 l AKB 0.39 0.39 0.45 0.45 l 3 MA 9.30 5.75 10.55 6.53
|
||
3671.50 1 AKB 0.49- 0.49 O. S6 0- Sh 1 5 MA 5.30 5.75 6*01 6*?3
|
||
3673.80 AKB 0.53 0.53 0.61 0.61 1 60 MA 4.90 5.56
|
||
3676.40 AKB 0.67 0.67 0.77 0.77 2 TAM 6. 70 7.60
|
||
3679.40 AKB 0.72 _£*- 0.82 -Q-.82 3761 _Q AKB 0.04 0.04 0*05 0*05
|
||
l AKB 0.86 0.79 0.98 0.91 3 769 HE II 1 AKB 0.23 0.23 0.26 0.26
|
||
1 C MA 0.73 0.79 0.84 0.91 3770.61 H I 1 AKB .40 5.00 4.99 5.67
|
||
3.6-6.6*80 ti I_ _1 AKB_ 0.94 0.92 1.08 1.05 _1 C ma . 4 *..6,0 5.00 5.-21- -5-.-6 7
|
||
l C MA 0.90 0.92 1.03 1.05 5.00 5.00 5.67 5.67
|
||
3690.00 HE II 1 AKB 0. 14 0. 14 0. 16 0.16 6.00 5.00 6.80 5.67
|
||
3691.60 jy i _J AKB 1.28 1.28 .46 -1*47. 5_._10. 5.00 5.78 . 5*67
|
||
1 C MA 1.30 1.28 1.49 1.47 1 5 MA 4.90 5.00 5.55 5.67
|
||
1 2 ma l. 70 1.28 1.95 1.47 1 60 MA 5.00 5.00 5.67 5.67
|
||
_J M1.7-L. 0.86- 1.28 0.98 .47 3773.90 Q LU. _1 AKB 0*34 -0*3.4. 0*39 0.39
|
||
3695 l AKB 0.21 0.21 0. 0.24 3776.93 NE II AKB 0.07 0.07 2 0.08 0.08
|
||
3697.20 1 AKB 1.49 1.47 1. 70 1.68 3779 AKB 0.05 0.05 0.06 0.06
|
||
-.1 C MA. *50 1.47 1*72 1.68 3781*70 HE II AKB .-0*24., 0.24 0*27 0.27
|
||
2 MA 1.90 1.47 2. 17 1.68 3783.77 (FE V AKB 0. 0.08 0.09 0.09
|
||
1 M I 71 1.00 1.47 1.14 1.68 3784.94 HE I AKB 0.05 0.05 0.06 0.06
|
||
3698.70 HE II 1 AKB 0.21 0.2-1- _flL*-24_ -0.24 3791.78 O III AKB 0.51 0.65 0.58 0.74
|
||
3702 HE II AKB 0.0 0.0 0.0 0.0 0.80 0.65 0.90 0.74
|
||
3703.90 I AKB 1.72 1.60 1.97 1.83 3796.38 HE II AKB 0.23 0.23 0.26 0.26
|
||
_2 C MA 2.30 2.63 3-197.91 H I AKB 6.70 . 5.64 7.57 6.37
|
||
2 2 MA 3.30 3.77 1 LA 7.10 5.64 8.02 6.37
|
||
2 3 MA 3.30 3.77 1 C MA 5.70 5.64 6.44 6.37
|
||
_1 MI71 1.48 1*6-0 1-69 1.83 _1 2 MA 6.1Q 5.64 6.89 6.37
|
||
3705.00 HE I AKB 0.38 0.43 3 MA 7.80 5.64 8.81 6.37
|
||
C MA 2.30 2.63 4 MA .10 5.64 6.89 6.37
|
||
NGC 7662 (PK NO. 106-17 11 NGC 7662 (PK NO. 106-17 1)
|
||
593
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7662 (PK ND. 106-17 1) NGC 7662 (PK NO« 106-17 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
3797.91 ti I 1 5 MA í*. éu. 3970 (NE III) 2 0 31.60 34.95
|
||
1 60 MA .80 5.64 7.68 6.37 3970.09 H I AKB 14.60 14.60 16. 15 10.15
|
||
1 0 2.40 5.64 2.71 6.37 3997.44 (F IV ) AKR 0.04 0.04 0.04 0.04
|
||
1 TAM 40 5.64 .37 4003.54 N III AKB a_Q3 . 0.03 -Q.-Q3 0.03
|
||
3806.21 HE I AKB 0.07 0.07 0.08 0.08 4008.10 (FE III) AKB 0.03 0.03 0.03 0.03
|
||
3810.80 0 III AKB 0.05 0. 05 0.06 0.06 4009.27 HF I AKB 0. 12 0.12 0. 13 0.13
|
||
3B13.43 HF TT AKB . 0.46- 0.46 D. 52 0.52 4026.04 HE AKB . 2.37 - 2.87 2.60 3.16
|
||
3819.65 HE I AKB 0.74 1.57 0.83 1.77 l C 2.80 2.87 3.08 3.16
|
||
C MA 1.60 1.57 1.80 1.77 l 2 MA 4.40 2.SI 4. 84 3.16
|
||
_J 2 MA .57 .77 _1 3 MA_ 2j-90. . -2tftl_ 3.19 3.16
|
||
1 3 2.10 1.57 2.37 1.77 2.70 2.87 2.97 3.16
|
||
1 60 MA 1.10 1.57 1.24 1.77 2. 14 2.87 2.35 3.16
|
||
3933.74 HE I _2 AKB- 0.59 0.66 TAM 2.90 2.97 3.08 3.16
|
||
3833.74 HE 11 AKB 0.59 0.66 4041.50 O II AKB 0.03 0.03 0.03 0.03
|
||
3835.40 I AKB 8.00 7.55 8.99 .48 4047.80 O II AKP 0.03 0.03 0.03 0.03
|
||
7.80 7.55 8.77 .48 —4057 AKB 0^03 - Q.Q3 Q.Q3 -Q.Q3.-
|
||
1 C MA 7.70 7.55 8.66 4058 AKB 0.03 0.03 0.03 0.03
|
||
1 2 MA 8.30 7.55 9.33 4060.18 (FE IV ) AKR 0. 13 0. 13 0. 14 0.14
|
||
_J 3—flA-. 1Q..-3ÍL 7.55 11-58 4068.48 (S II ) AKB —QjuZB— , Oj 7 8 - Q...85 .85
|
||
l 4 7.00 7.55 7.87 8.48 4069.90 O II AKR 0.0 0.0 0.0 0.0
|
||
1 5 MA 7.90 7.55 8.48 4069.90 O II AKB 0.0 0.0 0.0 0.0
|
||
1 60 MA -70 -i5_ 8.4B 4Q7Q.26. C LU— AKB.. .0^-82- . Q. 82 Q. 90 _Q.9Q-
|
||
4. 36 7.55 4.90 8.48 (S II) 1 C MA 1.80 2.00 1.97 2.19
|
||
TAM 4.40 7.55 4.95 3.48 l 2 MA 2.10 2.00 2.29 2.19
|
||
3839.8Q IfE V L _AKB_ 0. 05 0.05 Q.Q6 Q .06 J 3 MA- 2.50 .2.00- 2.73 -2.19
|
||
3858.12 HE II 0. 58 0.60 0.65 .67 60 MA 1.60 1.75
|
||
0.62 0.60 0.69 0.67 PT P 0.51 0.56
|
||
3862-47 SI TI AKB 0.06 0.06 . Q. 0.7— 0-07 4072-08 O I AKB- Q. 19 0.21
|
||
3868.70 (NE III) 1 AKB 66.30 74.21 4076.10 (S AKB 0.21 0.23
|
||
3 A4l 114.00 127.60 4078.67 O I AKB 0.03 0.03
|
||
1 IA 66.30 74.21 4081.60 Q L AKR 0.03 0-03
|
||
1 C 89.00 73.17 99.62 81.90 4084.71 0 I AKB 0.05 0.05 0.05 0.05
|
||
1 2 83.00 73.1 7 92.90 81.90 4087.15 O I AKB 0.04 0. 04 0.04 0.04
|
||
_1_ 86.OU 73. 1 7— ■96.26 81.90 . 4089.23 0 L AKB . Q-^l 1 -0.11. 0.12 -0.12 .
|
||
1 4 MA 56.00 73.17 62.68 81.90 4092.80 O I AKB 0.03 0. 03 0.03 0.03
|
||
1 5 MA 83.00 73.17 92.90 81.90 4097.39 AKB 2.75 2.75 3.00 3.00
|
||
1 60—MA. - 87.00 —97.-3B— A41 26.30 28.65
|
||
0 63.10 73.17 70.63 81.90 4100.10 HF II AKR 0.0 0.0 0.0 0.0
|
||
TAM 52.00 73.17 58.20 81.90 4101.73 H I AKB 20.00 23.68 21.78 25.78
|
||
-VV 1- 150.OOX 167.89 X A 4-1 —
|
||
3875.50 0 AKB 0.06 0.07 1 LA 2 3. 50 23.68 25.59 25.78
|
||
3887.00 HE AKB 14. 10 15.74 1 C MA 23. 20 23.68 25.26 25.78
|
||
3888.79 HE_ -AKB - 14.lü 15.76 _1 2 MA 24^4Q_ 23.68 ¿6.57 -25.78
|
||
2 60 MA 19.60 21.88 27.30 23.68 29.73 25.78
|
||
3889.00 H I 3 AKB 14. 10 15.74 19.00 23.68 20.69 25.78
|
||
—3 661— 114.00 127.25 - _J 5 MA... 23.BQ 23.68 25.92 25.78
|
||
13.90 15.52 1 60 MA 28. 00 2 3.68 30.49 25.78
|
||
17.00 18.98 1 MI 7 l 22.20 23.68 24. 17 25.78
|
||
ia^-90 21.10- _1 MI .7-3- ¿4^-70 - 23.68 26-9Q ¿5,78
|
||
2 3 MA 17.30 19.31 G 22.40 23.68 24. 39 25.78
|
||
2 4 MA 19.00 21.21 PT P 24.50 23.68 26.68 25.78
|
||
_2 5_MA. - 19.20 -21.43- _R2 26. 00 23.68 28. 31 25.78
|
||
2 60 MA 19.60 21.88 TAM 22. 50 24. 50
|
||
2 □ 12.60 14.06 VV l 37. 80X 41.16X
|
||
_2 TAM - 8.2D 9.15- _41 Q3.-3-Z N LLL AKB L. 42 .42- 1.5-5 J .55
|
||
55.OOX 61.39X A41 26.30 28.63
|
||
A41 114.00 127.25 4107.18 G II AKB 0.03 0. 03 0.03 0.03
|
||
LA 13.90 15.52 4115.83 SI IV AKB 0.02 0.02 0.02 0.02
|
||
MA 17.OÇ 18.98 4117 AKR 0.0 0.0 0.0 0.0
|
||
MA 18.90 21. 10 4119.16 O II AKB 0.08 0.08 0.09 0.09
|
||
MA 17.20 19.31 4120.86 HE I AKP -CU 17 0.24 0. 18 0.26
|
||
19.00 21.21 0.31 0.24 0.34 0.26
|
||
5 MA 19.20 21.43 4122.00 (K AKB 0. 04 0.04 0.04 0.04
|
||
_Q_ 12.60 14.06 -4128 AKB Q.Q9 Q. 09 0. 1Q _-Q.1Q—
|
||
TAM .20 9. 15 4131 0 AKR 0.03 0.03 0.03 0.03
|
||
VV 1 55.OOX 61.39X 4143.76 HE I 1 AKR 0.27 0.40 0. 29 0.43
|
||
3891.20 (FE V >1 AKB Q* 09 -0.Q9 0. 10 Q..1Q _1 C MA Q, 33 . Q.4-Q- 0,36 _Û,43 -
|
||
3894.90 (FE AKB 0.04 0.04 0.04 0.04 1 60 MA 0.60 0.65
|
||
3918.60 C II AKB 0.04 0.04 0.04 0.04 4146.06 Q 2 AKB 0.03 0.03
|
||
3920.79 C II AKB 0.05 0.05 0.06 0.06 4146.06 0 2 AKB 9,03 0,03
|
||
3923.43 HE II 1 AKB 0.94 0.67 1.05 0.74 4153.31 C III AKR 0. 0.04
|
||
1 60 MA 0;40 0.67 0.44 0.74 4153.31 O II AKR 0.04 0.04
|
||
3926.56 HF I 1 AKB 0.06 0.06 0.07 0.07 4156.45 C III AKB Q.Q7 Q, Q8
|
||
3932 AKB 0.08 0.08 0.09 0.09 4156.45 G II AKB 0.07 0.08
|
||
3934 AKB 0. 06 0.06 0.07 0.07 4161 AKB 0.03 0.03 0.03 0.03
|
||
3944 AKB 0.03 Q, 03 0,Q3_ Q,Q3 4163.05 (K V L AKB Q. 16 Q. 16 0.17 —0.17
|
||
3948 AKB 0.05 0.05 0.06 0.06 4166 AKB 0.07 0.07 0.08 0.08
|
||
3956 AKB 0.03 0.03 0.03 0.03 4169.13 HE I AKB 0.11 0.11 0. 12 0.12
|
||
3965.04 HE AKB 0.39 Æt?9. 0,^3 0,4? 4171 AKB 0.06 0.06 0.06 0.06
|
||
3967.50 (NE III) AKB 19.20 21.24 41 75 AKB 0.05 0.05 0.05 0.05
|
||
A41 41.20 45.59 4179 AKB 0.11 0.11 0. 12 0.12
|
||
_LÀ„ 34.90 38.62 -4181,57 (FE V L AKB Q. 16 . 0.16 0. 1 7 -0.17
|
||
2 C 33.00 36. 51 1 C MA 0. 16 0. 16 0. 17 0.17
|
||
2 2 MA 32.00 35.41 4186.94 C III I AK8 0.50 0. 70 0. 54 0.75
|
||
_2 3_ MA- 37.20 41,16 . -J 2 MA 0. 80 Q.7Q Q, 86 0.75
|
||
2 4 MA 28. 00 30.98 0.80 0.70 0.86 0.75
|
||
2 5 MA 34.70 38.39 4187 C II 1.00 1.00 1.08 1.08
|
||
2 6Q-MA,- 39.00 43. 15 ..4189.90 Q LL AKB Q.Q5 Q.Q5 Q. 05 _3.Q-5_
|
||
TAM 24.00 26.56 4195.59 N III AKB 0.03 0.03 0.03 0.03
|
||
VV 1 87.80X 97.15X 4199.87 HE II AKB 1.94 1.41 2.09 1.51
|
||
3966 _ü L A 41 41.¿Q 45.58 A41 0.80 1.41 0^8-6 _LLL
|
||
2 LA 34.90 38.61 l C MA 1 .Al 1.51 1.51
|
||
2 C MA 33.00 36.51 l 2 MA 0.80 1.41 0.86 1.51
|
||
_2 2 MA 32.00 35.40 _1 3 ma, ..¿,30 1.41 ¿«-4.6 —LLL
|
||
37.20 41. 16 1 60 MA 1.20 1.41 1.29 1.51
|
||
28.00 30.98 4219 1 C MA 0.21 0.21 0.23 0.23
|
||
34.70 38.39 -4227 -J C MA Q, 23— Q. 2 Q Q. 21 _Q.-2L-
|
||
2 60 MA 39.00 43. 15 4227.60 (FE AKB 0.23 0.2 3 0.25 0.25
|
||
2 0 31.60 34.96 4237 AKB 0. 03 0.08 0.03 0.09
|
||
7 TAM 24. QQ 26.55 f. MA 0.14 0.08 QL.5
|
||
87.80X 97.14X 4254 AKB 0. 0.05 0.05 0.05
|
||
3968.00 HE II 0.0 0.0 4258 AKB 0.05 0.05 0.05 0.05
|
||
NGC 7662 (PK NO. 106-17 1) NGC 7662 (PK NO. 10b-17 1)
|
||
594
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7662 (PK NQ. 106-17 L) NGC 7662 (PK NQ. 106-17 1)
|
||
WAVE IDENT RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I
|
||
4267.11 C II AKB 0.71 1.09 0.76 1.17 4634.18 N III A A41 3.2Q 3>26
|
||
C HA 1.15 1.09 1.23 1.17 1 OE AW70 1.40 2.10 1.44 2.16
|
||
2 MA 1.30 1.09 1.39 1.17 2 LA 5.90 6.05
|
||
3 M. 1 « 6Q lm Q9- 1-71 1« LI. _J C MA 2.ZQ 2.IQ 2.26 2.16
|
||
1 60 MA 0.70 1.09 0.75 1.17 2 2 MA 5.80 5.95
|
||
4271 0 AKB 0.07 0.07 0.07 0.07 2 3 MA 5.30 5.44
|
||
4213, 0 AKB 0.11 Q. 11 .12 0.12 _2 IAM 2.40 2.46
|
||
4275.95 0 AKB 0. 15 0. 16 4637 N III 0 3. 55 3.55 3. 3.64
|
||
4275.95 0 AKB 0.15 0. 16 4640.59 N III AKB 0.0 3.47 0.0 3.56
|
||
4295.24 Q LL_ AKB 0. Q.4_ 0.04 0.04 _A.41 3.20 3.28
|
||
4303.83 0 AKB 0.04 0.04 0.04 0.04 l OE AW70 4.00 3.47 4. 10 3.56
|
||
4316 AKB 0.Ç5 0.05 0.05 0.05 1 P AW70 2.94 3.47 3.02 3.56
|
||
4325 AKB 0.07 0.07 0.07 0.07 _J C-MA 5.30 3.47 5.44 3^56
|
||
4338.97 HE II AKB 0.0 0.0 0.0 0.0 2 MA 5. 80 5.95
|
||
4340.49 H I AKB 44.30 42.57 46.95 45.12 2 3 5.30 5.44
|
||
AA1 42-90 42.57 45.47 45.12 1 60 MA 5.10 5.23
|
||
1 47.40X 50.24X TAM 2.40 2.46
|
||
I LA 43.60 42.57 46.21 .45.12 4641.87 N III AKB 4.00 4.00 4. 10 4.10
|
||
_J C MA_. 44.00 42«-57 46.64 -45 »12.. 4647.34 C III AKB &l3.Z Q.t 8 2 0.84 0.84
|
||
l 2 41.50 42.57 43.99 45.12 OE AW70 1.10 1. 13
|
||
l 3 46.20 42.57 48.97 45.12 R AW7 0 1.00 1.02
|
||
_L 4 ma 32.00 42.57 33.92 45.12 _MA 1. flfl I . A4
|
||
1 5 MA 41.50 42.57 43.99 45.12 2 2.20 2.25
|
||
1 60 MA 46. 50 42.57 49.29 45. 12 4648.67 0 II 1 AKB 0.0 0.0
|
||
_1 M-I73. - 46.60 42.57 49.39 45.12 4 QE-AK.70- 1.10 1.13
|
||
0 40.80 42.57 43.24 45.12 R AW70 1.00 1.02
|
||
OCB 39.80 42.57 42. 18 45.12 C MA 1.80 1.84
|
||
PIP 41.60 42.57 44.09 45.12 .25
|
||
R2 42. 00 42.57 44.52 45.12 4650.29 C III 1 AKB 0.47 0.48
|
||
TAM 45. 30 42.57 48.01 45.12 A41 3.20 3.28
|
||
86.4QX 91- 58 X 5.90 6^04
|
||
4349.73 O II AKB 0.0 0.0 0.0 0.0 4650 O II 4 OE AW70 1.10 1.13
|
||
4363.26 (□ III) AKB 16.00 17.72 16.92 18.74 4 R AW70 1.00 1.02
|
||
A41 . 21.40 17.J2 22.63 18.74 - 465J C LLI 4 GE AW7Q 1. 10 1.13
|
||
AN 19.00X 20.09 X 4 R AW70 1.00 1.02
|
||
BDO 1.00* 1.06* 4657.82 (FE III) l AKB 0.0 0.0
|
||
_LA 16.92 3 OF AW70 0.6? 0^63
|
||
1 C MA 18.70 17.72 19.77 18.74 R AW7 0 0.82 0.84
|
||
1 2 MA 19. 70 17.72 20.83 18.74 4658.55 C IV AKB 0.75 0. 77
|
||
_1 3 MA 17.7? ? 1 . ?5 IB.74 AAJ 3.20
|
||
20.00 17.72 21. 14 18.74 3 DE AW7C 0.62 0.63
|
||
18. 10 17.72 19. 14 18.74 3 R AW 70 0.82 0. 84
|
||
1 9.. 70 17.7? ?o.a3 IB.74 -4 C -MA Û. 30 - 0^31-
|
||
0 14. 50 17.72 15.33 18.74 4661.67 O II 1 AKB 0. 15 0. 15
|
||
OCB 15. 10 17.72 15.96 18.74 3 OE AW70 0.62 0.63
|
||
PTP 17.72 15.96- 1ft.76- _3 R AW7 0 0.82
|
||
TAM 16. 00 17.72 16.92 18.74 4683 AKB 1.03 1.03 1.05 1.05
|
||
4365 AKB 0.0 0.0 0.0 0.0 4685.72 HE II AKR 64. 30 48. 59 65.60 49.57
|
||
4366.84 0 LI_ AKB CUD CLJ3 0*0 A41 52.60 48.59 53.66 49.57
|
||
4368.58 O I AKB 0.0 0.0 0.0 0.0 76.OOX 77.54X
|
||
4376 AKB 0.10 0. 10 0. 11 O.ll LA 64.30 48.59 65. 60 49.57
|
||
437-9.31 N 144— AKB -MA 51.DO -4ft^5.9 - 52.-Q3 49.57
|
||
C MA 0. 40 0.29 16.70 48.59 17.04 49.57
|
||
4387.97 HE I AKB 0.41 0.47 0.43 0.50 76. 00 48.59 77. 54 49.57
|
||
-C-.ÜA Q.6Q 0-47 0.63 Q.5Q i «. 60 4R. 6<3 1ft-«7 49-67
|
||
l 60 MA 0. 40 0.47 0.42 0.50 49.00 48.59 49.99 49.57
|
||
4391 0 AKB 0.04 0.04 0.04 0.04 a 57.50 48.59 58. 66 49.57
|
||
4407 AKB 0.09 0.09 0.09 0.09 PTP 42.60 48.59 43.46 49.57
|
||
4414.20 AKB 0.14 0.14 0. 15 0.15 TAM 42.00 48.59 42. 85 49.57
|
||
4420 AKB 0.06 0.06 0.06 0.06 VV 1 67.80X 69. 17 X
|
||
4434 AKB Q. 08 Q.Q8 Q.Qfl... 4711.40 ( AR TV ) AKB 8.BO 8..8Q 8.-95 8.95
|
||
4437.52 AKB 0.11 0.11 0. 12 0.12 A41 6.70 6. 82
|
||
4438 AKB 0.06 0.06 0.06 0.06 LA 10.60 10.78
|
||
4447.99 Q LI_ AKB _Ûjl 0-12 O- 13 .13- 7.70 7.-53
|
||
4452.73 O II AKB 0. 17 0.17 0. 18 0.18 2 2 MA 10.00 10. 17
|
||
4458 AKB 0. 10 0. 10 0. 10 0.10 2 3 ma 11.10 11.29
|
||
4471.50 HF I AKB 3.2Q _2 5 ma 9. IQ 9.26
|
||
l A41 2.50 4.31 2.61 4.51 2 60 MA 9.60 9. 77
|
||
1 LA 3.70 4.31 3.87 4.51 2 0 8.14 8.28
|
||
_J C— 4.3a .31 -Am. 4.51 2 TAM 7.40
|
||
1 2 MA 8.10 4.31 8.47 4.51 4712.86 HE I AKB 0.0 0. 0
|
||
1 3 MA 3.50 4.31 3.66 4.51 A41 6.70 6.82
|
||
4 MA '6.90 .21 LA 10.60 .10.18
|
||
1 5 MA 6. 00 4.31 6.27 4.51 7.70 7. 83
|
||
1 60 MA 4.30 4.31 4.50 4.51 10.00 10. 17
|
||
_1 Q— 1.70 4.31 1.78 4.51 11.10 11.29
|
||
PTP 2.45 2.56 A 2 5 MA 9. 10 9.26
|
||
TAM 3.20 3.35 2 60 MA 9.60 9.76
|
||
11.40X 11.92 X _2 Q_ 8. 14 8.28
|
||
4491 AKB 0.09 0.09 0.09 0.09 TAM 7.40 7. 53
|
||
4510.97 (K IV ) AKB 0.19 0. 19 0.20 0.20 4714.11 (NE IV ) AKB 0.75 0. 75 0. 76 0.76
|
||
4535.00 N III AKB 0.08 0.08 0.08 0.08 4715.73 (NE IV ) a*_Q8 Q.-Q8 -Qt.M- _Q..Q-8_
|
||
4541.52 HE II AKB 3.50 .47 3.63 4.64 4725.51 (NE TV ) 1 AKB 0.41 0.
|
||
A41 1.65 .47 1.71 4.64 1 DE AW70 1.15 1. 17
|
||
LA 2.90 .47 3.01 4.64 -1 R AW7Q 1 * 60 1.63
|
||
1 C MA 2.40 4.47 2.49 4.64 0.80 0.81
|
||
l 2 MA 1.90 4.47 1.97 4.64 4724.08 (NE IV ) AKB 0.73 0. 74
|
||
1 3 MA 3.-1Q.. 4.47 3.64 4740.22 (AR IV ) AKB
|
||
1 60 MA 2.90 4.47 3.01 4.64 A41 6.70 6. 79
|
||
l 0 18.60 .47 19.30 4.64 LA 7.80 8.30 7.91 8.42
|
||
_J IAM— ?.7Q -47 ?.ao 4.64 830 ft. LI - ft.42-
|
||
4562 AKB 0.09 0.09 0.09 0.09 9.20 .30 9. 33 8.42
|
||
4568.50 O IV AKB 0.05 0.05 0.05 0.05 MA 5. 40 8.30 5.47 8.42
|
||
4571.14 Mg_I AKB 0.0 0-0 3_ 3_ MA 12.00 8.3Q 12. 16 3.42
|
||
4592 AKB .08 0.08 0.08 0.08 l 5 MA 7. 50 8.30 7.60 8.42
|
||
4597 AKB 0.08 0.08 0.08 0.08 l 60 MA 9. 50 8.30 9.63 8.42
|
||
4607 AKB 0«-Q6. _»_Q6 Q.Q6 1 0 6.92 830 7.02 8.42-
|
||
4610 AKB .11 0.11 0. 11 0.11 TAM 6.90 6.99
|
||
4620.10 C AKB 0.05 0.05 0.05 0.05 4851 (FE VI 1 WYSE l. 00 A 1.00 A
|
||
4626 AKB Q .07 0-07 0.07- _ Q.01— 4861.00 H I AKB 100-00 -LQQ.QQ i fin, nn
|
||
4632 AKB 0.27 0.27 0.28 0.28 100.00 100.00 100. 00
|
||
4634.18 N III AKB 2.70 2.10 2.77 2.16 100.OOX 100.OOX
|
||
NGC 7662 (PK NO. 106-17 1) NGC 7662 (PK NO. 106-17 1)
|
||
|
||
595
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7662 (PK NQ. lQ.6-17 LI NGC 7662 (PK NO. 106-17 1)
|
||
HAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE N RG REF OBS I AVE 0 CORR AVE C
|
||
486L.QQ H I _J CP.QA_ . IQQ.OQ IQQ.OQ. 1QQ.QQ- iQQ.nn 5345 _L R AW70 «.24 Q.¿3
|
||
KOS 100.OOX 100.OOX l A41 4.00 7.07 3.79 6.70
|
||
LA 100.00 100.00 100.00 100.00 1 OE AH70 8.90 7.07 8.43 6.70
|
||
■ L.A54— 100.00 IQO.QQ- 10Q.OQ LÛCL.QÎL- _J R AW70 «-2Q 7« Q7 7.77 6.70
|
||
C HA 100.00 100.00 100.00 100.00 l C HA 6.00 7.07 5.68 6.70
|
||
2 HA 100.00 100.00 100.00 100.00 l 2 MA 5.00 7.07 4.74 6.70
|
||
3 MA 100.00 IQO.QQ -IQQ.QQ _ 100.00 1 3 MA 7.07 9.38 6.70
|
||
1 100.00 100.00 100.00 100.00 l 60 MA 8.70 7.07 8.24 6.70
|
||
1 100.00 100.00 100.00 100.00 1 0 5.90 7.07 5.59 6.70
|
||
l 60 MI ^A 71. 100.00 A 100.00 A _1 VY_ 13.6QX 12.89X
|
||
100.00 100.00 100.00 100.00 1 WYSE 12.00 A 11.37 A
|
||
MI 73 100.00 100.00 100.00 100.00 l C MA 0.33 0.31
|
||
1C0.00 ■ 1QQ.0Q
|
||
__M_S 1QQ.QQ
|
||
0 100.00 100.00 100.00 - IflQ.QQ
|
||
100.00 - 5517
|
||
_1
|
||
(CL I II I 1 A AE2
|
||
WYSE t-OQ A
|
||
1.04* 0.98*
|
||
OCR 100.00 foo.oo 100.00 100.00 1 OE AW70 0.49 0.68 0.46 0.64
|
||
PTP -1QQ.QQ- 100.00 IQO.QQ -IQQ.QQ J R AH 70 0.96 0.68 ...Q«-9Q Q.64
|
||
R2 100.00 100.00 100.00 100.00 1 C MA 0.60 0. 56
|
||
TAM 100.00 100.00 100.00 100.00 1 WYSE 1.50 A 1.41 A
|
||
VV 1 100.OOX 100.OOX 5537 ( CI—I-t I > J A AE2 1.00* Q. 94*
|
||
WYSE 100.00 A 100.00 A 1 OE AW70 0.50 0.91 0.47 0.85
|
||
4883 AKB 0. 15 0.15 0. 15 0.15 l R AW70 0.85 0.91 0.80 0.85
|
||
-4g£ÊL- AKB Q» 12 Q.L2- Q.12 Q.12 -J C M3 n. on 0.91 0^8-4 0.85
|
||
4906.60 AKB 0.16 0.10 0. 16 0.10 1 3 MA 1.40 1.31
|
||
R AW70 0.05 0.10 0.05 0.10 1 WYSE 1.50 A 1.40 A
|
||
4922.QQ_. .HE I. AKB 2 « 5Q.. 1.2.4.- 2.49, . 1.24 —LD I 1 1 laLYS.E— 2-00 A 1.87 A
|
||
1 OE AW70 0.64 1.24 0.64 1.24 1 OE AW70 0.05 0.19 0.05 0.18
|
||
1 R AW70 0. 54 1.24 0.54 1.24 1 R AW70 0.33 0.19 0.31 0.18
|
||
_J C . MA— 1.3Q 1.24- 1.29- -1.24- _J WYSE L.5Q . 1^40 A
|
||
1 WYSE 3.00 A 2.9 5630 (FE VI ) AW70 0. 20 0.20 0. 19 0.19
|
||
4931.00 (0 un 1 AKB 0.44 0.31 0.44 0.31 5677 (FE VI I AW70 0.20 0.20 0. 19 0.19
|
||
1 GE AW70 Q«.27 0.31 0.27 0.31 575.4 _LN LI L_ —A-41 11.00 1Q.11
|
||
AW70 0.23 0.23 l OE AW70 0.23 0.21 0.21 0.20
|
||
WYSE 2.00 A 1.99 A 1 R AW70 0.20 0.21 0. 18 0.20
|
||
-(.FF un WYSE 2.Q0- A._ 1.99 A _J WYSE 1^50 A 1.38 A
|
||
4959.00 (O III) AKB 335.00 429.39 331.91 425.44 C IV l R AW70 0.62 0.31 0.57 0.28
|
||
A41 560.00 429.39 554.84 425.44 1 C MA 0.0 0.31 0.0 0.28
|
||
—AN 139.OOX —137. 72-X— _1 WYSE. l.QQ 0.9? A
|
||
C PD A 416.90 429.39 413.06 425.44 5806 HE II AW 70 0. 10 0.10 0.09 0.09
|
||
335.00 429.39 331.91 425.44 5812 C IV AW70 0. 58 0.58 0. 53 0.53
|
||
- 455.00- -450.81- HYSF 1-50 ».37 A
|
||
550.00 429.39 544.93 425.44 5823 1 R AW70 0.30 0.30 0.27 0.27
|
||
645.00 429.39 639.06 425.44 5867 HE II 1 R AW70 0.60 0.60 0.55 0.55
|
||
. 411.m. 429.39 -407.21 5 87.5 HF I _2 A-4J 11.00 10.01
|
||
1 4 MA 330.00 429.39 326.96 425.44 1 OE AW70 8.80 16.79 8.01 15.29
|
||
1 5 MA 415.00 429.39 411. 18 425.44 1 P AW70 11.60 16.79 10.56 15.29
|
||
!.. 60..MA- . 370.00- 429.39 366.59. ■ 425.64. .1A>00 16.79 14. 57 15.29
|
||
MS 520.00 429.39 515.21 425.44 28.30 16. 79 25.76 15.29
|
||
0 408.00 429.39 404.24 425.44 14.40 16.79 13.11 15.29
|
||
337.00 ■429. 3.9-- -333.9fl_ 425.44 31.00 28.22
|
||
TAM 353.00 349.75 1 5 MA 21.90 16.79 19.94 15.29
|
||
VV 1 382.40X 378.88X 1 60 MA 20.00 16.79 18.21 15.29
|
||
WYSF ^n.nn a -356.68 A -J 0 —7—95 16.79 —7.26 15.29
|
||
4999 AKB 2.60 2.60 2.57 2.57 PTP 7.95 7.24
|
||
5007.00 (Q III) AKB 990.00 1279.31 976.38 1261.70 VV 1 15.70X 14.29 X
|
||
A4 1 1560.00 1279.31 1538.53 1261.70 ■ M.Y S F 15.00 A 13.66 A
|
||
AN 377.OOX 371.81X 6035 2 WYSE 1.00 0.90
|
||
BDO 81.30* 80.18* 6041 2 WYSE 1.00 0.90
|
||
C PDA 1259.00 1279.31 1241.67 1261.70 6063 l WYSE 0.80 0.72
|
||
LA 990.00 1279.31 976.38 1261.70 6073 1 WYSE 1.00 0.90
|
||
LA54 1365.00 1279.31 1346.21 1261.70 6086 (MN V ) 2 C MA 0.68 0.61
|
||
_Í1A 700.00 1279.31 1676.60 1261.70 .3-ttA -.¿j 3Q.. 2.Q6
|
||
1970.00 1279.31 1942.89 1261.70 6086 (FE VII) C MA 0.6 0.61
|
||
910.00 1279.31 897.48 1261.70 3 MA 2.30 2.06
|
||
128Q« QQ ■ 1279t31 -1262 « 39 -L261170 6101 JjK LV..L -W-YS.E- Uî>Q A
|
||
MS 1480.00 1279.31 1459.63 1261.70 6118 WYSE 0.80 A 0.71 A
|
||
PTP 1180.00 1279.31 1163.76 1261.70 6170 WYSE 1.00 A 0.89 A
|
||
R2 1Q1Q..QQ 1279.31 996. 10 .1261.7Q 6188 WYSE 0.9Q A -Q^J.1 L...
|
||
TAM 937.00 924.10 6232 (K VI ) WYSE 1.00 0.89
|
||
VV 1 1192.40X 1175.99X 6300 (0 1 ) CAM 0.00*A 0.00+A
|
||
WYSE 12QQiQQ. A... .1193.49-A- ..C-ÜA 2-« 6Q
|
||
5015.10 HE I l AKB 10.80 10.80 10.64 10.64 2 2 MA 4.40 3.87
|
||
5047.00 HF l l AKB 2.00 1.06 1.96 1.05 2 3 MA 3.70 3.26
|
||
1 OE AW70 0:13 1.06 0. 13 1.05 2 60 MA 3.40 2.99
|
||
5065 WYSE 1.50 A 1.47 A VV 1 7.90X 6.96X
|
||
5121 WYSE 1.50 A 1.46 A WYSE 0.90 A 0.79 A
|
||
5131 1 DE AWZQ— 0.30 Q.28 . 0.29 6311 —LS LUI C MA -¿-.60 2.29
|
||
1 R AW70 0.26 0.28 0.25 0.27 4.40 3. 87
|
||
i OE AW70 0. 05 0.09 0.05 0.09 2 3 MA 3.70 3.26
|
||
1 R AW70 Q. 13 0.09 0. 13 . Q.Q9 2 60 MA 3. 40 2.99
|
||
(FE VII ) 1 OE AW70 0.05 0.08 0.05 0.08 1 WYSE 4.00 A 3.52 A
|
||
1 R AW70 0. 12 O.C 0. 12 0.08 6346 SI II l WYSE 0.80 A 0.70 A
|
||
5161 . 1FE VJ.LL J R AW70 Q » 13 A Q « 13 A 6363 _LQ I L -l C MA Q.Q Q.Q
|
||
5176 (FE VI ) AW 70 0.07 0.07 1 3 MA 1.40 1.23
|
||
5178 (FE V ) WYSE 1.50 A 1.45 A 6403 1 WYSE 1.50 A 1.31 A
|
||
5196 - H Y SL— 1.5Q A 1.45 A. 6435 _J WYSE L.5Q A. 1.31 A
|
||
1 OE AW70 0. 19 0. 19 0. 18 0.18 6461 WYSE 1.00 A 0.87 A
|
||
l R AW70 0. 19 0.19 0. 18 0.18 6483 WYSE 0. 0.78 A
|
||
5192 _1 WYSE . 1.50 A 1.45 A 6529 WYSE 1. Q. 87 A
|
||
5199 (NI ) AW70 0.20 A 0.19 A (N II ) A41 175.00 151.56 A
|
||
5207 WYSE 1.50 A 1.45 A OC B 3.60 3.60 3. 12 3.12
|
||
5212 AW7-Q- 0.10 A 0.10 A ...WYSE 0.0 â_ 3.6Q 0.0 A 3.12
|
||
5232 1 WYSE 1.50 A 1.45 A A41 175.00 A 151.40
|
||
5303 l WYSE 1.00 A 0.96 A CAM 1.00* 0.87*
|
||
5306 _1 R AW7Q . 0.14 A 0.13 A LAR 10.00* 9.65*
|
||
1 OE AW70 0.05 0.17 0.05 0.17 390.00 349.20 337.41 302.11
|
||
1 R AW70 0.30 0.17 0.29 0.17 MA 430.00 349.20 372.02 302.11
|
||
R AW7Q 0^10- 0.10 0.10 . Q..1Q— —MA— . 33-L.QQ 349«2Q ¿96.37 302.11
|
||
(CL IV ) l OE AW70 0.10 A 0.10 A 1 280.00 349.20 242.25 302.11
|
||
1 WYSE 1.50 A 1.43 A l 5 MA 320.00 349.20 276.85 302.11
|
||
533-4- -1FE Y1.LL 1 R AW70 Q.1Q A . Q.1Q A.. 1 60 MA 404.00 349.^0 349.53 302.11
|
||
5334 1 WYSE 1.50 A 1.43 A 314.00 349.20 271.66 302.11
|
||
5345 l OE AW70 0.26 0.25 390.00 349.20 337.41 302.11
|
||
NGC 7662 (PK NO. 106-17 1) NGC 7662 (PK NO. 106-17 1)
|
||
|
||
596
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 7662 (PK ND. 106-17 1) _LL Zñ3 (PK NO. 138+ 2 1)
|
||
WAVE N RG REF DBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
6562- _1 nr.R n i .no R4<?.?n 7RA.R7 RQ7.11 3425 (NE V > I PG AK! 54.00 -115.20 115.2Q
|
||
PTP 302.00 261.28 302.11 I PG AK I 6.40 6.40 10.94 10.94
|
||
VV 1 214.20X 185.32X 1 PE AKI 16.00 18.00 26.81 30.16
|
||
HYSE 360-00 & 311-46 A 1 PG AKI 20.00 -18. QQ 33.51 30.16
|
||
6563 (N II ) VV l 214.20X 185.32X 3889 1 PG AKI 8.30 8.30 13. 73 13.73
|
||
6583 (N II ) A41 175.00 A 151.19 A 3967 (NE I II I 1 PG AKI 7.10 7. 10 11.28 11.28
|
||
CA>1 0-02* 0-02* 3974 H I 1 PG AKI 11.60 -l-l.t 6.0 18.37 18.37
|
||
OCB 7.80 6.34 6.74 5.48 4101 H I 1 PG AKI 20. 10 20. 10 29.69 29.69
|
||
PTP 4.89 6.34 4.22 5.48 4340 H I 1 PG AKI 32.60 32.60 42.55 42.55
|
||
WVSf- 12.00 A. 10.37 A 4363 _LQ III) 1 PG AKI 7.80 7.80 10-06 -10.06
|
||
6614 WYSE 2.00 A 1.72 1 PE AKI 94.00 .50 103.00 96.97
|
||
6644 WYSE 1.50 A 1.29 A 1 PG AKI 83.00 88.50 90.95 96.97
|
||
6678 HE I C MA 5.90 9.99 5.07 *711 (AR IV ) 2 PG AM 11.00 11.89
|
||
15.00 9.99 12.88 8.58 4713 HE I 2 PG AKI 11.00 11.8R
|
||
8.00 9.99 6.87 8.58 4726 (NE IV I l PG AKI 7.00 A 7.51 A
|
||
21.00- 9.99 18.03 8.58 4740 (AR IV ) 1 PG AKI 10.00 10.00 -10^64:... 10.64
|
||
l 5 MA 6.00 9.99 5.15 8.58 l PE AKI 100.00 L 00.00 100.00 100.00
|
||
1 60 MA 4.05 9.99 3.48 8.58 l PG AKI 100.00 100.00 100.00 100.00
|
||
_J HYSE 4.00 A 3.44 .A— _1 QP63 100.00 100.00 IQQtQQ 100.00
|
||
6717 (S II) l B AE2 0.66* 0.57* 4959 (0 III) l PE AKI 150.00 130.50 143.78 125.09
|
||
1 WD 0.62* 0. 53* 1 PG AKI 111.00 130.50 106.40 125.09
|
||
6723 _LS II ) J C-MA 1-90 1.63 2.45 5007 __LQ III ) J QQ63 575.QO 575.00 -339*51. 539-57
|
||
l 2 MA 5.80 2.86 4.97 2.45
|
||
1 3 MA 3. 10 2.86 2.65 2.45 REGIEN KEY (REGIONtREFERENCE,EXPLANATION)
|
||
1 60 MA .,28- .2* 86 1.95 PE. AKI . PHOTOELECTRIC OBSERVATIONS
|
||
PTP 1.23 1.05 PHOTOGRAPHIC OBSERVATIONS
|
||
WYSE 4.00 A 3.43 A
|
||
6730- _LS Li L AE2 1.00* (PK NO. 138+ 2 11
|
||
1.00* 0. 86*
|
||
4.90 5.25 4. 11 4.41
|
||
8.90 7-47 -4.41
|
||
l 3 MA 3.50 5.25 2.94 4.41 351 (PK NO. 159-15 1) C = 0.54 (RADID-H BETA)
|
||
1 PTP 3.72 5.25 3. 12 4.41
|
||
7135 (AR III) A C. MA 13.BQ_ 16.36 11.54 13.69
|
||
1 2 16.40 16.36 13.72 13.69 3133 0 III 100.00 1 00.00 178.52 173.52
|
||
1 3 10.30 16.36 8.62 13.69 3203 HE I I 34. 00 34.00 59.27 59.27
|
||
_J 4_ 43. 00 16.36 35.97 13.69 -0 LI1 ijz-ao 28.35 ?R .35
|
||
4.90 16.36 4. 10 13.69 3346 ( NE V ) 21.00 34.58
|
||
9. 77 16.36 8.17 13.69 3346 0 III 21.00 34. 58
|
||
_LD TI>1 C MA 2.4Q_ 2-93 1.99 —2*43
|
||
1 2 MA 3.30 2.93 2.73 2.43 3703 HE I 2.30 3.36
|
||
1 3 MA 3. 10 2.93 2.57 2.43 3703 H I 2.30 3.36
|
||
_1 PTP 1.66 A L.37 A
|
||
7530 (CL IV ) i C MA 1.50 1.50 1.23 1.23 3721 3.40 4.94
|
||
7592 HE II 1 C MA 0.80 0.80 0.65 0.65 3721 ( S UD 3.40 4.94
|
||
7751 (AR I II I 1 C MA 3.70— 4-70 2.99 3.80 3726 -LO- TT )
|
||
1 2 7. 50 4.70 6.07 3.80 1 ACP 20. 10 29. 14
|
||
1 3 2.90 4.70 2.35 3.80 1 AC PG 12.50* 18.12*
|
||
(CL IV ) _1 C— 2.60- 3.17 2.08 2-53 -J AW
|
||
1 2 2. 80 3.17 2.24 2.53 1 VV 12.90X 18.70 X
|
||
1 3 4.10 3.17 3.27 2.53 3728 II ) 1 AW 3.40 4.92
|
||
_2 C_ 1.50- 1.19 . 3734 _L _I AW—
|
||
8236 HE II C MA 1.50 l. 19 3740 HF I I 1. 10 1.59 1.59
|
||
8545 H I NOS 0.90* 0.70* 3750 H I 5.40* 7. 76*
|
||
8598— NOS 1.00* 0.78» 4.70 6.76
|
||
8665 H I C MA 2.00 2.00 1.56 1.56 3754 III 3.20 3.20 4. 59 4.59
|
||
8750 H I C MA 2.80 2.80 2.17 2.17 3759 111 8.40* 12.04*
|
||
NOS 1.40* 1.09* 8.50 8.50 12.18 12.18
|
||
C MA 6. 20 4. 80 3770 5. 70* 8.14*
|
||
NOS 1. 50* l. 16* 5.90 5.90 8.42 8.42
|
||
9Q15— _d I_ NOS 2.00* 1.54* 3797 6. 2Q 7.35 8.77 1 0.40
|
||
0 4.36 3.36 l ACPG 7.90* 11.17*
|
||
(S III ) NOS 6.70* 5.15* 1 AW 8.50 12.02
|
||
_0— 14.40- 11-07 3819 HE I _J ACPG 1.62* 2.27*-
|
||
NOS 2. 90* 2.22* 0. 70 0.70 0.98 0.98
|
||
0 4.90 3.75 6. 10 9.05 8.51 12.62
|
||
9532 LAR 11 45* L»jLQ_*_ ACPG 6.80* .48*
|
||
H I 2 NOS 19.00* 14.39* 12.00 9.05 16. 74 12.62
|
||
2 0 41.80 31.66 (NE I 11 1 1 90.00 61.53 123.98 84.76
|
||
_i_S LU 1 2 - NOS 19. QQ*... 14.39* 16.60 61.53 22.87 84.76
|
||
0 41.80 31.66 ACPG 112.70* 155.25*
|
||
9546 (S III ) LAR 1.45* 1. 10* LA 86.00 118.47
|
||
10049 H I _0 9. 55 7. 14 78.00 107.45
|
||
10120 HE II 2 7. 60 27.60 20.59 20.59 1 VV 1 161.30X 222.20X
|
||
10320 (S II 1 25.80 25.80 19. 16 19. 16 2 A 17. 00 23.24
|
||
10829 HE I LAR 4.68* 3.43» 2 ACPG 18.10* 24.74*
|
||
NOS 42.80* 31.39* 86.00 117.54
|
||
0 102.00 74. 81 74.81 35.50X 48.52X
|
||
NOS . 8.40* ful4* H.E I _L7-...0Q 23.24
|
||
0 16. 20 16.20 11.85 11.85 2 ACPG 18.10* 24.74*
|
||
10 MU (S IV ) GMS 86.00 86.00 55.53 55.53 2 VV 1 35.50X 48.52 X
|
||
3967 (NE IIP _2 A— 38.00 50.66
|
||
REGICN KEY (R EG ION,REFERENCE.EXPLANATION) 2 ACP 30.40 40. 53
|
||
A, AE? , REGIONS A AND B CN DIFFERENT SCALES 2 ACPG 42.00* 55.99*
|
||
OE. AW70« OUTER EDGE OF BRIGHT RING 2 LA 42.30 56.39
|
||
P, AW70, BRIGHT RING 67. 70X 90.25 X
|
||
2, MA , -5.4 ARCSEC FROM C IN BRIGHT RING 38.00 50.65
|
||
3. MA , »5.4 ARCSEC FROM C IN BRIGHT RING 30.40
|
||
4, MA , -10.8 ARCSEC FROM C IN OUTER RING ACPG 42.00* 55.98*
|
||
5, MA , +10.8 ARCSEC FROM C IN OUTER RING LA 42.30 56.38
|
||
C. MA . CENTER OF BRIGHT RING. NORTH OF CENTRAL STAR 31.00 41.32
|
||
60. MA , MT. WILSON 60 INCH 2 VV 1 67.70X 90.24X
|
||
3969 (NE III 1 2 MA 31.00 41. 30
|
||
END NGC 7662 (PK NO. 106-17 1) 4026 HE I -1 AJüL 3.50 3.50 -.4 «-5.8—
|
||
1 VV 1 58.OU X 75.84X
|
||
l ACPG 0. 81* 1.04*
|
||
1 AW 1.70 1.70 2.19 _2_«_L2—
|
||
BEGIN IC 289 (PK NO. 138+ 21) C = 0.87 (HYDROGEN LINES) 0.57* 0.73*
|
||
0.50 0-64
|
||
-HAVE— . IDENT N RG REF 3BS I AVE—Q CQRR I AVE C 29.OOX 37.27X
|
||
3203 HE II 1 PG AKI 14.00 14-00 34.28 34.28 4097 N III AC P 21. 10 26.92
|
||
3345 (NE V ) I PG AKI 21.00 21.00 46.94 46.94 4101 H I A 23.00 29.30
|
||
289 (PK NO. 138+ 2 1) 351 (PK NO. 159-15 l)
|
||
|
||
597
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
351 (PK NO. 159-15 1> _LC 418 (PK NQ. 215—24 1)
|
||
WAVE IDE NT N RG REF OBS CORR WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4101 H I 2 ACP 21. 26.8 3554 lÍQ HE—I AK3 «.44 Q.44 .57 0,57
|
||
1 ACPG 10* 26. 88* 3587, 30 HE I 1 AK3 0.50 0.50 0.64 0.64
|
||
1 MA 00 23.50 30. 57 3613. 6 0 HE T 1 AK3 0.86 0.86 L. 09 1.09
|
||
_1 V_V L_ 1 9QX 53. 38-X - 3634, 40 he Ï —I AK3 0.65 0.65 0.82 0.62
|
||
4200 HE I I 2.00 2.46 3658. 1 AK3 . 0.41 0.41 0.52 0.52
|
||
4227 (FF V ) 1.00 1.22 3659. I AK 3 0.31 0.31 0.39 O.
|
||
4267 _C LL_ .AM_ 0.84 1.01 3660. 1 AK3 0.38 0..36 0.49 P.
|
||
1 58. 00 43 3661 ,20 H I l AK 3 0.36 0.36 0.45 0.45
|
||
2 ACP 60. 30 14 3662 ,30 H I 1 AK 3 0.45 0.45 0.57 0.57
|
||
_J ACPG. 90* 84» 3663 ■ 40 H I 1 AK3 0.50 QtfrQ 0.63 0.6?
|
||
67. . 76 X 3664 ,70 i AK3 0.52 0.52 0.66 0.66
|
||
LA 41. 50.85 .08 59.99 3666 ,10 1 AK 3 0.69 0.69 0.87 0.87
|
||
MA 50.85 .81 59.99 3667 ,70 1 AK3 0.55 0.55 0.69 0.69
|
||
50.85 65 59.99 3669 ,50 H I AK3 0.72 0.72 0.91 0.91
|
||
(0 I II) 1 .00 17.34 74 20.31 3671 ,50 H I AK3 0.71 0.71 0.89 0.89
|
||
.30.. 3673 ,8Q H I_ AK3 0.73 Q.73 Qf 92 0-92
|
||
60* 22. 96* 3676. l AK3 0.82 0.82 1.03 1.03
|
||
10X 36. 43 X 3679. l AK3 1.06 1.06 1.33 1.33
|
||
¿0 17.3 4- 15 3682, 1 AK 3 U12 . 1.12 1.41 UM
|
||
22. 17.34 20.31 3686. 1 AK3 1.22 1.22 1.53 1.53
|
||
15. 17.34 20.31 3691 l AK3 1.63 1.63 2.05 2.05
|
||
1 9. 17.34 20-31 3691j -J AK3 U-61 1.61. 2.02 2.02
|
||
l A 28. oox 31. 77 X 3703. H I l AK3 1.77 2.22 2.22
|
||
1 ACP 13. 20X 14. 98 X 3705. HE I 1 AK3 0.80 1.00 1.00
|
||
1 W 1 3. -20 A3 3712. _H L_ 1 AK3 2.09 2.09 2.61 2.61
|
||
4542 HE II A 3. 3721. l AK3 2.72 2.72 3.39 3.39
|
||
4634 N III A 3. 3723 O AK3 0.21 0.21 0.26 0.26
|
||
ACP II . 3726 _LQ Li )J A41 157.00 195.65
|
||
.29 1 LA 132.00 164.50
|
||
.97 1 0 148.00 184.44
|
||
ACP 11. IQ ._92_ _J EJ.P— 13-«_8Q 11-20
|
||
. 79 1 SO 1.00* 1.25*
|
||
4645 III . 18 l TAM 95.OOX 118.39X
|
||
4645 I I L- VV..1.- 79.9QX 99. 57X
|
||
4649 2 AW7C . 50 3728.90 (O II ) 1 AK 3 147.00 183.08
|
||
4650 2 A W7 0 .50 l SO 0.37* 0.46*
|
||
A W7 Q_ 3734.40 tí I_ 1 AK 3 2-JLO
|
||
4658 0p III 3750.10 H I A K3 3. 16 3. 16 3.92 3.92
|
||
4658 H II 3757 (0 III) 0 3.98 3.98 4.93 4.93
|
||
466.1 3770.60 t! I AK.3 -85 3.85 4.75 4.75
|
||
ACP 1 AK3 4.25 3.76 5.22 4.62
|
||
AN 1 A41 3.40 3.76 4.18 4.62
|
||
—1 LA 4. 10
|
||
1 MA 52. 45.75 .04 48.42 l 0 3.31 3.76 4.06 4.62
|
||
1 VV 1 54. 45.75 .00 48.42 3805.80 HE I 1 AK3 0. 10 0. 10 0. 12 0.12
|
||
_2 A 3819.60— HF I _1 AK 3 . 1.25 1.25- 1.53
|
||
? AW70 3833.60 HE I 2 AK3 0.09 0.11
|
||
2 A 3833.60 HE II 2 AK3 0.09 0. II
|
||
_2 A W7 0 3835.40 H I _1 AK3 5-30 6.45
|
||
4740 (AR IV ) 1 A 6.95 .00 7.22 1 A41 6.40 7.79
|
||
l AW70 6.95 .45 7.22 l LA 9.00 10.96 A
|
||
4861 —H I J A 100.00- _J Q 5.50 6-70
|
||
1 ACP 100. 100 00 1 PTP 5.50 6.70
|
||
l AN 100. 100 ,00X 1 TAM 5.40X 6.58X
|
||
1 C PD A 1 oo.-QQ loo.oo ion.00- _1 VV—1 . 5.OOX 6. 09 X
|
||
100. 100.00 100. 100.00 3838.60 MG I AK3 0.07 0.07 0.09 0.09
|
||
100. ICO.00 100. 100.00 3848.20 MG II AK3 0.07 0.07 0.09 0.09
|
||
VV 1 100. 100.00 100. 100.00 3850.40 MG I I AK3 0.04 0.04 0.05 0.05
|
||
4922 I AW7C 0. 0. 50 0. 0.49 3856.10 N II AK3 0. 14 0.14 0.17 0.17
|
||
4959 III) 440. 429.50 428. 418.35 3862.60 SI I I AK3 0.06 0.06 0.07 0.07
|
||
ACP . 382. 429.50 372. 418.35 3867.60 HE ..I_ AK 3 0. IQ QUO 0. 17 Q.12
|
||
AN 268. OOX 261. 04X 3868.70 (NE III) AK 3 2.99 3.89 3.61 4.70
|
||
C PD A 407. 40 429.50 396, 83 418.35 9.00 3.89 10.88 4.70
|
||
_LA . 40 Z. 110 429.50 391, 32 418.35 1-95 3.8 9 2.36 4.70
|
||
1 300. 292. I PTP 1. 1.96
|
||
l 516. 10 429.50 502. 418.35 3 VV l 15.30X 18.50X
|
||
_LD III) 1 1760. ÛÛ 1452.90 L691. 1396.66 3871-BU HE I _J AJL3 Q-2Q Q.2Q 0.24 Q.24
|
||
1139 1452.90 1094. 91 13 3888.60 A K3 11.60 11.60 13.96 13.96
|
||
633 OOX 608, 50 X 3889.00 A K3 11.60 11.60 13.96 13.96
|
||
CPDA 123Q- -HQ 1452.9Q 1182, 39 1396.66 A41 12.60 15.16
|
||
1200. 00 1 452.90 1153, 55 1 396.66 LA 13. 10 15.76
|
||
1935. 50 1 452.90 1860. 58 1 396.66 2 0 11.50 13.84
|
||
5Q1 5 ..HE I AW7C Qj Ml Q.6Q 0. 53. 0-58 2 TAM 12.20X 14.68X
|
||
5145 (FE VI ) 1 AW70 20 A VV 1 15.30X 18.41X
|
||
5158 (FF VII ) l AW70 10 A A41 12.60 15. 16
|
||
5176 (FE VI ) 1 AW7Q. . Q7 A 13. 10 15.76
|
||
5191 1 AW70 .20 2 1 11.50 13.84
|
||
5199 1 AW 70 .20 A 2 TAM 12.20X 14.68X
|
||
5411 -HE IL. _i A W7Q -IQ 13.85 4.38 11.88 -2 V.V-.1- 15.30X 18.41X
|
||
l VV 1 13.85 . 39 11.8 3918.80 C II A K3 0. 16 0. 16 0. 19 0.19
|
||
5517 (CL III) 1 A W7 0 0.50 .42 0.42 3920.50 C II AK3 0. 29 0.29 0.35 0.35
|
||
5537 (CL III) 1 AW70 0.40 .33 0.33 3926.50 HE I AK3 0.15 0.15 0. 18 0.18
|
||
5754 II 1 VV 1 16.10 12.68 3964.70 HE I l AK3 1.16 1.16 1.38 1.38
|
||
5875 I 1 AW70 13.25 10.15 3967.50 (NF III) 1 AK 3 1.00 1.00 1. 19 1.19
|
||
1 VV 1 13.25 10.15 2 LA 16.80 19.92
|
||
6300 l VV 1 12. 12.90 8.98 2 0 14.50 17.19
|
||
6563 1 MA 350. 350.00 231. 231.89 2 TAM 15.60X 18.50 X
|
||
2 VV 1 374. 247. _2 iüi- 17»3QX 20.51 X
|
||
6563 (N II ) 2 VV 1 374.2 3970.10 H I l A K3 13.60 14.30 16.12 16.95
|
||
1 A41 15.00 14.30 17.78 16.95
|
||
END L£ 25J 1 PK NQ. 159-15 1) _2 LA 16.8Q 19.91
|
||
2 14. 50 17.18
|
||
2 TAM 1 5.60X 18.49 X
|
||
_2 W 1 17.30X 2Q.5QX
|
||
BEGIN IC 418 (PK NO. 215-24 l) C = 0.32 (RADIO-H BETA) 4009.30 1 AK3 0.25 0.25 0.29 0.29
|
||
4026.20 l AK3 1.86 1.67 2. 18 1.96
|
||
WAVE IDFNT N RG REF OBS I AVE 0 CORR I AVE C _! A-4.1- U 10 1*67 U 29 1.96
|
||
3187.70 HE I AK3 3.20 3.20 4.46 4.46 1.80 1.67 2. 11 1.96
|
||
3354.60 HE I AK 3 0.26 0.26 0.35 0.35 1.95 1.67 2.29 1.96
|
||
3447.5Q HE I AK3 0.59 0.59 ..78 0.78 1.66 ■ La 6 7 1.95 1.96-
|
||
3512.50 HE I AK3 0.22 0.22 0.29 0.29 ?.. 10X 2.46X
|
||
3530.50 HE I A K3 0. 39 0.39 0.50 0.50 6.OOX 7.03X
|
||
418 (PK NO. 215-24 1) (PK NO. 215-24 1)
|
||
|
||
598
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
418 (PK NO, 21Sr24 1) . _LC 415 (PK NCL 215-24 1)
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4068.60 (S II > 1 AK3 1.87 1.87 2.17 2.17 4959 to i m 1 LA54 40.00 46.26 39.38 45.55_
|
||
2 0 3.63 4.22 0 42. 70 46.26 42.04 45.55
|
||
4072 (S II) 1 A41 2.10 2.44 PTP 41.70 46.26 41.06 45.55
|
||
1 TAM 6.QQX 6.97X TAM ■57.QQ 46.26 56.12. 45.55-
|
||
4072.20 O II AK3 0.39 0.39 0.45 0.45 VV 1 40.OOX 39.38X
|
||
4076.20 ( S II) AK3 0.75 0.75 0.87 0.87 WYSE 50.00 A 49.23 A
|
||
2 Q 3. 63_ .21 WVSE 3.00 A 2t 95 A
|
||
4101.70 H I l AK3 20.20 22.40 23.32 2 5.86 A41 139.00 135.79
|
||
1 A41 24.00 22.40 27.70 25.86 AN 125.OOX 122.12 X
|
||
_J LÆ_ 25. 10 22.40- 7fl .97 ?5-86 am.. 17Q.QQ» -166.Q8*_
|
||
1 MI73 23.00 22.40 26.55 25.86 1 PE BR 153.20 143.17 149.67 139.87
|
||
1 0 20.20 22.40 23.32 25.86 I C PD A 138.00 143.17 134.82 139.87
|
||
_1 PIP 21.90 22.40 25.28 25.86 _1 Lâ_ 159.OQ 143.17 -155.33- 139.87
|
||
1 TAM 28.10X 32.44X LA54 138.00 143.17 134.82 139.87
|
||
l VV 1 29.OOX 33.47X PTP 132.00 143.17 128.95 139.87
|
||
4120.00 HE I 1 AK3 0.26 0.26 0.30 SM 100.00* 97.69*
|
||
4128.50 AR II 1 AK3 0.05 0.05 0.06 0.06 TAM 143.00 139.70
|
||
4131.80 AR II 1 AK3 0.07 0.07 0.08 0.08 VV 1 126.50X 123.58X
|
||
4141*80 HE I _1 AK3 .11- .37 Q. 42 0.42 WVSF 230.00 A 224.69-
|
||
4153.30 O II l AK3 0.06 0.06 0.07 0.07 5015.70 HE I AK3 0.72 0.80 0.70 0.79
|
||
4267.00 C II l AK3 0.61 0.61 0.68 0.68 AW70 0. 89 0.80 0.87 0.79
|
||
4340*50 H I 1 AK3 . 40. 70 42.40 44«.82_ 46.77 WYSE -.2.00 A . 6.83-
|
||
45.00 42.40 49.63 AW70 0.05 0.05 0.05
|
||
50.OOX 55.15X WYSE 3.00 A 2.91 A
|
||
49.5Q 54.6Q _5Q.47 HE A.W7Q ..mu Q. 13 Q.13 —mil—
|
||
l M173 42.50 42.40 46.88 46.77 WYSE 3.00 A 2.91
|
||
1 0 40.80 42.40 45.00 46^77 5056 AW70 0. 14 0. 14
|
||
OCR 41. Ifl 42.40 45.99 46.77 5112 WYSE 3.00 A
|
||
l PTP 43. 70 48.20 5120 A W70 0.04 0.04 0.04
|
||
1 TAM 51.OOX 56.25X 5125 WYSE 3.00 A 2.87
|
||
_J VV 1— 65.30 X 77.O? X 5131 AM7Q 0.04 Q. 04 -Q.04_
|
||
4342.70 O II 1 AK 3 0.08 0.08 0.09 0.09 5145 (FF VI ) AW70 0.04 0.04 0.04 0.04
|
||
4363.20 (0 III) 1 AK 3 0.94 1.10 1.03 1.21 5158 (FE VII) AW7C 0.02 0.02 0.02 0.02
|
||
1 AN 1.54X 1.69.X -5191 LAR. HU- AMIQ 0.Q5 0.05 0.Q5 0.05
|
||
1 BOO 1.00* 1.10* (N I ) 1 0.26 0.25
|
||
2 LA 49.50 54.37 1 1.20* 1.13*
|
||
_L □ 1.70 1.87 _]— -3.00 A
|
||
1 PTP 0.66 0.72 5200 (N A W70 0. 14 0. 13
|
||
l SM 0.35* 0.38* 5212 WYSE 3.00 A 2.83 A
|
||
_J TAM 2.7QX 2.42 X (FF III-) A-W70 0.07
|
||
l VV 1 33.00XA 36.24XA 5277 (FE VII) l AW70 0.04 0.04 0.04 0.04
|
||
4368.20 C 1 AK3 0.16 0.16 0. 18 0.18 5302 AW70 0.06 0.06 0.06 0.06
|
||
4387.90 HF _J AJL3 0.63 Q. 63 0. 69 0-69 WYSE 3.00 A
|
||
4437.50 HE I l AK3 0. 11 0.11 0.12 0.12 5397 WYSE 3.00 A 2.75 A
|
||
4471.50 HE I l A K3 3.17 4.16 3.42 4.48 5418 WYSE 3.00 A 2.74 A
|
||
-1 A41 4.46- 6.31 6.68 5656 WYSE 3.00 A
|
||
8.OOX 8.62X 5514 l AW70 0.07 0.06
|
||
LA 7.20 4.16 7.76 4.48 5517 (CL III) l IA AE2 0.55* 0.49*
|
||
_Ü 3.32 4.16 3* 58 4.48 1 2 A AE 2 0.66*
|
||
1 PTP 3.09 3.33 AW7 0 0.32 0. 79
|
||
1 TAM 5. 80X 6. 25X BR 0.60* 0. 54*
|
||
-J VV 1- 6. 14X WY-SE -3^00 A
|
||
4571.10 MG I 1 AK3 0.46 0.46 0.49 0.49 l IA AE2 1.00* 0.90*
|
||
4627 MG I l AW70 0.03 0.03 0.03 0.03 l 2A AE2 1.00* 0.90*
|
||
4630.50 C LI_ _2 AJL3 0.09- 0.09 _] AW-7Q 0.72 0.64
|
||
463C.50 N II AK 3 0.09 0.09 BR 0.90* 0.81*
|
||
4634 N III AW70 0.04 0.04 0.04 0.04 WYSE 3.00 A 2.69 A
|
||
4640 N III AW70 0.06 0.06 0.06 0.06 BR 0.50* 0.44*
|
||
4647 C III AW70 0.08 0.08 0.08 0.08 WYSE 3.00 A 2.67 A
|
||
4686 HE II VV 1 2.30X 2.38X 5658 WYSE 3.00 A 2.64 A
|
||
. j47imi4 HF- I AK3 Q. 58 n.60 5669 A W70 0. ?1 n. i a
|
||
1 AW70 0.26 0.42 0.27 0.43 BR 0.30* 0.26*
|
||
4768 O AK3 O.ll 0.11 O.ll O.ll 5677 N II WYSE 3.00 A 2.63 A
|
||
4779.70 N II _1 Ô.K-3 0.11 Q. 11 0*11 5680 A-W.7 Q 0.12 Q. 11
|
||
4781.20 N II 1 AK3 0.08 0.08 0. 08 0.08 5695 1 WYSE 4.00 A 3.50 A
|
||
4788 1 AW70 0.05 0.05 0.05 0.05 5696 C III I AW70 0. 17 0. 15
|
||
482-1 (FE III) J WYSE. L*-Q1. A _1 E BR .Q.4Q* -Q* 35*_
|
||
I A W70 0.04 0.04 1 AW70 3.90 7. 85 3. 38
|
||
1 WYSE 1.00 A 1.01 A 1 F BR 4.90* 4. 25*
|
||
. 48^9. _1 WYSE- 1.00 A 1 PE BR 2Q.7Q -J-..85 _L7_. 96 6.81—
|
||
1 AK3 100.00 100.00 100.00 100.00 0 3.90 7.85 3. 6.81
|
||
1 A41 100.00 100.00 100.00 100.00 PTP 2.89 7.85 2. 51 6.81
|
||
1 AN 10Q.0QX 100.OOX WYSE 12.00 A IQ.41
|
||
l PE BR 100. 00 100.00 100.00 100.00 5765 WYSE 3.00 A 2.60 A
|
||
1 CPDA 100.00 100.00 100.00 100.00 5875 HE I AHX 83.00* 70.86*
|
||
J, LA- 1QQ.Q4- 100.00 100.00 100.00 AW7Q 16.QQ 16.92 13.66 14.45
|
||
1 LA54 100.00 100.00 100.00 100.00 l PE BR 25.60 16.92 21.86 14.45
|
||
l MI 73 100.00 100.00 100.00 100.00 1 0 13. 80 16.92 11.78 14.45
|
||
-I Q— 1QQ.QQ 100.00 100.00 100.00 I PTP 12. 30 16.92 10.50 14.45
|
||
1 OCB 100.00 100.00 100.00 100.00 VV 1 27.60X 23.56X
|
||
l PTP 100.00 100.00 100.00 100.00 WYSE 20.00 A 17.07 A
|
||
1 TAM IQQ.O-Q 100.00 100.00 100.00 6035 WYSE 2.0Q A 1.67 A
|
||
1 VV 1 100.OOX 100.OOX 6046 1 F BR 0.40* 0.33*
|
||
1 WYSE 100.00 A 100.00 A 6 049 1 WYSE 2.00 A 1.67 A
|
||
4882— (FE III) _2 WYSE- 2.QQ A 1.99 A 6098 i F as_ Ü.3Q* 0.25*
|
||
4882 ( FE III) 2 WYSE 2.00 A 1.99 A 6111 WYSE 2.00 A 1.66 A
|
||
4888 0 II 1 WYSE 2.00 A 1.99 A 6130 WYSE 2.00 A 1.65 A
|
||
4904 1 WYSE 2-00 A 1.99 A 6211 WXSE- 2.00 A 1.63 A
|
||
4910 1 WYSE 2.00 A 1.98 A 6253 WYSE 2.00 A 1.62 A
|
||
4921.90 1 AK3 0.62 0.61 0.61 0.61 6300 AHX 16.40* 13.23*
|
||
1 AW7Q Q.6J- 0.61 0-60 0-61 9.80» 7.91*
|
||
1 F BR 1-60* 1. 58* 2 PE BR 21.30 17.19
|
||
1 WYSE 3.00 A 2.97 A l CAM 0.01* 0.01*
|
||
4??.! (Q MD _2 WYSE 2.00 A U99 A -J Q— .17 -4.17 3.37 .3.37_
|
||
4931 (FE III ) 2 WYSE 2.00 A 1.98 A VV 1 46.60X 37.61X
|
||
4943 0 II 1 WYSE 2.00 A 1.97 A WYSE 8.00 A 6.46 A
|
||
4945? . 1 WYSE. 3i QQ. A 2*96 A 6310 LS IIP £ BE— 3.60*
|
||
(0 III) 1 A41 50.00 46.26 49.23 45.55 2 PE BR 21.30 17.17
|
||
1 AN 52.OOX 51.20X 1 WYSE 4.00 A 3.22 A
|
||
1 PE BR 41.70 46.26 41.06 45.55 9331 _1 WY-SE -2. QQ A 1.61 A
|
||
1 CPDA 44.70 46.26 44.01 45.55 1 F BR 0.60* 0.48*
|
||
1 LA 52.30 46.26 51.49 45.55 1 WYSE 2.00 A 1.61 A
|
||
418 (PK NO. 215-24 1) 418 (PK NO. 215-24 II
|
||
|
||
599
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
418 (PK NO. 215-24 1) _U; 4X8 t PK NCL 7 15-24 11
|
||
WAVE IDEM N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
6363 (0 1 ) I AHX 4.90» 3.93* 10829 HE I 1 KPKT 145.00 145.00 86.02 86.02
|
||
l F BR 3.70* 2.97* LAR 3.05* 1. 81*
|
||
1 PF BR 12.40 9.94 0 145.00 145.00 86.02 86.02
|
||
1 WYSE 5.00 A 4.01 A PTP ._i¿6.«..QQ A JlLtlS. A
|
||
6371 l F BR 0.60* 0.48* 10870 SI KPKT 20.00 A 11.85 A
|
||
6386 1 WYSE 2.00 A 1.60 A 10938 H KPKT 19.00 18.40 11.22
|
||
_6 42 3. -1.5.9-A- LAR Q.37*
|
||
(N II) _X3 PF BR WYSE . 717.60
|
||
2 «-QQ-.A-.. 563.25 0
|
||
Q.63*
|
||
17.80 10.51 10.87
|
||
1 QCR 76.00 59.65 PTP 15.50 A 9.16 A
|
||
0.06* 0.05* 128I&. HE-KT 35-jlQQ 35.QQ 19.49
|
||
1 WYSE 110.00 86.34 A 16980 l KPKT 0. 0 0.0 0.0 0.0
|
||
3 PE BR 717.60 562.26 12 MU CNE II ) l GS 71.00 71.00 33.98 33.98
|
||
_1 CAM 1.00* 0. 78»
|
||
LAR io.00* 7.84* REGION KEY (REG ION,REFERENCE,EXPLANATION)
|
||
l M I 73 335.00 363.50 262.48 284.81 IA, AE2 » REGION NOT INDICATED — A« B ON DIF. SCALES
|
||
_J Cl- .399. QQ. -363._5.Q_ 312.63 284.81 2A. AE2 . REGION NOT INDICATED — A.B ON DIF. SCALES
|
||
1 OCR 389.00 363.50 304.79 284.81 FILAMENT IN RING S OF STAR
|
||
1 PTP 331.00 363.50 259.35 284.81 PHOTOELECTRIC (FROM ALLER AND CZYZAK 1972, UNPUB.)
|
||
2 VV 1 506.20X 396.62X
|
||
1.00* 0.78* 418 (PK NO. 215-24 1)
|
||
WYSE 410.00 A 321.25 A
|
||
_LN Li L VV 1 506.30X 396.70X
|
||
3 PF BR 717.60 560.94
|
||
1 CAM 0.60* 0.47* 972 (PK NO. 326+42 1) 0.03 (DUST MODEL)
|
||
_1_ 252. 00 196.98 173.53
|
||
l OCR 214.00 222.00 167.28 173.53 WAVE IDENT N RG REF OBS I CORR I
|
||
1 PTP 200.00 222.00 156.34 173.53 3727 (0 I I ) 1 KA2 600.00 612.50 A
|
||
1 W 0.30* 4686 HF T I 1 KA? IQ^QQ 10-03 A
|
||
1 WYSE 240.00 A 187.60 A 4861 I KA2 100.00 100.00 100.00 100.00
|
||
6638 1 WYSE 4.00 A 3.11 A 4959 III ) KA 2 270.00 270.00 269.61 269.61
|
||
6678 _1 AHX._ 27.3Q* —21.13*
|
||
1 F 9.00* 6.96* 972 (PK NO. 326+42 1)
|
||
3 PE BR 34.60 26.78
|
||
_1 W Y-S-E— 12.00 A 9.29 A-
|
||
l 10 AE2 0.53* 0.41*
|
||
1 2B AE2 0.42* 0. 32* BEGIN IC 1747 (PK NO. 130+ 11) C = 0.59 (HYDROGEN LINES)
|
||
1 AHX 21.70* 16.73*.
|
||
1 F BR 7.40* 5. 70* WAVE I DENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3 PE BR 34.60 26.67 3132 0 III 1 ML CA70 6. 20 6.20 11.68 11.68
|
||
2 n 7.20 3-L8-7- HE I 1 ML--CA70-. 3 .-80 3^80 7.02 —7.02-
|
||
1 WD 0.57* 0.44* 3203 HE II 1 ML CA70 3.20 3.20 5.87 5.87
|
||
1 WYSE 10.00 A 7.71 A 3312 0 III 1 ML CA70 2.00 2.00 3.50 3.50
|
||
_LS II ) 1 IP AF2 1.00* - Q. 7.7 *_ 1 HL-.CA.7a - 4.86
|
||
1 2B AE2 i.oo* 0.77* 3444 1 ML CA70 3.90 3.90 6.47 6.47
|
||
1 AHX 42.90* 33.02* 3682 1 ML CA70 0.70 0.70 1.07 1.07
|
||
_i—E as_ 18.20,* Í4-. fll*_ 3686- 1 ML-.Ç-A70. ■ 0.-60 0.60 ■l~2Z 1.22
|
||
3 PE BR 34.60 26.63 3691 1 ML CA70 0.90 0.90 1.37 1 .37
|
||
1 WD 1.00* 0. 77* 3697 l ML CA70 1.07 1.07 1.62 1.62
|
||
-I WYSE . 12.00. A .24 A 3 703- ? Ml f.A7C 7. R»
|
||
6734 ( S 11)2 9. 34 7. 19 3705 HE I 2 ML CA70 1.90 2.87
|
||
6755 12.00 A 9.21 A 3712 H I 1 ML CA70 1.80 2.72
|
||
0.70* 0. 53* 377 1 _H I— ? Ml CA70 3.91
|
||
6865 l F BR 0.40* 0.30* 3721 ( S III) 2 ML CA70 2.60 3.91
|
||
7006 ( AR V ) 1 F RR 1.00* 0. 75* 3726 (0 I I ) 1 P CA70 38.00 57.02
|
||
7065 HE I JL_E BE- . 26.50* 19.75* 1 Ml CA70 24.00 36.01
|
||
l PE BR 15. 50 11.72 11.55 8.74 l VV 1 28.60 42.92
|
||
1 0 7.95 11.72 5.92 8.74 3728 I I ) l ML CA70 14.00 20.99
|
||
(AR III) 1 F BR 25.20* 18.66* 3734 I 1 ML CA70 2.50 2.50 3.74 3.74
|
||
l PE BR 16.60 13.19 12.29 9.77 3750 l ML CA70 3.00 3.00 4.46 4.46
|
||
1 0 9.79 13. 19 7.25 9.77 3754 III l ML CA70 0.60 0.60 0.89 0.89
|
||
7236 ( AR IV ) l-P- Zt 6Q* . 1.91* 3759 III 1 ML CA70 0.80 0.8.0 1 - 19 1 -19
|
||
7263 (AR IV ) l F 0.70* 0. 3770 1 ML CA70 4.20 4.20 5 6.20 .20
|
||
7281 HE I 1 F 2. 30* 1. 68* 3797 1 ML CA70 5.20 5.20 7.59 .59
|
||
7319 . (0 II) JL JE BE_ 22.QQ* ■ -16. Q2*_ 3819- .1 ML CA7Q 1-70 1.7Q 2.46
|
||
2 PE 8R 48.80 35. 53 l P CA70 7.60 8.90 10.93 12.80
|
||
1 0 39.80 37.35 28.96 27.18 1 ML CA70 8.40 8.90 12.08 12.80
|
||
PTP 34.90 37.35 25. 39 27.18 JL VV 1 1Q.7Q 8.90 15.39 12.80
|
||
(0 II ) 1 F 20.60* 14.98* 1 P CA70 110.00 107.50 156.05 152.50
|
||
2 PE BR 48.80 35.49 1 ML CA70 105.00 107.50 148.95 152.50
|
||
1 LAR 40.00* 29.09* __3 VV 1 71.40 101.29
|
||
(AR III) 1 27.20* 19.04* 3888 HE I 2 P CA70 23.50 33.07
|
||
1 3.20 2.24 2 ML CA70 22.70 31.94
|
||
-S39LZ . H I L_ 6.1Q* 4.08* 3889 H I 2 P CA70 23.50 33.06
|
||
8413 1 AHX 8.20* 5.47* 2 ML CA70 22.70 31.94
|
||
8446 1 AHX 32.40* 21.57* 3 VV 1 71.40 100.45
|
||
R46 7 1 AHX 12.80* -. g.gi* 3 VV 1 71.40 100-45
|
||
8502 1 AHX 13.60* 9.02* (NE III) 2 P CA7C 43. 10 59.00
|
||
8545 l AHX 14.20* 9.39* 1 ML CA70 31.00 42.44
|
||
,8598 1 AHX 16.70* -11.Ql* 2 42.90 58.72
|
||
8665 21.30* 13.98* 2 P CA70 43. 10 58.95
|
||
2. 14 1.40 1 ML CA70 15.00 20. 52
|
||
8750 22.10* 14.44* 2 VV 1 42.90 58.67
|
||
1 0 2.40 2.40 1.57 1.57 4009 HE I 1 ML CA70 0.44 0. 59
|
||
8863 l 0 3. 32 3.32 2. 15 2.15 4023 HE II 2 ML CA70 2.80 3.76
|
||
9015 g_ 2. 34 2.34 1.51 -N51 ^026 HE I 2 ML CA7C 2.80 3.75
|
||
3.90* 2.50* 1 VV l 21.40 21.40 28.69 28.69
|
||
25.70 16.49 4068 (S II ) l ML CA70 1.40 1.40 1.85 1.85
|
||
9229 «PKT_ 7.10 ,A_ 4.52 A 4076 S JJ 1 ML CA7Q 0.60 7.45 Q.79 9.8Q
|
||
0.12* 0.08* 1 VV 1 14.30 18.81
|
||
5. 75 3.66 2 P CA70 25.20 32.88
|
||
PTP 3.16 A 2.Q1 A 1 ml CA7Q 1. QQ l.QQ 1« 30 !.. 3Q-
|
||
9532 (S III) 1 PTP 81.00 A 50.74 A 1 C 25.00 32.57
|
||
9532 H I 2 LAP 1.00* 0.63* 2 P CA70 25.20 32. 83
|
||
_9 53.3_ _LS LULL J KPKT 79.-¿Q 79.5Q 49.7.8 49.78 HL CA7Q 26. QQ 33. 8.7
|
||
2 76.00 47. 59 l VV 1 25.00 25.33 32.57 33.01
|
||
9539 2 76.00 47.59 4121 HE I 1 ML CA70 0.70 0.70 0.91 0.91
|
||
_9546_ _LS III) 2 . i -nn» 0.63» 4143 HF I 1 MI CATO 1.20 1.20 1.54 1 .54
|
||
L KPKT 12.00 11.40 7.35 6.98 4199 HE II 1 ML CA70 0.30 0.30 0.38 0.38
|
||
l LAR 0.27* 0. 17* 4227 (FE V l ml CA70 1.00 1.00 1.24 1.24
|
||
_J 0 10.BU 1 1 .40 6.61 6.98 4267 C LL 1 ML CA7Q 1.50 1.50 1.84 1 .84
|
||
8.90 A 5.45 A 1 C 40.00 47.92
|
||
(S I I ) l 3.47 2. 13 2 P CA70 42.70 A 51.16 A
|
||
418 (PK NO. 215-24 1) IC 1747 (PK NO. 130+
|
||
|
||
600
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
If 1747 IPK NQ. Mn+ 1 n. ¿M3 (PK ttQ. 161-14.1)
|
||
WAVE IDENT N RG REF OBS I AVE □ CORR I AVE C WAVE IDENT N RG REF OBS I AVE Q CORR I AVE C
|
||
^340 _b I 1 HL CA7Q 47. OQ 43.5Q 56.31 52.1L- 3428 _Q LU— J AC2Q- -5U3Q- -5.00- 5..QQ- 5.00...
|
||
VV 35.70 42.77 34^4 l A 28.00 24. 83 28.00 24.83
|
||
(0 III ) l C 12.00 11.85 14.26 1 B A 30.00 24.83 30.00- 24.83
|
||
P CA 42.70 A 50.76 A _J AC7Q- ..16.50.- 24.83 . 16.50 24.83
|
||
1 ML CA70 11.70 13.91 14.09 3676 AC 70 .30 0.30 0.30 0.30
|
||
2 VV 1 35.70 42.44 3679 AC7 0 0.50 0.50 0.50 0.50
|
||
4387 HE I 1 ML CA7Q 1.50— 1.50- 1.77- 1.77- 3682 AC 70. 0.70. -Q^Z.0- . Qa-1Q- Q-LZQ-.
|
||
HE I C 7.00 9.15 8.04 10.51 3686 H I l AC70 1.10 1.10 l. 10 1.10
|
||
CA70 11.30 9.15 12.97 10.51 3691 H I l AC 70 1.60 1.60 1.60 1.60
|
||
1 ML CA7Q 6.50 A 7.46 A -3692- _t! I_ _l AC7Q- . 2.IQ. 2.IQ -2.-LQ - 2.1Q
|
||
VV 1 17.90X 20.55X 3703 I AC70 2.00 2.00
|
||
C 2.00 1.35 2.24 1.51 3705 HE I 2 AC 70 2.00 2.00
|
||
1 ML CA70_ 0.70 1.35 Q-i-Tâ- 1.51 3711 1 AC7 0 2. 20 -2=^0-
|
||
4634 III 1 ML CA70 0.42 0.46 3721 2 AC70 3.50 3. 50
|
||
4637 III 2 C 6.00 6.50 3721 (S ITT) 2 AC 70 3.50 3.50
|
||
4632- _C LL l ML CA7 0 6. 00 6.5Q- 3722. (0 II) J-A A -42.00- 42.00
|
||
4640 III 1.90 1.90 2.05 2.05 50.00 50.00
|
||
4647 C III l ML CA70 1.20 1.20 1.29 1.29 AC 70 28.00 28. 00
|
||
4685 HF II -2i
|
||
Ifl.QQ- 25.32 32_ •_L5— 76.95 w i. ■ 19.6QX. 19.6QX
|
||
1 P CA70 21.00 22.35 26.95 3734 l AC 7 C 2.90 2.90 2.90 2.90
|
||
1 ML CA70 23.00 25.32 24.47 26.95 3740 HE II 1 AC70 0.25 0.25 0.25 0.25
|
||
1 VV 1 25.32 .82- 26.95— 3750 -tí I _1—A A_ . 5..QQ . 4.35 5.QQ . 4.35..
|
||
(AR IV I 2 5.00 5.27 I AC 70 3. 70 4.35 3. 70 4.35
|
||
2 ML CA70 3.20 3.37 3754 III L AC70 0.70 0.70 0.70 0.70
|
||
4712 _2- 5.27- 3759 -LLL _1 ACJQ - ■ 5.30 - 5.50 . 5.50. 5.50-
|
||
2 ML CA70 3.20 3.37 3 77C H I 1 AC70 4. 50 4.50 4. 50 4.50
|
||
4725 lNE IV ) I ML CA70 0.88 0.92 3781 HF II l AC7 0 0.30 0.30 0. 30 0.30
|
||
4740 CAR I V—L J C 4.00 4.17- 3791. _D III- _1 AC7Q 0. BO - Q.-8Q . 0. 80 0.80
|
||
ML CA70 2.50 3.25 2.61 3.39 L A A 4. 80 5.35 4. 80 5.35
|
||
C 100.00 ICO.00 100.00 100.00 I AC70 5.90 5.35 5.90 5.35
|
||
P r.A70 100.QQ_ 1Qn.QQ- 100.00- i100.00 no.on -J AC 70 -1.-30 - -1.-3 0 - _30 ,
|
||
1 ML CA70 100.00 100.00 100.00 I A A 8.10 8.00 8.10 8.00
|
||
l 0D63 100.00 100.00 100.00 100.00 I AC70 7.90 8.00 7.90 8.00
|
||
1 VV 1- 100.00- 100.00- 100.00- -1 AC 70 . - 0. 36 -0.36 - Q. 36 Q.-36 -
|
||
1 c 3.00 3.55 2.95 3.49 3858 HE I I 1 AC70 0.60 0.60 0.60 0.60
|
||
l ML CA70 4. 10 3.55 4.03 3.49 3868 (NE I II 1 1 A A 90.00 78.40 90.00 78.40
|
||
_XQ 1 1 LI 1 P C.A70- 386.00- 378.43 375.08- 367.72- 75.00 XB.AQ . -75 ^LQ - 78.40
|
||
I ML CA70 385.00 374.11 367.72 AC7 0 70.20 70. 20
|
||
1 VV 1 364.30 378.43 353.99 367.72 1 VV 1 84.30X 84.30X
|
||
--Í-0 I-M-L 1 p CA70- 1106.00- 1314.57- 1C59—3a_ 1259.17- —1—A A 20.00 20.-00
|
||
1 ML CA70 1150.00 1314.57 1101.53 1259.17 1 B
|
||
2 AC70
|
||
20. 00
|
||
14.20
|
||
20.00
|
||
14. 20
|
||
1 1288.00 1314.57 1642.04
|
||
0063 1714.30- 1233.71 1259.17
|
||
VV 1 1314.57- 1259.17- _2 VV- I 21.60X -2 1.60 X
|
||
5015 HF I R AW70 0.43 0.43 0.41 0.41 3888 2 AC 70 14. 20 14.20
|
||
5411 HF II A AW70 0.59 1.48 0.50 1.25 2 VV 1 2l.60 X 21.60X
|
||
B AW7 0- . Q^ßX- 1.48.. Q. 71— 1.25- 3967-. ( ME.. LU-L -2-3 A
|
||
1 C 3.00 2.54 1.25 2 B 42.00 42.00
|
||
(CL III» I IA AE2 1.05* 0.86* l AC70 21.CO 21.00
|
||
I A AW30- 0. 53 0.43— -2 VV. 1 51.POX 51.Û0X-
|
||
8 AW70 0.56 0.46 39o7 2 A 50.00 50.00
|
||
(CL III) IA AE2 1.00* 0. 82* 2 B 42.00 42.00
|
||
A AW70- _fU32 0.67 _] 1 5.00 1 5.00
|
||
B AW70 0.47 0.64 0.38 0.53 VV 1 51.OOX 51.OOX
|
||
5592 0 III A AW70 0.26 0.26 0.21 0.21 4009 HE I AC 70 0.30 0.30 0.30 0.30
|
||
5754. -LN II J- A AW70— Q1.65 « 60— 1-12 0. 46— Q.az_ 4026 HF I 2.80 2.80 2.80 -2.au
|
||
B AW70 1.12 1.27 0.87 AC70 2.70 2. 70
|
||
5802 C IV C 18.00 18.00 13.69 13.69 4026 HF I I AC70 2.70 2.70
|
||
5875 HE I A AW70 12.40 28.45 9.26 21.26 4068 ( S II) A 2.50 2.50
|
||
B AW70 15.40 28.45 11.51 21.26 AC70 2. 30 2.30
|
||
C 36.00 28.45 26.90 21.26 A 2.50 2.50
|
||
VV 1 50.00 28«45_ 37.36- 21.26 . . A C 7 0 3.40 A 3.40 A
|
||
6300 (0 I VV 32. 10 32.10 21.62 21.62 VV 1 II.80X 1I.80X
|
||
6548 (N II) c 36.00 36.00 23.03 23.03 4097 N III AC70 1.70 1.70 1.70
|
||
6563 H T _c_ 450.00- 450.00 ¿87.QQ- 287.00 -A1.Q1 . -Ü I to.on 30. on ? 8.3 3
|
||
389.30 248.28 30.00 28.33 30.00 28.33
|
||
II ) VV 389.30 248.28 AC70 25.00 28.33 25.00 28.33
|
||
6584 - tT 1 _C_ 91.00 57.77 vv i 31.40 X 31.4QX .
|
||
6717 l IP AE2 0. 53* 0. 33* 4120 HF I AC 70 0. 50 0. 50 0. 50 0.50
|
||
1 2 AE2 0.64* 0.40* 4143 HF I AC70 0.45 0.45 0.45 0.45
|
||
671£ __LS II—L 1 IB AE2 1« QQ*_ 0.62-*-- 4186 _C LU— . AC7Q -fl.55 -0.55. 0.55 -Q-.55—
|
||
l 2 AE2 1.00* 4199 HF I I l AC70 1.50 1.50 1.50 1.50
|
||
4267 C II 1 AC7 0 1.30 1.3 0 1.30 1.30
|
||
REGION KEY {REGIQNiFEFERENCEtEXPLANATIDN.) . n gr.TTc- 4340. __H I 1 -A A 50.00 54.00 50.00 54.00
|
||
1A, AE2 . PA=0 DEG.» 4 ARCSEC FROM STAR — A,B ON DIF. SCALES 62.00 54.00 62.00 54.00
|
||
2t AE2 « PA= 0 DEG., 0 ARCSEC FROM STAR 50.00 54.00 50.00 54.00
|
||
A-H7ÍU- PIMP PF ? 1 DBFS -52. 9-OX , 52« 9jCLX _
|
||
B, AW70, OTHER LOBE A 12.00 l 0.35 12.00 10.35
|
||
ML, CA70, MEAN LOBES AC 70 8.70 10.35 8. 70 10.35
|
||
P. CA70. PHOTQFLFf-TRI C SCAN OF WHOLE NEBULA VV 1 - . 90 X
|
||
4379 N III AC 70 0.40 0.40 0.40 0.40
|
||
IC 1747 (PK NO. 130+ 1 1) 4387 HF l AC 70 0.80 0.80 0.80 0.80
|
||
4471 HF I __A 3.70 3.55 -3W.Q -L.-8L5
|
||
1 AC70 4.00 4.00
|
||
1 VV 1 11.80X 11.80X
|
||
BFGIN ir ?003 (PK NO. 161-14 1» C = Q±S)—I HYDROGEN L INE.S) -L. A A 4.30 4. 30
|
||
1 3.50 3.50
|
||
WAVE AVE O CORR I AVE C 2 A 3.40 3.40
|
||
3133 __Q LU 1—A— A 85.QQ 85^.00- 85.QQ
|
||
B 5* 00- 21.00 _1 -L.2Û- -L.Zfl
|
||
27.00 27. 00 21.00 1 C AW70 1.00 1.00
|
||
AC70 15.00 21.00 15.00 21.00 2 A A 3.40 3.40
|
||
3299 _Q LLL AC70 4.30 4.3 Q - 4. 30_ .«-30 . _J AC 72 - 3-. QQ .3.00
|
||
III 1 8.40 7.30 8.40 7. l C AW70 2.50 2.75 2. 50 2.75
|
||
l AC7 0 6.20 7.30 6.20 7. 4647 1 AC70 1.70 l. 70 1.70 1.70
|
||
3340 _C LU 2L_ A AC 70 IQ. 70 10.7Q- 13.50 10.-7Q- 1(Ll7Q- 4649 AW70 1.40
|
||
A 13.50 4650 0 III 2 C AW70 1.40 1.40
|
||
2 B A 15.60 15.60 4657 ( FE III) 3 C AW70 0.83 0. 83
|
||
3346 —LU 2—A A_ 13.50 13.5Q -4657, CFE II ). 2 AC 7 0 0.80 Q.BQ
|
||
2 15.60 15.60 4658 III C AW70 0.83 0.83
|
||
2 A A 7.00 7.00 4658 IV AC 7 0 0.80 0.80
|
||
__2__B A— .10- .10- 4661 r Aw7n n. R8
|
||
7.00 7.00 4673 D II AC70 0.60 0.60 0.60 0.60
|
||
7. 7. 10 4676 0 II AC 70 0.0 0.0 0.0 0.0
|
||
IC 2003 (PK NO. 161-14 II IC 2003 (PK NO. 161-14 1)
|
||
|
||
601
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
_LC 2QÛ3 (PK Nn« 16L-1A II _LC 2149 (PK NQ. 166»1Q 11
|
||
WAVE IDENT N RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
4685 -iJF II A.C7Q 5Q.Q0 5Q.QQ 5Q.QQ 5Q.QQ 3671.Qp_H \ _L K Q.91X um*
|
||
I A A 56.00 65.50 56.00 65.50 3673.00 H I 0.79 X 1.08X
|
||
1 B A 75.00 65.50 75.00 65.50 3676.00 H I 0.76X 1.03X
|
||
-J VV I . 6Q.aQ-X 6Q. 8QX_ 3679.00 H 1 1.24X 1.69X
|
||
1 A A 4.90 4.90 3682.00 H I 1.39X 1.89X
|
||
2 ACTO 7.80 7.80 3686.00 H I 1.96X 2.66X
|
||
_2 C—AW7Q_ 6.30 . 6.30 3691.00 H I 1.81X 2.46X
|
||
4713 HE I 2 AC7 0 7.80 7.80 3697.00 H I 1. 52 X 2.06X
|
||
2 C AW70 6.30 6.30 3703.00 H I 2.71X 3.67X
|
||
4 72.5 (NE IV ) 1 AC 70 0.70 0.70 3705.00 HE I 1.28X 1.73 X
|
||
1 C AW70 0.50 0.50 3711.00 H I 3.06X 4.13X
|
||
(AR IV ) 1 A A 4.40 4.40 5.47 3721.00 H I 3.50X 4. 71 X
|
||
.1 A.C7.Q._ 6.50. -6.50 5.47 3721.00 (S III 1 3.50X 4.71 X
|
||
l C AW70 5.50 £.47 5.50 5.47 1 A 110.00 147.86
|
||
l A A 100.00 LOO.00 100.00 100.00 1 ACP 68.30 91.81
|
||
1 B A 100. 00 100.00 100.00 100.00 1 AH 1.00* 1.34*
|
||
i AC70 100.00 100.00 100.00 100.00 47.40X 63.71X
|
||
1 0063 100.00 100.00 100.00 100.00 LA 98.00 131.73
|
||
1 VV 1 100.oox 100.oox 0 73.50 98.80
|
||
4922 HE I l C AW70 0.68 0.68 0.68 0.68 1 OS 1.00* 1.34*
|
||
4931 (0 III) 1 C AW70 0.46 0.46 0.46 0.46 1 VV 2 96.70X 129.98X
|
||
4944 -( FE vii l i C AW7Q Q.28 0.28 -0.28 0.28 3729 (0 II) A áH 0.28» 1.05»
|
||
400.00 346.67 400.00 346.67 l 29.OOX 38.95X
|
||
300.00 346.67 300.00 346.67 l OS 0.60* 0.81*
|
||
-AC7Q.- 340.00 346.67 MO . QQ 346.67 3734.00 H I _Ji K 3 .-43 X_ 4.87X
|
||
I VV l 529. 40X 529.40X 3750 H I 7.30 7.30 9.75 9.75
|
||
4972 (FE VI ) 1 C AW70 0. 32 0.32 0.32 0.32 4. 18 X 5.58X
|
||
5006 (o im _L_£ A 1360.00 1082.50 1360.00 1082.50 3770 H I 9.00 9.00 11.95 . 11^.95 ..
|
||
1 B A 980.00 1082.50 980.00 1082.50 5. 34X 7.09X
|
||
l AC 70 990.00 1082.50 990.00 1082.50 9.20 12. 13
|
||
_1 0063 1000.00 1082.5Q 1000.00 1082.50 5.57X 7.34X
|
||
l VV 1 1764.70X 1764.70 X 1 0 3.54 6.37 4.67
|
||
5015 HE I L C AW70 0.85 0.85 0.85 0.85 1 VV 2 4.30XA 5.67XA
|
||
5047 -HE I JL C AW7Q Q. 30 0. 30 0.30 0.30 -3jB 1 9 . OjQ HF I 1.3.3 X 1.74X
|
||
5191 (AR III) l SB AW70 0.22 0.22 0.22 0.22 A 12.00 7.78 15.64 10.14
|
||
5198 (NI ) l SB AW70 0.35 •0.3 5 0.35 0.35 ACP 5.32 7.78 6.93 10.14
|
||
5.2 Q.Q _LN I L 1 Sß-_AH7Q Q. 30 0.3 0 _ Q.30 - 0.30 6.13 X 7.99X
|
||
5292 l C AW70 0.50 0.50 0.50 6.03 7.78 7.86
|
||
5323 (CL TV ) 1 C AW70 0. 17 0.13 0. 17 8. 30X 10.82X
|
||
1 SR AU70 0. 09 ■ 0^1 3 -0.09- 3856.00 ST I T 0. 21 X —0.2XX
|
||
l WB AW70 0.14 0.13 0.14 0.13 1 A 24.00 23.47 30.97 30.28
|
||
5335 l SB AW70 0. 11 0.11 0. 11 0.11 1 ACP 22.40 23.47 28.91 30.28
|
||
5346 _J C AW70 0-4? - 0^-36 _ 0.42 _ 0.36 -A K 19.70 X 25.42X
|
||
L SB AW70 0.44 0.36 0.44 0.36 2 LA 50. 70 65.43
|
||
l WB AW70 0.22 0.36 0.22 0.36 1 0 24.00 30.97
|
||
—HE II _I C AW7Q 6.00 17-77 -6.00 17.77 _J VV 2 - 3. OOX 3.87X
|
||
L SB AW70 5.90 17.77 5.90 17.77 15.00 19.24
|
||
1 WB AW70 6.30 17.77 6. 30 17.77 14.30 18.34
|
||
_1 VV 1 52.9a —l-X^-7 7 52.90 17.77 1 5-.-IPX 70.14X
|
||
1 A AE2 0.82* 0.82* LA 50.70 65.02
|
||
1 C AW70 0. 86 0.80 0. 86 0.80 0 14. 80 18.98
|
||
1 SB AW70 1 -08 0-80 1-08 0-80 23.-30X 29.88X
|
||
1 WB AW70 0.47 0.47 14.30 18.34
|
||
i A AE2 1.00* 1.00* 15.70X 20.14X
|
||
1 SR AW70 1.30 0.8 5 - 1.30— 0.85 14.BQ 18-9«
|
||
1 WB AW70 0.40 0.85 0.40 0.85 23.30X 29.88X
|
||
5592 1 C AW70 0.23 0.3 3 0.23 0.33 3926.00 HE I 0.20X 0.25X
|
||
1 SB AW70 0.34 0.33 0.34 0.33 3964.00 HF I 0. 89X 1.12X
|
||
1 WB AW70 0.43 0.33 0.43 0.33 3967 (NE III) 23.00 28.92
|
||
l C AW70 0.51 11.45 0.51 11.45 ACP 18.40 23. 13
|
||
1 SB AW70 1.80 11.45 - 1.80... 11-45 _K_ 5.54X 6. 97X
|
||
1 WB AW70 0.40 11.45 0.40 11.45 2 LA 22.40 28. 16
|
||
l VV 1 43.10 11.45 43. 10 11.45 2 VV 2 36.70X 46.14X
|
||
—HE -IJ 1 SB -AH7.Q— 0-45 CL-49 0.45 0^ .3367 _tí I_ _2 Â 23.QQ 28.9J-
|
||
l WB AW70 0.53 0.49 0. 53 0.49 18.40 23. 13
|
||
1 C AW 70 2.50 1.33 2.50 1 .33 L2.20X 15.34X
|
||
1 SB AW7Q.. 0.98 1.33 0.98 1 *33 22.40 28.16
|
||
l WB AW70 0.51 1.33 0.51 1.33 2 17.80 22.38
|
||
l C AW70 1.60 0.82 1.60 0.82 2 36.70X 46.14X
|
||
1 SB AW70 0.48 —O-j-92 0.48 0.82 (NE III) _2 □_ 17.8Q 7?.36
|
||
l WB AW70 0.37 0.82 0.37 0.82 4026 HE I 1 VV 2 9. 70X 12.01X
|
||
1 C AW70 10.,90 21.77 10.90 21.77 4097 N II! 2 ACP 20.80 25.25
|
||
1 SB AW70 15.00 21.77 15.00 21.17 4101 H I _1 A_ 30.QQ 23.3Q 36.38
|
||
1 WB AW70 6.60 21.77 6.60 21.77 ACP 20.80 25.22
|
||
1 VV 1 54.60 21.77 54.60 21.77 1 LA 25. 70 23.30 31.16 28.25
|
||
1 VV 1 13.7Q 13.7Q 13- 70 13.7Q 1 *173 18.90 23.30 22.92 28.25
|
||
6563 H I 2 VV 1 313.70 313.70 1 0 le. 60 23.30 22.56 28.25
|
||
6563 (N II) 2 W 1 313.70 313.70 1 VV 2 46.70 X 56.63X
|
||
6717 _LS II 1 1 8 AE2 0.56* 0.56* 4340 H I_ _l fi- 52.00 42.72 59.32 4A.74 -
|
||
( S 11)1 R AE2 ACP 39.60 45.17
|
||
AN 49.30X 56.24X
|
||
PEGICN KEY (REGION.REFERENCE.EXPLANATION) LA 63.80 72.78
|
||
REGION A I HI 73 44. 10 42.72 50.31 48.74
|
||
REGION R l 0 34. 80 42.72 39. 70 48.74
|
||
AE? ♦ REGIONS A AND B CN DIFFERENT SCALES ORF 40.00 -A2t?2_ 45.63 48.74
|
||
C, AW70» CENTER l VV 2 60.OOX 68.44X
|
||
SB, AW70, STRONG BLCB (0 III) L A 6.00 6.81
|
||
WP, AW70, WEAK BLOB OPPOSITE REGION SB _2 à£P 39-J-6Q 44.92
|
||
1 AN 3. 70X 4.20X
|
||
IC 2003 (PK NO. 161-14 l) 1 BDO 100.00* 113.43*
|
||
_2 LA 63.80 72.37
|
||
0 3.72 4.22 5.51
|
||
VV 2 5.70XA 6.47XA
|
||
■ N IC 2149 (PK NO, 166+ IQ 1) C = 0.43 (HYDROGEN LINES) -A.47L- HE.-L- 7.60 _5.40 5.98
|
||
1 ACP 4.34 4.80
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C 1 AN 7. OOX 7.74X
|
||
3587,00 hlE I _J K 0.55X Q.77X _1 Lfi 17.50X 19.35 X
|
||
3599.00 HE 0. 99 X 1.37 X l 0 4. 27 4.72
|
||
3613.00 HE I 1.17X l. 62 X l VV 2 6.30X 6.97X
|
||
3634.00 HF T Q.95X 1. 31X —4-645 III _2 VV 2 4.Q0XA 4.23.XA
|
||
3667.00 0.42X 0.57X 4645 N III VV 2 4.OOXA 4. 23XA
|
||
3669.00 0. 48 X 0. 65 X 4686 HE II VV 2 2.OOX 2.09X
|
||
If 2149 (PK NO. 166+10 1) IC 2149 (PK NO. 166+10 1)
|
||
|
||
602
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
IC 2149 (PK NO. 166*10 1> _LC 2165 (PK N(1. ??1-1? 1)
|
||
WAVE TDENT N RG REF OBS I AVE Q CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
4961 __b I _L_ IQQ.-Qfl- IQQ.Qa. 1QQ.QQ 100.00 3444 0 III LA_ 57.50 108.59
|
||
1 ACP 100.00 100.00 3448 HE I KCA 0.44 0.44 0.83 0.83
|
||
l AN 100.oox 100.oox 3554.40 HE ! KC A 0.40 0.40 0.72 0.72
|
||
_J CPPA_ 100.00 100.00 1QQ.0Q 3560 O IV KCA 0.40 0.4Q 0.7? 0.72
|
||
l LA 100.00 100.00 100.00 100.00 3587.30 HE I KCA 0.25 0.25 0.44 0.44
|
||
1 LA54 100.00 100.00 100.00 100.00 3634 HE I KCA 0.47 0.47 0.81 0.81
|
||
1 HI 73 1QQ.QQ 1QQ.QQ- 1QQ.QQ 1QQ.Q0 3671 H I_ ..KCA Q,Q 0.0 _QjlQ_ Q.Q
|
||
1 100.00 100.00 100.00 100.00 3674 H I KCA 0.0 0.0 0.0 0.0
|
||
l ORF 100.00 100.00 100.00 100.00 3676 H I KCA 0.74 0.74 1.26 1.26
|
||
_J VV 2_ 100«oox. 100.oox 3679 H L_ KCA _0-t.9Q 0.90 U36. 1.36
|
||
(0 III ) l 140.00 162.74 137.10 159.37 3682 H I KCA 0.86 0.86 1.46 1.46
|
||
1 ACP 149.00 162.74 145.91 159.37 3686 H T KCA 0.99 0.99 1.68 1.68
|
||
L_ AN 190.OOX 186.06X -3691 tí I_ KCA 1.14 1.14 _U —1.93
|
||
1 CPDA 162.20 162.74 158.84 159.37 3697 KCA 1.46 1.46 2.46 2.
|
||
1 LA 162.00 162.74 158.64 159.37 3703 KCA 1.20 1.20 2.02 2.02
|
||
_1 LA54- 185.00 162.74 -1-8.U 1.7 159.37 3705 HE I KCA 1.27 -L.-2-7 ¿.13 2.13
|
||
l 0 166.00 162.74 162.56 159.37 3712.00 H I 1 KCA 1.80 3.01
|
||
l ORF 175.00 162.74 171.37 159.37 3722.00 H I 2 KCA 2. 81 4.68
|
||
.3 VV 2_ 156.70X 153.45X 37?? (S Till 2 KCA 2.81 4.68
|
||
1 410.00 424.47 397.31 411.33 KCA 22.90 38. 10
|
||
1 ACP 437.00 424.47 423.48 411.33 31.30 52.07
|
||
_1 A£L_ 541.QQX 524.26X 44.50 74-.Q3
|
||
l BOO 123.00* 119.19* i VV5 34.00 56.56
|
||
1 CPDA 489.80 424.47 474.64 411.33 3729.00 (O II) 1 KCA 14.00 23. 26
|
||
_J LA- 408.00 424.47 395.37 411.33 3734.00 J KCA 2.53 -2.53
|
||
l LA54 355.00 424.47 344.01 411.33 1 KCA 3.03 .31 4.98 7.10
|
||
1 ORF 447.00 424.47 433.17 411.33 1 A 5.60 4.31 9. 21 7.10
|
||
-J VV 2_ 599.90X 581.33X 3754.8Q Q ULL _J KCA 1.06 _1..Û.6 1^.74.
|
||
5411 HE I] 1 VV 2 2.30XA 2.04XA 3757.00 0 III 1 KCA 0.29 0.29 0.48 0.48
|
||
5554 (N II ) l VV 2 92.00 A 79.00 A 3759.90 0 III 1 KCA 3.89 3. 89 6.37 6.37
|
||
5876 HE I J □ 18.60 15.04 3771.00 H T J KCA 3.66
|
||
l ORF 18. 00 16.63 14.55 13.45 l A 4.00 3.83 6. 51 6.24
|
||
1 VV 2 13.30 16.63 10.75 13.45 3774.00 0 III 1 KCA 0.23 0.23 0.37 0.37
|
||
1 VV 2— —25— —2—2-5- -3782.40 HE.. 11 -2 KCA Q.?0 0.32
|
||
1 CAM 1.00* 0.72* 3782.40 <FE 2 KCA 0.20 0.32
|
||
l MI 73 375.00 384.67 270. 19 277.15 3791.40 0 1 KCA 0.19 0.19 0.31 0.31
|
||
I 0 37?.nn 3fl&.A7 2,68.03 277.15 ■ 3797.00 H -J KCA 4.9 7 -4.89 7.99 7.87
|
||
1 ORF 407.00 293.24 4. 80 4. 89 7. 72 7.87
|
||
2 VV 2 263.30 189.71 4.80 4.89 7.72 7.87
|
||
_1 W l.QQ* 0.7?» _5—flO
|
||
6563 <N I I ) 2 VV 2 263.30 189.71 3814.10 HE II 1 KCA 0.40
|
||
6583 (N II ) l CAM 0. 19* 0. 14* 3820.10 (FF V 2 KCA 1.70
|
||
j ore 60.00 43.09 -3820 HE—I -2 KCA. 1-07 L..1Q .
|
||
0.05* 0.04* 3827 l KCA 0.10 0.10 0.16 0.16
|
||
6717 (S II ) 0.57* 0.40* 3833.00 HE II 1 KCA 0.38 0.3 8 0.60 0.60
|
||
6731 (-5 _LI L 1.00» 0.70» —3835.00 ti I —! KCA
|
||
7065 HE I 8.71 8.71 5.87 5.87 l A 5.30 6. 15 8.36 9.71
|
||
7136 (AR III) 15. 70 15.70 10.48 10.48 1 LA 8.00 6. 1 5 12.62 9.71
|
||
73?5 _LO II ) 1?. 30 12.30 8.0? 8UQ2 _LJ HA— 5.30 -6.15 8.36 -9-. 71
|
||
7751 (AR III 1 l 0 9.35 9.35 5.79 5.79 1 MW MA 5.50 6.15 8.68 9.71
|
||
9069 (S III ) 1 0 21.40 21.40 11.79 11.79 3858.60 HE II 1 KCA 0.32 0.32 0.50 0.50
|
||
9229 __ü I J 0— 9.55 . 9.55 5.2Q 5.2Q - 3868.00 ( NE—111.1 J KCA 79.60 94.02 123^46 145.84
|
||
9539 2 0 36.40 19.40 87.00 94.02 134.94 145.84
|
||
9539 ( S III I 2 0 36.40 19.40 LA 76. 50 94.02 118.65 145.84
|
||
100^9 _tí I J Q_ 16. 20 16.20 8.38 —3*38 VV5 133.00 94. Q? ?n*.?o 145.84
|
||
10829 148.00 148.00 73.38 73.38 3887.00 HE II KCA 0.0 0.0
|
||
10939 28. 80 28.80 14.19 14.19 3889 H I KCA 15. 70 24.09
|
||
18.00 27.62
|
||
IC 2149 (PK NO. 166+10 1) 24.80 38.06
|
||
18.00 27.62
|
||
? MW MA 14.10 ? 1.64
|
||
2 VV5 30.00 46. 03
|
||
BEGIN IC 2165 (PK NO. 221-12 1) C = 0.74 (RADIO-H BETA) HE I 2 KCA 15.70 24.09
|
||
—A 18.00 27^.62
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C 2 24. 80 38.06
|
||
3122.10 0 III I KCA 11.30 11.30 25. 13 25.13 2 L 18.00 27.62
|
||
-3132.00 0 III _1 KCA 98.80 93.40 218.71 -206^75 .2 MW MA 14.IQ 2L» 64
|
||
88.00 93.40 194.80 206.75 VV5 30.00 46. 03
|
||
3178 HE I . 10 8. 10 17.55 17.55 3923.90 HE II L KCA 0. 57 0.86 0.86
|
||
3203.00 HE ..I I 14.20 16.60 30.41 -33.55 3938 1 KCA 0.07 0.11 O.U
|
||
1 A 19.00 40.69 3945 l KCA 0.06 0.06 0.09 0.09
|
||
3234.00 S III 2 KCA • 0.62 1.30 3951 1 KCA 0.04 0. 04 0.06 0.06
|
||
3234.00 S III _2 KCA Q.62 1.30 3957.30 0 _0 KCA.. 3L.Q 0.0 0.0 Q.Q
|
||
3241 (NA IV ) 1 KCA 0.32 0.32 0.67 0.67 3964.00 HE I 1 KCA 0.47 0.47 0.70 0.70
|
||
3256 1 KCA 0.44 0.44 0. 0.91 3967.00 (NE III) 1 KCA 18.30 18.30 9 27. 14 27.14
|
||
.3266 Q LLL 2 Q.71. 1. _2 KCA A— 43.QQ ^ 63.77
|
||
3266 0 2 KCA 0.71 1.47 2 LA 38.70 57. 39
|
||
3294 1 KCA 0. 19 0. 19 0.39 0.39 2 VV5 54.50 80.82
|
||
-3.2.99 0 III _L KCA 3.Iß 5.29 6.45 IQ.73 3970.00 H I _l KCA 18« IQ 18.IQ 26.84
|
||
l A 7.40 5.29 15.02 10.73 43.00 63.77
|
||
1 KCA 6.91 8.30 13.93 16.74 38.70 57.39
|
||
_1 A— 9.7Q 8.3 Q 19. 55 -L6.74 41« QQ 63.77
|
||
3323 S III 2 KCA 0.28 0.56 2 VV5 54.50 80.82
|
||
3323 S III 2 KCA 0.28 0.56 3967 (NE III) 2 L MA 43.00‘ 63.77
|
||
■ 134Q Q III J KCA 8.87 8.8 7 17.63 —L7.63 3996.20 D IV KCA -Q..15 ... Qjl.
|
||
2 LA 19.00 37.75 3996 (F TV ) 2 KCA 0. 15 0.22
|
||
(NE V ) 1 KCA 17.90 35.48 4010.40 HE I 1 KCA 0.19 0. 19 0.28 0.28
|
||
2 A 22.00 A?.6P_. ■ ■4026.QQ HE—L KCA .74 ?-13 3*-96. 3.Q8
|
||
19.00 37.66 l 1.80 2.13 2.60 3.08
|
||
3346 22.00 43.58 1 L MA 1.80 2.13 2.60 3.08
|
||
3369 KCA Q.5.6. Q.56 1.10 *1Q 1 MW MA 2. ¿Q 2. 13 3*L8 ..3.Q8
|
||
3385 O IV 1 KCA 0.27 0.52 4046 1 KCA 0.11 0. 11 . 16 3.16
|
||
3407 0 III 2 KCA 0.65 1.25 4051 l KCA 0.12 0.12 0. 17 0.17
|
||
3407 0 III 2 KCA 0.65 1.25 4068 _I KCA 2.26 3.2Q
|
||
3416 0 III l KCA 1.80 1.80 3.44 3.44 4068 III KCA 2.26 3.20
|
||
342 5 (NE V ) 1 KCA 35.20 35.20 67.06 67.06 4068 I I ) KCA 2.26 3.20
|
||
2 6Q. QQ.. 114.30 4Q7Q _LI A KCA- .¿«.26
|
||
57.50 109.54 4070 KCA 2.26
|
||
3425 0 III 60.00 114.30 4070 KCA 2.26 3.20
|
||
34?9 Q -111 .70 -JU. 4070 KCA 2.2b 3. ?0
|
||
16.30 19.15 30.78 36.16 4072 (S II ) 2.00 2.00 2.83 2.83
|
||
22.00 19.15 41.55 36.16 4076 (S II ) 2.00 2.05 2. 82 2.89
|
||
IC 2165 (PK NO. 221-12 1» IC 2165 (PK NO. 221-12 1)
|
||
603
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
_LC 1165 (Pk; nq. 1) _LC ¿165 (PK NQ. 221-12- 1)
|
||
WAVE IDENT N RG REF GBS I AVE 0 CORR AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
4Q76. (S II ) L. MW >1A. 2. IQ — 2« Q-5— 2.96 2.89 4724.00 (NE IV 1 AW70 1.55 1.65
|
||
4077 5 KCA 0.80 1.13 4725.00 (NE IV ) 1 KCA 0.48 0.51
|
||
4077 5 KCA 0.80 1.13 4741.10 (AR IV ) 1 KCA 5. 89 5.93 6.21 6.26
|
||
4Q7-L _5 KCA O.BQ . 13 J A 6.50 5.93- 6.85 -6.26
|
||
4077 0 11 5 KCA 0.80 1.13 .50 5.93 6.85 6.26
|
||
4077 ( s II 1 5 KCA 0.80 1.13 .60 5.93 4.85 6.26
|
||
4085 0.17
|
||
4097. 00 N III 1 KCA
|
||
KCA 0.12
|
||
1.51 -Q.12
|
||
1.51 2.11 0.17
|
||
2.11
|
||
1 L (1A_
|
||
l MW MA
|
||
.50
|
||
5. 60
|
||
5.93
|
||
5.93
|
||
6.85
|
||
5.
|
||
-6.26..
|
||
4101, 00 H I 1 KCA 23.80 25.22 33. 16 35.14 4816 1 KCA 0, 11 0.11 0. 0.11
|
||
1 A 26.50 25.22 36.93 li.t-14 4-861.00 d L_ _L K£A_ _LQÜ-i 00 100.00 10.0. 1QQ.QQ
|
||
l LA 20.50 25.22 28.57 35.14 100, 00 100. 00 100.00
|
||
1 L MA 26.00 25.22 36. 23 35.14 AN 100. 00 X 100, oox
|
||
1 MW MA 19.50 25.22 27.17_ 3J>g4 CPDA 100. m loo.oo 100 m lao.QQ
|
||
l VV5 35.00 25.22 48.77 35.14 l KA2 100. 100.00 100. 00 100.00
|
||
4103 III 1 KCA 0.43 0.43 0.60 0.60 1 LA 100. 100.00 100 00 100.00
|
||
412Q. AÛ Q_ . II _1 KCA 0.13 - 0.13 Û*. 0.18 _1_L 100. 100.00 100. m LQfl.QO.
|
||
4122. 10 HE I 1 KCA 0.27 0.27 0.37 0.37 1 VV5 100 00 100.
|
||
4129, 30 G II 1 KCA 0. 09 0.09 0.12 0.12 1 WYSE 100 .00 100. 00 A
|
||
4143. 90 HE I 1 KCA 0.45 - 0*45 0.61- 0.61 4893 (FF VIM -AWZ-Q- ,09- 0. 09 112 -Q.Q9
|
||
4156, 00 C III KCA 0.08 0. 11 4922.30 HE I KCA 0.77 0.76
|
||
4156, 00 0 II KCA 0.08 0.11 AW70 0.77 0.76
|
||
_4JL6JL 30 IK V 1 1. KCA.. 0.10 - 0.1Q n. 14 0-14 WYSE 4.00 A 3.91 A .
|
||
4169, 60 HE I 2 KCA 0.07 0.09 4930.10 (0 HT 1 1 KCA .33 0.30 0.30
|
||
4169, 60 O II 2 KCA 0.07 0.09 1 A W70 .28 0.30 0.30
|
||
4187. ¿O C III . KCA 0.36 - 0.36 .jjg'tL- 1 AH 7-Q_ Q.2Q— 0.20 _Q.12—
|
||
4200.00 HE II 1.22 1. 14 1.62 1.52 4944 (FE VII) 1 AW70 0. 10 0.10 0. 10 0.10
|
||
1.20 1.14 1.60 1.52 4959.00 (0 III) 1 KCA 395. 00 470.76 381. 02 454.10
|
||
1.00 1.14 1.33 1.5? 530. 470.76 5.11 24 454 «1-0—
|
||
4200 HF I 1 L MA 1.20 1.20 1.60 1 .60 1 AN 508. OOX 490.0
|
||
4227, 80 (FE V I 1 KCA 0.26 0.26 0.34 0.34 l CPDA 538, 80 470.76 567.9 454.10
|
||
4267. Ml C T T J KCA 0.46 - 0.46 0.60 _1 LA —36Q. ÜO 470.76 347.2 454.10
|
||
4314 II KCA 0.06 0.06 0.08 0.08 1 VV5 480. 463. 454.10
|
||
4340 I KCA 28.40 38.84 35.62 48.72 1 WYSE 420. 405.
|
||
46.00 38.84 57.7.0- 48.7? 497? LFF Vl_i J A-WJLO— CU.
|
||
50.80X 63.72 X 4987 AW70 ,06 0.06 0. 06 0.06
|
||
30.30 38.84 38.01 48.72 4992 A W7 0 0 ,40 0.40 0. 38 0.38
|
||
46.00 -38.84 57.70 48.72 5007.00 (D MI) KCA 1 IRQ -00 1 283.60 ■1.LL8- -00 1216.16
|
||
VV 5 43. 50 38.84 54.56 48.72 1 A 1280. 00 1283.60 1212. 75 1216.16
|
||
4363.00 ( n uni KCA 22.80 17.97 28.32 22.32 1 CPDA 1698. 00 1283.60 1608. 79 1216.16
|
||
-17.97 22^32 _J LA JLL50. .00 1283.60 l-Q&SL 58 1-2-L6.1-6—
|
||
1 AN 22.60X 28.07X 1 VV5 1110. 00 1283.60 1051, 68 1216.16
|
||
1 LA 8.20 17.97 10. 19 22.32 1 WYSE 1360. 00 A 1288. 54 A
|
||
_1 L MA_ 21.00 17.97 26.08 22.32 _J A. hi 70 .18 CUi8_ Û. JJk 0.74
|
||
1 MW MA 15.80 17.97 19.63 22.32 5047 l A W7 0 . 10 0.10 0.09
|
||
1 VV5 19.00 17.97 23.60 22.32 5131 1 A W70 .26 0.26 0.23
|
||
_J KCA CL. 1 0 0. Lfl._ 0.1?. 0.1? -5-145 —A.W70- 0« ?4 .21
|
||
4379. 70 C III 2 KCA 0.12 0. 15 5151 1 AW70 , 06 0.06 0.05
|
||
4379. 70 MG I 2 KCA 0.12 0. 15 5158 1 AW70 , 16 0.16 0.14
|
||
43P7-, SP HP T _2 *r a -0.75 0.9? 5161 -J A.W7Q -06 0-06 0.04
|
||
43P7. III 2 KCA 0. 75 0. 92 5176 (FE VI ) 1 A W7 0 . 15 0. 15 0. 1 0.13
|
||
4396. II 1 KCA 0. 14 0.14 0. 17 0.17 5191 (AR III) l A W7 0 .22 0.22 0. 1 0.19
|
||
4448 —LI J KCA. 0. 06 D. 06 0.07 0.07 _jLN I L J AU70
|
||
4452 0 II 1 KCA 0.07 0.07 0.08 0.08 5270 (EE III) AW70 0.08 0.07
|
||
4471. 50 HE I l KCA 4.70 3.68 5.59 4.38 5277 (FE VII) AW70 0.08 0.07
|
||
_L .40 - 3.68 4. 04 ...4-.,38 5304 AW70 0.09 0.08
|
||
1 KA2 2.50 3.68 2.97 4.38 5309 (CA V ) AW70 0.2 0 0.17
|
||
l L MA 3.40 3.68 4. 04 4.38 5323 (CL IV ) AW70 0.12 0.10
|
||
1 MW MA 4.40 3.68 5. 23 4.38 5335 (FE VI ) AW70 0.13 0.11
|
||
4541.60 HE II l KCA 2.56 2.06 2.95 2.38 5342 AW70 0.05 0.04
|
||
1 A 1.80 2.06 2.08 2.38 5346 AW70 .13 0.13 0.11
|
||
_JLJ M.4 1.80 2.06 2.08. 2.38 5387 —MYSE .00 A
|
||
l MW MA 2. 10 2.06 2.42 2.38 5402 1 WYSE
|
||
4563 l KCA 0.08 0. 08 0.09 0.09 5411 l AW7C 7.2 5 5.88
|
||
4570. ¿0 MG L— 1 KCA 0.58 . 0.58 0.66 0.66 1 MW MA 7.25 -5.88-
|
||
4575 1 KCA 0. 18 0. 20 1 WYSE 00 A 05 A
|
||
4608, 80 0 II 2 KCA 0.29 0. 32 5423 (EE VI ) 1 AW 70 09 A 07 A
|
||
4608. 8Q íFE III) _2 KCA (L.29 0. 3? -5-494 . (FE VI ) A A W7Q 12 A 09 A
|
||
1.65 1.82 (CL III) l A AE2 80* 62*
|
||
4. 70 5. 20 1 AW70 62 48
|
||
-1.7Q —5-537_ i CL-LLU I A -AE2 00* 77*
|
||
2 LA 5.70 6.30 l AW70 64
|
||
4640.60 N III 1 KCA 3.'46 3.82 (0 I ) 1 WYSE 00 A 63 A
|
||
_2 M .70 5,18. 5592 Q— JLY J AW7Q -L3 JD
|
||
A W70 3. 70 3.84 4.08 4.24 5754 ( N II) 1 A W70 30 1.30 0.9 0.94
|
||
1 L MA 4. 70 3.84 5. 18 4.24 5801 C IV 1 AW70 65 0.65 0.4 0.46
|
||
1 MW MA 3.50 3.84 3,86 4.24 5806 HE II 1 AW7Q 05 .A .0^0
|
||
4649 a I IT 3 A W7 0 0.92 L. 01 5872 C IV l AW70 0. 0.48 0.33
|
||
4649 C TI 3 AW7C 0.92 1.01 5875 HE 1 l A W7 0 17. 17.45 12.11
|
||
4649. C III 2 KCA 0.75 0.82 1 MW jjA _ 17. AO— 17.A5 -J12.11-
|
||
AW70 0.92 1.01 WYSE 20. 13.8
|
||
2 LA 5.70 6.26 6018 1 WYSE 3. 1.9
|
||
4649.2Q Q U_ 2 KCA 0.75 0.82 6085 1 MW MA Li 1.80 1. 1 1.17-
|
||
4658.80 C IV 2 KCA 0. 58 0.63 6161 l WYSE
|
||
1 A W70 0.62 0.68 6178 1 WYSE 00 A
|
||
4659.8Ç (PE HU 2 KCA 0.58 0.63 6300 _JLQ I L 1 MW MA 40
|
||
4686.00 - HE I I 41.00 46.68 44. 32 50.46 1 WYSE .00 A 7.40 4.2
|
||
4.51
|
||
60.00 46.68 64. 86 50.46 6311 ( S III) l WYSE .00 A 3.0
|
||
49.OOX 52.97X 6363 (0 J L 1 WYSE .00 A 2,4
|
||
38.00 46.68 41.08 50.46 6364 0 MW MA 3. 1.8
|
||
46. 40 46.68 50. 16 50.46 6548 (N II ) 1 WYSE 50. 28. 5
|
||
48.QQ -46.68 51.89 50.46 6563 2 VV5 310. 176. 3
|
||
7.63 8. 15 1 WYSE 470. 267
|
||
7.20 7.69 6563 II ) 2 VV5 310. 176.
|
||
AW7Q .¿Q 7.69 6594 ID A MYSE 1QQ, 56. 56 A
|
||
2 LA 5.90 6.30 6678 HE I 1 MW MA ,40 54
|
||
1 L MA 7.20 6.90 7.69 7.37 6713 ( S II) 2 MW MA ,30 10
|
||
1 MW MA 6.60 6.90 ,-Q5_ 7.37 6717 (S II) 1 B AE2 .60* 33*
|
||
KCA 7.63 8. 15 1 B AE2 .00*
|
||
2 A 7.20 7.69 2 MW MA .30
|
||
2 AW70 -X.20 7.69
|
||
LA 5.90 6.30 REGION KEY (REG ION,REFERFNCE,EX PLANATI ON)
|
||
4724.00 (NE IV ) 1 KCA 0.67 0.71 A, AE2 , REGIONS A AND B ON DIFFERENT SCALES
|
||
IC 2165 (PK NO. 221-12 1) IC 2165 (PK NO. 221-12 1)
|
||
604
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
_LC 2165 tPK NQ. 221-12 1L. rr I PK NCI. 1 7^ + 34 i \
|
||
L, M& LICK OBSERVATIONS WAVE N RG REF OBS I AVE 0 CORR I AVE C
|
||
MW, WA MOUNT WILSON OBSERVATIONS 3829 I LAC D _I.^2 1*42 L»59 .
|
||
1 A 6.20 7.40 6.93 8.27
|
||
IC 2165 (PK NO. 221-12 1) 1 LACD 8.60 7.40 9.61 8.27
|
||
_i vv 2_ 6.70 X . 7.V?X
|
||
1 66. CO 65.30 73.44 72.66
|
||
1 KA2 54.00 65.30 60. 72.66
|
||
-RfÇIN IC 2V48 (PK NO. 285-14 1) QtPe (RAPIQ-H BETA) 1 LACD 75.90 9^45 72jA6
|
||
96.70XA 107.60XA
|
||
WAVE IDENT N RG REF CORR I 22.00 24.41
|
||
3727 AE. *22- LACD 22.00 24.41
|
||
3868 (NE III) l AF 106.00 111.15 2 VV 2 40.00 XA 44.39XA
|
||
3970 (NE III) 2 AF 37.00 38.60 2 LACD 22.00 24.41
|
||
3970 F* — I 2_ _Af_ 37.00 . ..38» 6.Q-. _2 VV 2 AQa.QQXA— ^.39XA
|
||
4101 l 24.00 24.00 24.88 24.88 3964 HE I 1 LACD 1.66 1.66 1.83 1.83
|
||
4340 H I I AF 42.00 42.00 43.04 43.04 3967 (NE III) 2 A 30.00 33.02
|
||
4363 _Lc im i .AF 14«QQ 14.QQ- 14. 33 14.33 J LACD_ 38. 70 -38.70 42.59 4Z..5.9
|
||
4471 HE I 1 AF 4.00 4.00 4.08 4.08 2 VV 2 46.70X 51.40X
|
||
4686 HF II 1 AF 33.00 37.30 33.28 37.61 2 A 30. 00 33.02
|
||
_L_ WB 41.60 _3.7. 3Q_ 41.95 37.61 _2 yy_2_ 46.7QX -5-1.4QX
|
||
4712 (AR IV ) 2 AF 5.80 5.8 3970 (NE III) LACD 38. 70 38.70 42.58 42.58
|
||
4740 (AR IV ) 2 AF 5.80 5. 83 4009 HE I LACD 0.37 0.37 0.41 0.41
|
||
-4.861 AF 100*00 ..,100.00 . IQOtOO IQOtOO 4026 HE I ..,5.60 4,16 (¿.±12
|
||
1 100.00 100.00 100.00 100.00 1 LACD 2.72 2.97
|
||
4959 (0 11 I ) 1 390.00 390.00 388.48 388.48 l VV 2 8.70 X 9.51 X
|
||
5QQ7 _LQ IIP 1 1210.QQ 1205.00 1202.94 1197.97 .4058- 0 LACD 0-25 . .0.27
|
||
1200.00 1205.00 1193.00 1197.97 ( S II ) 2 A 3.90 4.24
|
||
1 LACD 0.44 0.48
|
||
-END _1C 2445 (PK NO. 285-14 1L. .AOJ 6— _US LI L 2 ■ A>90 4.24
|
||
LACD 0.10 0.10 0. 11 0.11
|
||
4097 N III LACD 1.00 1.00 1.08 1.08
|
||
4101 H I A 25.00 —24.83 ¿7. IQ 26.92
|
||
BEGIN IC 2501 (PK NO. 280 -51) C = 0.55 (RADIO-H BETA) l LACD 25.00 24.83 27. 10 26.92
|
||
1 PTP 24. 50 24.83 26. 56 26.92
|
||
IDENT N RG RFF AVF C _J VV 2 39.3QX 42 « 60 X
|
||
4861 H I l WB 100.00 100.00 100.00 100.00 4120 HE I l LACD 0.50 0.50 0.54 0.54
|
||
5007 (0 I II ) 1 WB 850.00 850.00 816.50 816.50 4143 HE I l LACD 0. 35 0.35 0.38 0.38
|
||
4162 _Q LAC CL 0-25 0.25 0.27 0.27
|
||
IC 2501 (PK NO. 280 -5 1) 42.00 44.38 42.06
|
||
44.20X 46.70X
|
||
37.20 39.31
|
||
1 MA62 36. 30 39.80 38. 36 42.06
|
||
BEGIN IC 2553 *( PK NO. 285 -5 1) C = 0.23 (RADIO-H BETA) 1 PTP 43.70 39.80 46.18 42.06
|
||
-J VV 2_ . .5 0. 70X
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 1 A 8.80 9.28 11.07
|
||
4861 H I l WB 100.00 l 00.00 100.00 100.00 l AN 17.30 X 18.24X
|
||
5007 ca -U- i ) i m— 1320.-00 1320.oa 1297. 99 1297.99 -l LACD— 13.80 -14-.55
|
||
l PTP 8.91 10.50 9. 39
|
||
IC 2553 (PK NO. 285 -5 1) 1 VV 2 18.OOX 18.97X
|
||
1 Am.-. a.Afl 0.72
|
||
1 A 4. 30 4.49
|
||
1 AN 14.OOX 14.60X
|
||
BEGIN TO 2621 ( PK NO. 291 -4 1) C g 0.0 (NO CAI Cl II. AT I ON ) _J KA7 4.50 4.69
|
||
l LACD 6.80 7.09
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C l VV 2 13.30X 13.87X
|
||
6563 jd i i hf^7 i. not 1 .OOtA -I LAUD- L.Û8 LULL-
|
||
6584 (N II ) 1 HE67 0.50*A 4640 N III LACD 1.08 1.08 1.11 l.ll
|
||
4659 LACD 0.41 0.41 0.42 0.42
|
||
END IC 2621 (PK NO. 291 -4 1) 4685 HF II LACD 1.20 1.20 1.22 1.22
|
||
VV 2 13.30X 13.55X
|
||
4711 (AR IV ) LACD 2.21 2.21 2.25 2.25
|
||
471 3 HE I LACD.. 0.45 Q. 45 Q.46 Q.46
|
||
BEGIN IC 3568 (PK NO. 123+34 1) 0.18 (RADIO-H BETA) 4740 (AR TV ) KA2 3.90 3.00 3.95 3.04
|
||
LACD 2.11 3.00 2. 14 3.04
|
||
IDENT N RG REF OBS I AVE O CORR I AVE C 4861 H I 100.00 100.00 100.00 100.00
|
||
3354 HE I 1 LACD 0.40 0.47 100.OOX 100.OOX
|
||
3443 NE II 2 LACD 1.10 1.28 l CPDA 100.00 1 CO.00 100.00 100.00
|
||
3443 _0 LU 2 LACD 1-10 1.28 1 KA2 100.00 100,00 100.00 100.00
|
||
3447 LACD 0. 30 0.30 0.35 0.35 l LACD 100.00 100.00 100.00 100.00
|
||
3604 LACD 0.20 0.20 0.23 0.23 1 MA62 100.00 100.00 100.00 100.00
|
||
3613 HE I 1 LACD 0.40 0.40 0.46 0.46 1 PTP 100.00 100.00 100.00 100.00
|
||
3634 l LACD 0. 50 0.5 0 0.57 0.57 VV 2 100.OOX 100.OOX
|
||
3663 1 LACD 0.50 0.50 0.57 0.57 4922 HE I LACD 1.46 1.46 1.45 l .45
|
||
3664 _1 LACD 0.50 0.50 0.57 0.57 4959 (0 III ) 500.00 385.30 495.64 381.94
|
||
3666 l LACD 0.50 0.50 0.57 0.57 1 AN 282.OOX 279.54X
|
||
3667 l LACD 0.50 0.50 0.57 0.57 1 CPDA 371.50 385.30 368.2b 381.94
|
||
3669 1 LACD 0. 70 0.70 0.80 0.80 _1 KA2 350.00 385.30 346.95 381.94
|
||
3671 l LACD 0.70 0.70 0.80 0.80 1 LACD 359.00 385.30 355.87 381.94
|
||
3673 1 LACD 0.60 0.60 0.68 0.68 1 DTP 346.00 385.30 342.98 381.94
|
||
3676 1 LACD 0.59 0.59 0.67 0.67 —1 VV. 2_ 253.30X 251.09X
|
||
3679 l LACD 0. 0.73 0.83 0.83 4972 73 1.28 1.28 1.27 1.27
|
||
3682 l LACD 0.82 0.82 0.93 0.93 5006 1400.00 1 171.75 1381. 84 1 156.55
|
||
3686 1 LACD 1. ,.10- -Ute 1,25 -13- 754.OOX
|
||
3691 1 LACD 1.09 1.09 1.24 1.24 l BE 1000.00* 987.03*
|
||
3697 1 LACD 1.35 1.35 1.53 1.53 1 CPDA 1148.00 1 171.75 1133.11 1 156.55
|
||
3703 1 LACD 1. 19 1.19 1.35 1.35 1 LACD 1069.00 1 171.75 1055.13 1 156.55
|
||
3705 HE I l LACD 1.19 1.19 1.35 1.35 PTP 1070.00 1056.12 11
|
||
3711 H I 1 LACD 1. 80 1.80 2.04 2.04 VV 2 800.OOX 789.62X
|
||
3721 _L§ LULL 2 LACD 2.72 3.08 5017- BE 2.05* 2.02*
|
||
3721 2 LACD 2.72 3.08 5191 (AR III) 1 AW70 0.30 0.30 0. 29 0.29
|
||
3726 1 A 9.50 10.75 5411 HE I I l VV 2 10. 00 10.00 9.50 9.50
|
||
_1 LACD 7.90 _ 3* 9.4 5517 (CL III) 1 A F2 1,00» 0.94*
|
||
l VV 2 U.30X 12.79X 5537 (CL III) l AE2 l. 00* 0.94*
|
||
3729 (0 II ) l LACD 4.00 4.53 5801 C IV 1 AW70 3.00 3.00 2.76 2.76
|
||
3734 __±L -I LACD 2 *.35 2*25- 2« 66 2.66 5812 C IV 1 A W70 1.80 1.80 1.65 1.65
|
||
3750 l LACD 3.40 3.40 3.84 .84 l A W70 14.00 17.30 12.81 15.83
|
||
3754 III 1 LACD 0.50 0.50 0.56 .56 1 MA62 18.60 17.30 17.02 15.83
|
||
3757 III 1 I ACD 0.84 0-84 0.95 0.95 _1 VV 2 -13.30 17.30 17.66 15.83
|
||
3 760 1 LACD 0.75 0.75 0.85 0.85 6300 l VV 2 10.70 10.70 9.48 9.48
|
||
3762 0 LACD .27 0.27 0.30 0.30 6563 1 MA62 338.00 338.00 294.66 294.66
|
||
3770 1 LACD .04 4.04- -4.55 4.55 _2 VV. 2_ 140.00 122.05
|
||
1 LACD 5.00 5.61 6563 (N II ) 2
|
||
1 VV 2 8.OOX 8,98 X
|
||
END (PK ND. 123+34 1)
|
||
IC 3568 (PK NO. 123+34 l)
|
||
605
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN IC 4121 (PK NQ. 3Q4 _4 11 C.. =._0«69„tffADIQ-H BETA) _LC 4593 (PK NQ. 25+40 I)
|
||
WAVE IDENT N PG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
_5l96,1.. H I I WB 1QQ.QQ 100.00 100.00 1Q0.2Q. 4471 Hg I _l A 6.40 6.30 6t^¿ 6.*?
|
||
5007 (O III» I WB 1550.00 1550.00 1473.75 1473.75 1 AN 7.00X 7.13X
|
||
1 PE CEBA 6.30 6.30 6.42 6.42
|
||
END IC 4191 (PK NQ. 304 -4 1) 1 PG CEBA 6.20 6.30 6.32 6.42
|
||
VV 2 15.50X 15.79X
|
||
4686 HE II 1 VV 2 11.50X 11.60X
|
||
-4861 H I 1 a LQ.Q-a.QO 100.00 100.00 100.00
|
||
BEGIN IC 4406 (PK NO. 319+15 1) 0.28 (RADIO-H BETA) 1 AN 100.OOX 100.OOX
|
||
1 PE CEBA 100.00 100.00 100.00 100.00
|
||
WA VfL . IDENT N RG REF QB.S—I AVE Q CORR- I AVE C 1 PG CEBA 100.00 00.00 100.00 100.00
|
||
3 72 7 <n Ti » i AF 650.00 787.91 1 CPDA 100.00 100.00 100.00 100.00
|
||
3868 (NE III) 1 AF 108.00 108.00 127.51 1 PER 100.00 100.00 100.00 100.00
|
||
3970 H I 2 32.00 37. 13 1 PTo 100.00 100.00 10-0.00 1QQ..-QQ
|
||
3970 (NE I II ) 2 AF 32.00 37. 13 l VV 2 100.OOX 100.OOX
|
||
4101 HI 1 AF 25.00 25.00 28'. 34 l A 180.00 179.31
|
||
4340 HI 2 AF 40 t QQ . 43t.58 —1 äh 150.QQX 149.42X
|
||
4363 (0 MI) 2 AF 40.00 43.42 1 PE CEBA 179.00 177.87 178.31 177.18
|
||
4471 HF I l AF 5.70 5.70 6. 09 6.09 l PG CEBA 179.00 177.87 178.31 177.18
|
||
4686 HE II 1 AF 5.00 5.00 5. 15 5.15 -J CPDA. 186.20 -177.87 185,48 177.18
|
||
4861 AF 100.00 100.00 100.00 100.00 PER 165.00 177.87 164.36 177.
|
||
4959 (0 I II ) l AF 320.00 320.00 315.67 315.67 PT P 178.00 177.87 177.31 177.18
|
||
5.007 - _LQ III) 1 1000.00 1QCQ.0Q 979.74 979.74 -VV 2 195. QQX -L94.25X
|
||
(0 III ) 1 780.00 567.22 775.45 563.91
|
||
IC 4406 (PK NC. 319+15 I) 1 PE CEBA 512.00 567.22 509.01 563.91
|
||
- 1 PG . C F fl A 512^00 567.2? 509.01
|
||
1 CPDA 562.30 567.22 559.02 563.91
|
||
1 PEP 487.00 567.22 484. 16 563.91
|
||
BEGIN IC 4593 (PK NQ. 25+40 1» C = 0.08 (RADIO-H BETA) _! BXP 550.00 -567.2? 546.79 563.91
|
||
i VV 2 700.OOX 695.92X
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 5411 HE I I i vv 2 9.00 8.80
|
||
3187 HE I 1 PG CEBA 3,30 2a59 3.39 5 517 ( a. i m J A AF? 0.60* 0.58*
|
||
3671 1 PG CEB 0.31 0.31 0. 33 0.33 5537 (CL III) 1 A*AE2 1.00* 0.97*
|
||
3673 1 PG CEBA 0.57 0.5 7 0. 60 0.60 5554 IN II ) 1 VV 2 8.50 8.50 8.26 8.26
|
||
-3-676- 1 PG CFRA Û .,5-3 0.5 3 0.56 -5876 ..ME. I 1 PG CEBA 14-.10 -26.70 .36 25.66
|
||
3679 l PG CEB 0.68 0.68 0. 72 0.72 1 PER 28. 00 26.70 26.91 25.66
|
||
3682 1 PG CEBA 0.77 0.77 0. 82 0.82 1 VV 2 33.00 26.70 31.72 25.66
|
||
3686 1 PG CF B A 1.10 -1.1-0- 1.16 _CAH —0.01 * 0.01*
|
||
3691 1 PG CEBA 1.15 1. 15 1.22 1.22 2 PG CEBA 4.70 4.45
|
||
3697 l PG CEBA 1.22 1.22 1. 29 1.29 l VV 2 19.00 18.01 18.01
|
||
8703 1 PG CEBA 1.35 .35- —1-.4 3 — 1.43 - ? PG CFBA —4. 70 —4.45
|
||
3705 HE I 1 PG CEBA 1.08 1.08 1. 14 1.14 6 548 II ) l PG CEBA 3.50 3.29
|
||
3711 H I 1 PG CEBA 2.14 2.14 2.26 2.26 6563 I 1 CAM 1.00* 0.94*
|
||
3721 ? PC CFRA 2.70 —?.. 85 - 1 PG CFBA 3Q6-aQQ 287.90
|
||
3721 ( S III) 2 PG CEBA 2.70 2.85 1 414.00 389.51
|
||
3726 (0 I I ) 1 A 59.00 62.34 2 155.00 145.83
|
||
1 AJJ-U —LN II)? 155.QQ 145.83
|
||
i PE CERA 78.20 82.62 1 CAM 0.06* 0.06*
|
||
l PG CEBA 46.00 48.60 1 PG CEBA 10.40 21.20 9.78 19.93
|
||
-4 UJ 1.50* U58* - -J &EB 32.00 -21.20 30.09 19.93
|
||
63.00 66.56 6678 HE I 1 PG CEBA 4.50 4.22
|
||
1.00* 1.06* 6717 (S II ) l B AE2 0.77* 0.72*
|
||
? PE f.FRA ^00 —2 . fll
|
||
l AUV 0.67* 0. 71* 1 PG CEBA 0.60 0.56
|
||
l PG CERA 32.00 33.80 1 B AE2 1.00* 0.94*
|
||
-1 LU- 1.00* 1.06* - ? PF CFBA 3-.Û0 -2.81
|
||
SO 0.65* 0.69* l PG CEBA 0.76 0.76 0.71 0.71
|
||
3734 1 PG CEBA 2. 82 2.82 2.98 2.98 7065 HE I l PG CERA 2.50 2.50 2.32 2.32
|
||
3750 1 PG CERA 3. 71 3. 71 3.92 3.92 7135 (AR III) 1 PG CERA 7.20 7.20 6.68 6.68
|
||
3770 l PG CERA 3.85 3.85 4.06 4.06 10830 HE I l PER 98.00 98.00 86.01 86.01
|
||
3797 l PG CEBA 4.20 4.20 4.42 4.42 10938 H I 1 PER 26.00 26.00 22. 79 22.79
|
||
_1 VV..-2_ t.QQXA 9t^7XA 10 MU (S IV » 1 GMS 50.00 50,00 41.59 ^1.59
|
||
3819 HF I l PG CEPA 1.56 1.56 1.64 1.64
|
||
3835 H I 1 PG CEBA 8.10 8. 10 8. 51 8.51 REGION KEY (REG ION,REFER ENCE,EX PLANATION)
|
||
_J VV 2 13.5QX 14. 18X A, AE2 , REGIONS A AND B CN DIFFERENT SCALES
|
||
i A 34.00 39. 80 35.65 41 .73 PE, CERA, PHOTOELECTRIC DATA
|
||
1 PE CEBA 60.20 39.80 63. 13 41.73 PG, CERA, PHOTOGRAPHIC DATA
|
||
1 PG .CEPA... ¿frtOQ 39.80 27.26 41.73
|
||
l PER 39.00 39.80 40.90 41.73 IC 4593 (PK NO. 25+40 1)
|
||
l VV 34.OOX 35.65X
|
||
_1 4 19.00 19.00 19.90 19.90
|
||
2 PG CEPA 2 5.60 26.81
|
||
2 VV 2 29.50XA 30.90XA BEGIN IC 4634 (PK NO. 0+12 1) C = 0.54 (RAOIO-H BETA)
|
||
—3889 HE I .2 PG—CE8-A— 25.60 26.81
|
||
2 29.50XA 30.90XA WAVE IDENT N RG REF OPS I CORR I
|
||
2 23.00 24.00 3727 (0 M ) 31.00 44.93
|
||
2 PE CEBA 27, 30 28.49 -ACP 33.20 48.12
|
||
1 PG CERA 8.70 9.08 LA 60.90 26
|
||
2 VV 2 35.50X 37.04X VV 1 13.20X 13X
|
||
23.00 24.00 .(-NLE III) _A— 60.QQ -6 3.-5-5 Ll5
|
||
2 PE CERA 27. 30 28.49 ACP 67.10 92. 87.54
|
||
1 PG CEBA 18.50 19. 30 LA 179.00 246.58
|
||
2 VV 2 35.50X 37.04 X -VV 1 66.30X 9L.33X
|
||
4026 HE I 1 PG CERA 3.30 3.43 20.00 27.
|
||
1 VV 2 9.OOX 9.36 X LA 179.00 244.66
|
||
4101 _H I— _11 PE CEBA A— 26^QQ 26.42 ¿ 6-, 95 27.39 -VV 1 13 « 70 X 16.73X
|
||
27.30 26.42 28.30 27.39 3889 HE I 2 VV 1 13.70X 18.
|
||
1 PG CERA 27.30 26.42 28.30 27.39 3967 (NE I II) 2 A 40.00 53.
|
||
1 PIP 25. 10 26.42 26. 02 27.39 2 ACP 31 » 20 _41a.
|
||
35.OOX 36.28X 70.50 93. 99
|
||
50. 00 51.24 52.90X 70, 52 X
|
||
41.80X 42.84X 3967 __fc! I_ 40.00 -Si. 22
|
||
1 PE CEBA 47.20 47.00 48. 37 8.17 2 ACP 31.20 41.
|
||
1 PG CEBA 47.20 47.00 48.37 8.17 2 LA 70.50 93.
|
||
1 PER 53.OOX 54.31X _2 VV- 52.6QX 70.11X
|
||
PTP 43.60 44.68 4026 HE I 1 VV 1 28.90X 37. 79X
|
||
VV 2 65.OOX 66.61X 4076 S II 1 VV 1 12.60XA 16. 19XA
|
||
4363 _LQ III ) -1 2.83X 2.9QX 4097 _N LU 2 ACE ¿4.20
|
||
i PG CEBA 2.90 2.57 2.97 2.63 1 A 23.00 29. 30 35.03
|
||
1 PTP 2.24 2.57 2.29 2.63 2 ACP 24.20 30. 83
|
||
I VV ? 6.QQX 6. I4X _1 LA 32.00 40.77 35.Q3
|
||
4378 1 PG CEBA 0.60 0.6 0 0.61 0.61 33.70X • 93X
|
||
4387 1 PG CEBA 1.00 1.00 1.02 l .02 39.00 .01
|
||
IC 4593 (PK NO. 25 + 40 1) IC 4634 (PK NO.
|
||
|
||
606
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
_I£ 4634 <PK ND. 0-H2 11.. IT 4647 (PK NO« 334 -9 1)
|
||
WAVE IOENT N RG REF OBS Ï CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
. 434Q _ti I -J2. AGP 66.5Q 78.46 4861 H. I 1 AWR I00.QQ 1QP.0Q 100.00 1 QQ...Q0
|
||
2 LA 43.30 51.09 WB 100.00 ICO.00 100.00 100.00
|
||
1 W 1 63.20X 74.57 X (0 III! AF 200.00 177.50 198.83 176.47
|
||
4363 _JL0 LLLL J 0_ ^20 5.2 0— 6.09 6.09 AWR -155*00 177.50 154 ,.10 176.47
|
||
2 ACP 66.50 77.90 600.00 533.33 594.76 528.68
|
||
2 LA 43.30 50.72 AWR 450.00 533.33 446.07 528.68
|
||
4471 HE I _1 A_ 4.60 5.22 WB 550.00 533.33 545,20 528.68
|
||
VV 1 33.20X 37.67X
|
||
4645 III 2 VV 1 0.50XA 0.54XA IC 4642 (PK NO. 334 -9 1)
|
||
4645 XL _2 VV I n.5QXA Q-54XA
|
||
4686 HE II l VV 1 24.20X 25.61X
|
||
4861 H I 1 A 100.00 1 00.00 . 100.00 100.00
|
||
_X AC P 100.00 IQOtOQ- 100.00 100.00 BEGIN IC 4673 (PK NO. 0.63 (RADIO—H BETA!
|
||
COAL 100.00 100.00 100.00 100.00
|
||
LA 100.00 100.00 100.00 100.00 WAVE IOENT N RG REF OBS I CORR I
|
||
1 VV 1 IQQ^OQX- 100.oox 5QQ7 _LQ III ) 1 VV3 17.QÜ* 16.23*
|
||
l A 280.00 308.17 272.73 300.18
|
||
1 ACP 316.00 308.17 307.80 300.18
|
||
1 C OAI 346.70 308.17— —337.70 300.18 —LG 4673 (PK NO.
|
||
l LA 290.00 282.47 300.18
|
||
l VV 1 268.40X 261.43X
|
||
5007 _LQ LLLL X 0_ 780.00 911.00- 749.81 -8-75.74
|
||
ACP 917.00 911.00 881.50 875.74 BEGIN IC 4732 (PK NO. 10 -6 1) 0.64 (RADIO-H BETA!
|
||
l COAL 1047.00 911.00 1006.47 875.74
|
||
—1 LA goo.no 9ii.no 865.16 875.74 N RG RFF
|
||
1 VV 1 678.90X 652.62X 3727 (0 II ) 1 16.00 24. 84
|
||
5411 HE II l VV 1 13.20X L1.32X 3835 H 1 l 9.10 9.10 13.49 13.49
|
||
. 5517 (CL III) 1 a AE2 1*03* 0.86*- 3868 (NF III 1 1 ioo-nn 1 00.00 146.17 146.17
|
||
5537 (CL III I 1 A AE2 1.00* 0.83* 18.80 27.48
|
||
5754 (N II) 1 VV l 14.20 14.20 11. 18 16.00 23. 17
|
||
5876 HE I 1 W 1 12.60 12» 6.Q_ 9.65 1 8. 80 27.23
|
||
6300 (0 I ) 1 VV 1 89.50 62.33 (NE III) 2 34.00 47.81
|
||
6563 H I 2 VV l 500.00 331.27 2 VV5 58.00 81. 55
|
||
6563 _LN I I ) 2 VV 1 500.00 331.27 3967 ti I 2 A 34. QO 47. 80
|
||
6717 II ) B AE2 0.47* 0.30* 2 58.00 81.54
|
||
6730 II ) B AE2 1.00* 0.64* 4101 I 1 23.00 23.00 30.63 30.63
|
||
_434Q_ _i I_ 43.00 -43.00 -52.31 52.31
|
||
REGION KEY (REG ION,REFER ENCE,EXPLANA!ION) 2 54.10 65.81
|
||
A, AE2 , REGIONS A AND B ON DIFFERENT SCALES 2 30.00 36. 50
|
||
-LQ Ml! 1 —24—00 2a>-9S
|
||
IC 4634 (PK NO. 0+12 1) 54.10 65.26
|
||
30. CO 36. 19
|
||
9. 10 10.-57
|
||
100.00 100.00 100.00 100.00
|
||
BEGIN IC 4642 (RK NO. 334 -91) C = 0.12 (RADIO-H BETA) LA 100.00 100.00 100.00 100.00
|
||
■Qn63- i no.no ino.on i on.on i no-fin
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C VV 3 100.00 XA 100.00 XA
|
||
3132 P III 1 AWR 57.50 57.50 65.40 65.40 VV 5 100.00 100.00 100.00 100 .00
|
||
-3203 HE- I I -J AWR 70.00 -74.20 _L0 III) 1 A -4X0. QO 381.33 455.58 3*9.63
|
||
3312 0 III 1 AWR 11.00 12.32 LA 280.CO 271.41
|
||
3340 (NE V ) 2 AF 55.00 61.48 VV 3 870.OOX 843.30X
|
||
-3X40 0 MI 2 AT 55.00 VV 5 —3-9.4. 00 381.91
|
||
1 AWR 13.00 13.00 14.53 14.53 (0 I I I ) l LA 1030.00 l 294.33 982.92 l 235.17
|
||
3345 (NE V 1 AWR 67.00 67. 00 1Rfl.7^
|
||
74. 86 74.86 1 0D63 1413.00 1 294.33 1348.41 1 235.17
|
||
3425 (NE V _2 AJE 170.QQ- 1900.OOX 1813. 15X
|
||
AWR 143.00 143.00 158.75 158.75 1 VV 5 1440.00 1374. 18
|
||
3428 0 III AWR 4.50 4.50 4. 99 4.99 6563 I 2 VV5 415.00 254.78
|
||
3440 0 III AF 170.00 188.52 6563 II ) 2 515.00 316. 17
|
||
3444 0 III AWR 16.30 16.30 18.07 13.07 VV 5 415.CO 254.78
|
||
3703 H I AWR 2.80 2.80 3.05 3.05 VV 3 515.00 316.02
|
||
—2212— __H I AWR 3. QO 2*120— 3.26 3.26
|
||
3 721 H I l AWR 4. 00 4.35 IC 4732 (PK NO. 10 -6 1)
|
||
3726 (0 II) 1 AWR 4.40 4.78
|
||
—3.728 _LQ I I ) 1 AWR 4-50 4.89
|
||
3734 1 AWR 3. 40 3.40 3.69 3.69
|
||
3750 1 AWR 3.80 3.80 4. 12 4.12 BEGIN IC 4776 (PK NO. 0.04 (RADIO-H BETA)
|
||
3754 _1 AWR 4. 90 4.90 5.31 5.31
|
||
3759 0 III AWR .80 4.80 5.20 5.20 WAVE IDENT N RG REF OBS I CORR I AVE
|
||
3770 H I AWR 6.50 6.50 7.03 7.03 3187 HF I l AKI 1.60* 1.67*
|
||
3797 _H I AWR 7.80 7.80 8.42 8.42 3614 HF I __L AKI 0.30* 0.31*
|
||
3835 1 AWR 13.50 13.50 14. 54 14.54 3634 HE I l AKI 0.60* 0.62*
|
||
3868 CNE III) l AF 6.7.00 61.50 71.94 66.04 3671 H T l AKI 0.70* 0. 72*
|
||
-I AHR 56. QQ 61.50 60. 13 -66.Q4 3673 _y L— _L AKI 0.7Û* Q. 72*
|
||
3889 2 AWR 16.40 17.58 3676 L AKI 1.00* 1.03*
|
||
3889 HE I 2 AWR 16.40 17.58 3679 1 AKI 1.00* 1.03*
|
||
3967 (NE III) 1 AWR 11,OO- ll.00 11.73 -11.73 3682 _1 AKI 1. 10» 1.13*
|
||
2 AF 29.00 30.91 3686 l AKI 1.23*
|
||
1 AWR 18.00 19. 18 3691 L AKI 1.30* 1.34*
|
||
3970 (NE MI) 2 AF 29.00 3Q.91 —3697_ -X AKI 1.50» «-5.4.*
|
||
4026 HE II L AWR 2.90 2.90 3.08 3.08 3704 HE I AKI 2.10* 2.16*
|
||
4068 (S II ) 1 AWR 2. 30 2.30 2.43 2.43 3704 H I AKI 2. 10* 2.16*
|
||
41Q1 H I 1 A£ 41.00 38.50 43.27 40.63 3712 _Ü I— AKI 2 . QQ* 2.06*
|
||
AWR 36.00 38.50 37.99 40.63 3722 2 AKI 3.50* 3.60*
|
||
4199 HE II AWR 3.60 3.60 3.77 3.77 3722 ( S III) 2 AKI 3.50* 3.60*
|
||
4267 C II AWR 1.80 1.80 1.88 1.38 3726 _LQ II X X AKI 22.00* 22.61*
|
||
AF 47.00 49.00 48.76 50.83 1 EV II.CO A 11.31 A
|
||
AWR 55.00 49.00 57.06 50.83 (0 II) l AKI 11.50* 11.82*
|
||
WB 45..QQ— 49.00 46.68 50.83 X EX- 3.00 A -3t.QS_A.
|
||
AF 23.00 16.67 23.82 17.26 3734 1 AK I 2.40* 2.47*
|
||
AWR 16.00 16.67 16. 57 17.26 3750 1 AKI 3. 50* 3.60*
|
||
11.00 16.67 11.39 17.26 3771 AKI 4. 30* 4.41*
|
||
4541 HE I I 5.40 5.40 5.53 5.53 3797 1 AKI 5. 30* 5. 44*
|
||
4685 HF II 142.00 112.50 143.81 113.93 3819 HF I 1 AKI 1.50* I. 54*
|
||
AWR .112.QQ 112.5Q 113.42 113.93 3835 __H I— _L AKI 6.90* 7.Q7*
|
||
1 WB 83.50 112.50 84.56 3889 I 2 AKI 13.00* 13.30*
|
||
2 AF 22.70 22.95 3889 HE I 2 AKI 13.00* 13.30*
|
||
1 AWR 15.00 15.00 —15.16 . 15.16 -396.7_ INE MIX J AKX . 18.QQ* 18. 39*
|
||
4724 (NE IV ) 1 AWR 3.80 3.84 3970 AKI 14.00* 14. 30*
|
||
4725 (NE IV ) 1 AWR 3.80 3.84 3979 EV 0.90 A 0.92 A
|
||
474Q (AR IV ) 2 22.70- -22.90 AE
|
||
12.00 12.00 12.10 12.10 3868 (NE I I I » EV 16.00 A 16.38 A
|
||
100.00 100.00 100.00 100.00 3888 H I EV 6.00 A 6. 14 A
|
||
IC 4642 (PK NO. 334 -9 1) IC 4776 (PK NC.
|
||
607
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
IC 4776 (PK NO. 2-13 1) _1£ 4846 (PK NO.
|
||
WAVE IDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3888 HE I 2 EV 6.00 A 6_. 14 4 3967 _2 VV5
|
||
5-5l»..QQ 55.00..
|
||
3967 (NE III 1 I EV 10.00 A 10. 22 A 4009 HE I l PG AKI 0.20 0.20 0.20 0.20
|
||
3970 H I 1 EV 9.00 A 9. 19 A 4026 HE I 1 A 4.30 3.25 4.30 3.25
|
||
4026 HE I 1 AKT 0.20* Q- 20* I PG AKI 2.20 3.25 2.20 .3*25.
|
||
l EV 0.70 A ,71 4068 ( S II ) 2 A 4.70 4.70
|
||
(S II ) l AKI 0.30* ,31* 1 PG AKI 1.40 1.40
|
||
1 EV 1.00 A ,02 A 4076 (S II ) 2 4.70 4.70
|
||
( S II) 1 AKI 1.00* .02* 1 PG AKI 0.60 0.60 0.60 0.60
|
||
l EV 0.30 A .31 A 1 A27.00 25.60 27.00 25.60
|
||
LLL 1 AKI 0.20* .20* -1 PG AKI 24.20 25.6Q 24.20 25.60
|
||
l AKI 17.30* 17. 61* 4121 HE I 1 PG AKI 0.50 0.50 0.50 0.50
|
||
l EV 21.00 A 21. 38 A 4144 HE I l PG AKI 0.50 0.50 0.50 0.50
|
||
4121 HE . !... AK.l 0.30» CL. 11* 43-4.0... _H I_ -l 49.00 _£lL 11_ _42.
|
||
4- 47.33 .
|
||
4143 HE I AKI 0.40* 41* PG AKI 46.00 47.33 46.00 47.33
|
||
4227 ( FE AKI 0.20* 20* 1 47.00
|
||
VV 5 47.33 47.00 47.33
|
||
4340 _J EV_ 14.00 A 17 A 43.6.3-.. _U3 LULL J 1.4«_Q.Q_. 12.77
|
||
0_ 14.00- 12.77
|
||
(0 III) AKI 5.70* 77* 1 PG AKI 7.70 12.77 7.70 12.77
|
||
1 EV 9.00 A 11 A 1 VV5
|
||
16.60 12.77 16.60 12.77
|
||
HE II 1 AKI 0.60» ill* 4387 -JL..PG. , AKI_ ■ 10- 1.10 .10 L.1Q,-
|
||
4387 HE I l EV 0.20 A 4471 HE I 9.40 7.55 9.40 7.55
|
||
4471 HE I 1 AKI 4.60* 64* PG AKI 5.70 7.55 5.70 7.55
|
||
_J BL_ 4.00 A 08 A 4650 r. in PG AKT 0.30 0. 30
|
||
4571 MG I AKI 0.20* 20* 4650 2 PG AKI 0.30 0.30
|
||
4640 N III AKI 0.20* 20* 4658 1 PG AKI 0.20 0.20 0.20
|
||
4650 _£ LLL _2 AKI 0.30* 30». 4686 1 PG AKT 0.60 0.60 0. 60
|
||
4650 AKI 0.30* . 30* 4711 (AR IV ) 2 PG AKI 2.00 2.00
|
||
4658 l AKI 6.70* .73* 4713 HE I 2 PG AKI 2.00 2.00
|
||
_J EV Q.. 50. A 4740 (. Afi .IV) 1 PG AKI 1.60. l . 60
|
||
2 AKI 0. 70* 100.00 100.00 100.00 100.00
|
||
2 EV 0.30 A l PE AKI 100.00 100.00 100.00 100.00
|
||
2 AKT 0.70* -1. PG AKI 10Q..QQ- 100.00 1QQ.QQ 1Q0.QQ
|
||
0.30 A 30 A 1 100.00 100.00 100.00
|
||
0D63 100.00
|
||
AKI 0. 50* 50* 1 VV5
|
||
100.00 1 00.00 100.00 100.00
|
||
EV - Q . -Q A_ 4 A Q.O 1 PG AKI 1.90 1.90
|
||
4861 l EV 100.00 A 100. 00 A 1 360.00 373.50 360.00
|
||
A 373.50
|
||
4881 (FE III) l AKI 0.40* 0. 40* 1 PE AKI 424.00 373.50 424.00 373.50
|
||
4921 HF I _1 AKI 1 . 20* 1 PG AKI 280.00 3 73.5,0 . 280.00 373.50
|
||
l EV 0.40 A 430.00 373.50 430.00 373.50
|
||
4958 ( P Ill) 1 EV 240.00 A 239 970.00 1176. 75 970.00 1176.75
|
||
5006 ...(O.. III) J EV_ 640.00 A 638 1089.00 l.Ca.9^00-
|
||
5015 HE I 1 EV 1.00 A l. I 0063 1238.00 1176.75 1288.00 1176.75
|
||
5754 IN II) 1 EV 1.00 A 0. l VV5 1360.00 1176.75 1360.00 1176.75
|
||
5-8.75 . HE .1 J EV- 77.00 A 75. -J A AE2 Q.54Jfe- 0.54*
|
||
6242 0.0 A 0.0 0 A 0.0 5537 (CL III) l A AE2 1.00* 1.00*
|
||
6253 0.0 A 0.0 0 A 0.0 5876 HP I 1 VV5 174.OOX 174.OOX
|
||
6300 -LD I— 6.QQ A 84 A 6563 _LN LL -L -2 VV.5- 604.00 604.00
|
||
6312 (S III) 1 EV 3.50 A 6563 I VV5 604.00 604.00
|
||
6363 (P I ) 1 EV 1.00 A 6717 (S II ) B AE2 0.58* 0.58*
|
||
J EV- 37.QO A 35.90 A.. . _ 6X30— -LS II ) B AE2 1.00* 1.00*
|
||
6562 H I 767. 00 A 743.
|
||
6583 (N II) 156.00 A 151. 27 A REGION KEY (REG I ON,REFERENCE,EXPLANAT ION)
|
||
6618. HE I 41.00 A 32. 71 A A. AF2 . REGIONS A AND B ON DIFFERENT SCALES
|
||
6716 ( S 11 ) 5.00 A AKI PHOTOELECTRIC OBSERVATIONS
|
||
6730 (s 11 ) 15.00 A AKI PHOTOGRAPHIC OBSERVATIONS
|
||
IC 4776 (PK NO. IC 4846 (PK NO. 27-9 l)
|
||
|
||
BEGIN IC 4846 (PK NO. 27 -91) C = 0.0 (HYDROGEN LINES) BEGIN IC 4997 (PK NO. C = 0.52 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDF NT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3187 HF l l PG AKI 3.00 3.00 3.00 3.00 3 186. 29 HE I l AK2 0. 82 0.82 1.41 1.41
|
||
3614 HE I 1...ELG A-K.1- 0.40 0.40 0.40 Q.40 _32 Q2, 40 NE II _) K-A 0.05 Q.05 Q. Q9...
|
||
3634 HF I 1 PG AKI 0.40 0.40 0.40 0.40 3216. II 0.05 0.05 0.08 0.08
|
||
3676 H I 1 PG AKI 0.70 0.70 0. 70 0.70 32 32. III 0.03 0.03 0.05 0.05
|
||
36.79- H I 1 PG AKI. 0.80 0.80 0.80 0.80 3236 0 » 05 0.05 0.08 0.08 .
|
||
3682 1 PG AKI 0.90 0. 0.90 0.90 3239. 10 0 III 9 0.05 0.08
|
||
3686 1 PG AKI 1.10 1.10 1.10 1.10 3239. 10 ( FE III) 0.05 0.08
|
||
3691 1 PG AKI It 10 1. IQ U1Q ItLQ 326.0« 70 0 III 0.02 0.03
|
||
3697 H T 1 PG AKI 1.40 1.40 3278, 70 si in 2 KA 0.04 0.07
|
||
3703 H I 2 PG AKI 1.90 1.90 3278, 70 K III 2 KA 0.04 0.07
|
||
3703 H£ _L_ 2 PG AKI !..92 1.9Q 3297, 20 HE I— J AK2 0.07 0.12
|
||
3712 I 1 PG AKI 1.70 1.70 3301. 47 O I I 0.04 0.04 0.07 0.07
|
||
3722 I 2 PG AKI 2. 50 2.50 3306, 10 0 II 0.04 0.04 0.07 0.07
|
||
3722_ -LS LLU ? PG AKI 2.50 -2* 3335. 02 NE II 0.03 0.03 0.05 0.05
|
||
(0 II) 1 A 40.00 40.00 3342 ,58 (NE III) AK2 0.43 0.43 0.70 0.70
|
||
1 PG AKI 18.00 18.00 3346 KA 0.03 0.03 0.05 0.05
|
||
(0 II ) 1 PG AKI 7.90 7.90 3354 AK2 0.09 0.09 0. 15 0.15
|
||
3734 l PG AKI l. 70 1.70 l. 70 1.70 3387. 19 S III 0.04 0.04 0.06 0.06
|
||
3750 1 A 4.90 3. 85 4.90 3.85 3399 0.03 0.03 0.05 0.05
|
||
1 PG AKI 2.80 3.85 2.80 3.85 3443. AK2 Ot 03 0.03 -Qt Q?... 0.05
|
||
4. 10 3.90 4. 10 3.90 3447. 54 HE I 1 AK2 0. 12 0.19
|
||
1 PG AKI 3.70 3.90 3.70 3.90 3451 09 0 III 2 AK2 0.02 0.03
|
||
379JL- _1 A— 7.50 6.00 7.50 6.00 3451. 09 HF I _2 AK2 Ot 02
|
||
l PG AKI 4. 50 6.00 4.50 6.00 3453. 00 HE I 1 AK2 0.03 0.03 0.05 0.05
|
||
3819 HF I 1 PG AKI 1.20 1.20 1.20 1.20 3456, 80 HF I 1 KA 0.03 0.03 0.05 0.05
|
||
3835 _jy i— 8.80 8.15 8.80 8.15 3460 _Q AK2 0.05 0.05 O.OB 0.08
|
||
7.50 8.15 7.50 8.15 3465, I 2 AK 2 0.05 0.08
|
||
(NE III) l 87.00 76.00 87.00 76.00 3465. III 2 A K2 0.05 0.08
|
||
1 PG.AKI. 65.00 76.00 65.00 76.00 3.±UL 30 0 III J AK2 0.05. 0.05 0» 08 0.08
|
||
62.00 62.00 3471 HE I l AK2 0.03 0.03 0.05 0.05
|
||
21.00 21.00 3478 ,79 HE I 1 AK2 0.04 0.04 0.06 0.06
|
||
1 6. 00 16. on 8481 ,35 K TIT AK2 0.03 0.05
|
||
3 VV5 62.00 62.00 3481 , 35 NE II 2 AK2 0.03 0.05
|
||
2 PG AKI 16.00 16.00 3487, 55 HE I 1 AK2 0. 08 0.08 0.12 0.12
|
||
-3 VV5 6?. 00 62.00 3468, .LQ Q LI— I AK2 Q-..Q2 -0.02 Q..Q3. Q.Q3
|
||
(NE HI) 2 42.00 42.00 3497. 29 S III l AK2 0.03 0.03 0.05 0.05
|
||
1 PG AKI 19. 70 19. 70 3498, 71 HE I 1 AK2 0.09 0.09 0. 14 0.14
|
||
2 VV 5 55. 00 55. 00 3512 , HE I J AK2 0.09 Q. 09 0. 14 0.14
|
||
42.00 42.00 3517. 54 AK2 0.02 0.02 0.03 0.03
|
||
16.00 16. 00 3530, 61 HE I AK2 0. 12 0.12 0. 18 0.18
|
||
IC 4846 (PK NO. 27 -9 1) IC 4997 (PK NO. 58+10 1)
|
||
608
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
_LC 4Q97 (PK MO. Sfl+I 0 11 _JLC 493.7 (PK NQ. 58-HQ-l)
|
||
WAVE I0FNT N RG REF AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3540.64 NF I I _1 AK2 0.06 Q«_Q3_ Q.Q9 .3838,10 S ITT AKZ 0.04 0*06-.
|
||
3554.40 HE AK2 0. 14 0.14 0. 21 0.21 3838110 HE I AK2 0.04 0. 06
|
||
3561.19 NF I I AK2 0.04 0.04 0.06 0.06 3838.10 MG I AK2 0. 04 0.06
|
||
3562.5Q HF..I —KA. 0.04 .0.04 Q.Q6 . 0.06 3 842.95 0 UL_ AK7 0.Q2 Û..Q3-
|
||
3564 0 0.04 0.04 0.06 0.06 3849 0.02 0.02 0.03 0.03
|
||
3568.59 NF I I l AK2 0.04 0.04 0.06 0.06 3852 0.02 0.02 0.03 0.03
|
||
3587.30 HF I _L A.&2 . 0.18 0.18 Q. 27 0.27 3853.88 SI IL_ 0.02 Q. 02 0.03 0.03
|
||
3613.67 HF I 1 AK2 0.20 0.20 0.30 0.30 3856.06 O II 2 AK2 0.10 0. 14
|
||
3634.29 HE I l AK2 0.25 0.25 0. 37 0.37 3856.06 SI II 2 AK 2 0.10 0.14
|
||
3654.06 S I ! 1 AK2 Q.O . ..Q.fl. . .3.858 . O AK2 Q.Q2 . CU QZ Q. 03 0.03
|
||
3659.30 AK 2 0.27 0.27 0.39 0.39 3862.61 SI II 1 AK 2 0. 11 0.11 0. 15 0.15
|
||
3660.22 A K2 0.25 O. 0.36 0.36 3864.69 O II 1 AK2 2 0.07 0.07 0.10 0.10
|
||
3661.23 AK 2 0.26 P. ■ .Q.3.a_ 0.38,, 3866 O AK2. 0.0 0.0 Q.O
|
||
79.09
|
||
0.0
|
||
3662.23 l AK2 0.28 0.2 8 0.41 0.41 3868.72 (NE III) i AK2 58.10 64.18 87.37
|
||
3663.44 1 AK 2 0.29 0.2^ 0.42 0.42 1 A41 76.00 64.18 103.46 87.37
|
||
3664.69 _1 AK2 0.31 .Q.i.3.1 ■ -Q..-45- Q »45 Jl ALP,.
|
||
LA
|
||
30.30
|
||
77.70
|
||
64.18 105.77
|
||
64.18
|
||
41.25 87.37
|
||
87.37
|
||
3666.07 l AK 2 0.32 0.32 0.47 0.
|
||
3667.68 l AK2 0. 34 0.34 0.50 0.50 l 0 63.00 64.18 85.76 87.37
|
||
3669.47 1 AK2 0.38. 0.38 . 0.55 0.55 -J VV 2 , 80.00 64.18 ,.l-Qa*.9Q-. 87.37
|
||
3671.48 1 AK2 0.42 0.42 0.61 0.61 3870 AK2 0.0 0.0 0.0 0.0
|
||
3673.00 1 AK2 0.45 0.45 0.65 0.65 3871.67 HE I AK2 0. 18 0.18 0.24 0.24
|
||
3676.34 _l AK2 .0.49 . 0.49 0.71 0.71 3874.74 O II AK2 0.05 0.05 0.07 0.07
|
||
3679.35 1 AK2 0.53 0.53 0.77 0.77 3878.37 C II l AK2 0.02 0.02 0.03 0.03
|
||
3682.79 l AK2 0.67 0.67 0.97 0.97 3881.50 O II l KÀ Q ■ 02 0.02 0.03 0.03
|
||
3686.82 _1 AK2 0.70 . .0*2.0.. 1.01 1.01 3888.93 H I _2 AK.2 14.60 19.73. .
|
||
3691.58 A K2 0. 83 0.83 1.20 1.20 2 A41 15.30 20.67
|
||
3694.29 NE I I AK2 0.06 0.06 0.09 0.09 2 LA 16.70 22.56
|
||
3695.34 P III AK2 ■ ■û*82. Q.Q2 .■Û*_Q3_. Q. 03 _Q 11.5Q. 15.54
|
||
3697.17 1 AK2 1.08 1.56 2 10.00 13.51
|
||
3699.03 S III 2 A K2 0.03 0.04 3888.93 HE I 2 AK2 14.60 19.73
|
||
3699.03 Q LLL _2 AK2 - _2 A41 . 15.3,0 70.67
|
||
3703.83 I l A K2 1.30 1.30 1.87 1.87 2 LA 16.70 22.56
|
||
3705.02 HE I l AK2 0.52 0.52 0.75 0.75 2 0 11.50 15.54
|
||
3707.32 _0 III _1 AKZ Q. 04 0.04 Q.Q6 . -0*06. _2 V.V. 2- 1Q.OO 13.51
|
||
3709.24 NE I I AK2 0.04 0.06 3918.88 C II l AK2 0.02 0.02 0.03 0.03
|
||
3709.24 S III AK2 0.04 0.06 3920.56 C I I l AK2 0.05 0.05 0.07 0.07
|
||
^ 70Q.74 AK? 39?6.56 HF I _J AK? 0.15
|
||
3711.99 I 1 AK2 1.62 1.62 2.33 2.33 3929 0.03 0.03 0.04 0.04
|
||
3714.9? I II l AK 2 0.05 0.05 0.07 0.07 3935.73 A K2 0.03 0.03 0.04 0.04
|
||
-3.718. 14 AR . M . -1 /UC2_ 0.04 ■ 0.06 AK2... n.n? o..n\.
|
||
3721.86 I 3 A K2 2.81 4.02 3945.90 C 2 KA 0.03 0.04
|
||
3721.86 P III 3 A K2 2.81 4.02 3945.90 C 2 KA 0.03 0.04
|
||
-aj-21.86 -N F. II _3 AJ£_2_ .3954.64 □ I_L_ _J AK?
|
||
3726.11 (G II ) 1 AK2 14.70 21.02 3961.39 O III 2 AK 2 0.05 0.07
|
||
l A41 22.00 31.46 3961.39 S III 2 AK2 0.05 0.07
|
||
J ACP 3964.80 HE—I J AK2
|
||
AUV 1.00*A l.43*A 3967.41 (NE III) 2 AK2 33.00 43.53
|
||
LA 24.00 34. 32 2 A41 45.00 59. 36
|
||
2 ACE—
|
||
1 SG 1.00* 1.43* 2 LA 38. 80 51.18
|
||
1 VV 2 ?0.00 28.60 2 VV 2 56.00 73.86
|
||
3728.85 (P U L J AJL2 _2 AJL2 33.00 .43.49.
|
||
l AUV 0•38 *A 0.54*A A41 45.00 59.30
|
||
1 SO 0. 34* 0.49* ACP 15. 10 19.90
|
||
3730.64 HF T _J AK? 0.04 0.04 0.06 0.06 —LA— 38.80 51. 13
|
||
3732.69 HE I AK2 0.08 0.08 0.11 O.ll 0 32.40 42.70
|
||
3734.41 H I A K2 2.06 2.06 2.94 2.94 VV 2 56.00 73.80
|
||
3737 HE I AK? 0.01 0.01 0.01 0.01 3970 (NE III) a 32.40 42.70
|
||
3739.55 0 I I A K2 0.02 0.02 0.03 0.03 3972.94 O II AK2 0.03 0. 03 0.04 0.04
|
||
3745.89 N III AK2 0.03 0.04 3976 A K2 0.02 0.02 0.03 0.03
|
||
3745.89 HF I AK? 0-03 0-04 .3983.25 Q U AK? Q. 04 Q. 04 Q. 05 , 0,05
|
||
3750.20 I 1 A K2 2.69 3.24 3.82 4.60 3985.48 0 l AK 2 0.05 0.05 0.07 0.07
|
||
l A41 3.80 3.24 5.39 4.60 3989 O AK2 0.04 0.04 0.05 0.05
|
||
3u75l4^55- _2 AK2. 4QQQ _0 AK2 0.08 ■Q.*10_ .Q...LQ-
|
||
3754.55 N III AK2 0.04 0.06 4008.50 (FE III) I AK2 0.07 0.07 0.09 0.09
|
||
3755.99 HE I AK2 0.05 0.07 4009.26 HE I l AK 2 0.21 0.21 0.27 0.27
|
||
3757,64 N LUL . AK2... Q, Q4 Q.Q6, -4J31.9. O A K2 Q..Q3 Q, 03 Q.Q4. Q.Q4 .
|
||
3757.64 I II 2 AK2 0.04 0.06 4023.81 HE I 1 AK 2 0. 04 0.04 0.05 0.05
|
||
3766.58 NE I I l AK2 0.03 0.03 0.04 0.04 4026.14 HF I l AK2 2.33 2.99 3.02 3.88
|
||
3768.89 .HE. I _1 AKZ- 0.04 Q* 04 0.06 0.06 1 A41 .3,40 2.99 4.40 3.88
|
||
I A K2 3.38 3.94 .76 5.55 1 LA 2.99 5.18
|
||
A41 •4. 50 3.94 6. 34 5.55 1 0 2.99 4. 71
|
||
T II AK.2 . 0.03 0.03 0.04 0.04 1 w 2 2.99 2.07
|
||
3777.24 1 AK2 0.03 0.03 0. 04 0.04 4029 0 AK2 0.02 0.03
|
||
3780 O A K2 0. 03 0.03 0.04 0.04 4041.36 N II 2 AK2 0.02 0.03
|
||
3781 O AK2 0.03 0.03 0.04 0.04 -4.041.3 6 0 LL_ _Z AKZ. Q*Q2 0.03
|
||
3784.90 0 I I 2 AK2 0.05 0.07 4043 A K2 0.01 0.01 0.02 0.02
|
||
3784.90 HE I 2 AK2 0.05 0.07 4048 0 AK 2 0.02 0.02 0.03 0.03
|
||
-3.791,58 SI III _L AK.2 , 0.03 _QjJÜ— 0.04 Q.Q4 4Q5Q _0 AK2 Q*.Q2.. Q.Q2 . Q..Q3,. Q.Q3
|
||
l A K2 3.78 3.56 5.28 4.98 4056.51 C III 1 AK2 0. 03 0.03 0.04 Û.04
|
||
l A41 5.30 3.56 7.40 4.98 4057 O AK2 0.05 0.05 0.06 0.06
|
||
1 LA 2.70 3.56 3.77 4.98 4Q6.Q.46 Q LL _2 AK2.. Q.Q3 Q.Q4
|
||
3.64 3.56 5.08 4.98 4060.46 (FE IV ) 2 AK2 0.03 0.04
|
||
2.40 3.56 3. 35 4.98 4068.62 (S II ) 1 AK 2 2.50 3. 19
|
||
- 3.805.86 HE I A.KZ- 0.05 . ■Q..,Q5 0.07 0.07 2 .64 4.65 .
|
||
3810.59 1 AK2 0.03 0.03 0. 04 0.04 4069.84 O II 2 AK2 0.17 0.22
|
||
3813 0 0.03 0.03 0. 04 0.04 4069.84 O II 2 AK2 0.17 0.22
|
||
-1819.61 HE.. I _1 AKZ- 1.09 1.99 -L* ,2.76 40-72 LS U L A4 1 -3-*2Q.. —4*55. —4*. 5.80
|
||
l A41 2.90 4. 02 LA 5.90 4.55 7.52 5.80
|
||
3829.76 N II 3 AK? 0.02 0.03 4072.09 II AK2 0.10 0. L 0 0. 13 0.13
|
||
3829.76 UL_UL_ 3 AK2 Q.Q2 Q.Q3 4073.90 1I.L. AK2 Q.Q1 Q*QL, .Q*Q1-. . L*flL-
|
||
3829.76 mg I AK2 0.02 0.03 4076.31 (S 11)1 0.79 1.01 1.01
|
||
3831.82 C II AK2 0.02 0.03 2 3.64 4.63
|
||
3831.82 “G I . AKZ— Q* QZ.. 0-03 4078.9? H II AKZ.. Q. Q4... . ■Q...Q.4,.. ■0*05- Q « 05
|
||
3831.82 S III AK2 0.02 0.03 4081.40 O III AK2 0.03 0.03 0.04 0.04
|
||
3833.62 HE I AK2 0.07 0. 10 4083.69 O II AK2 0.03 0.03 0.04 0.04
|
||
3833.62 Hf U AK? 0.07 0. 10 ,4084.88 û LL_ AK2 0.03 0.04
|
||
AK 2 4.63 6.72 6.38 9.26 4084.88 O II 2 A K2 0.03 0.04
|
||
A41 9.20 6.72 12. 67 9.26 4086.77 NE II 2 AK2 0.02 0.03
|
||
_LA fc*I2 -12.4Q 4086.77 Q II 2 AK2 Q. 02 0.03
|
||
0 3.98 6.72 5.48 9.26 4088.92 O II AK2 0.08 0. 10
|
||
VV 2 6.80 6.72 9. 37 9.26 4088.92 SI IV AK2 0.08 0. 10
|
||
IC 4997 (PK NO. 58+10 1) IC 4997 (PK NO.
|
||
609
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
_LC 4997 (PK. NQ. 5BtlQ 1) ir 4qq7 t PK Kn. i>
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT RG REF OBS I CORR I
|
||
4092.97 _0 LI 1 A K2 0.03 0.03 0.04 0.04 4416.87 NE II AK2 0.07 0.08
|
||
4094.42 0 II I AK2 0.03 0. 03 0.04 4434.08 MG II AK2 0.02 0.02 0. 02 0.02
|
||
4097.20 N III 3 AK2 0. 19 0.24 4437.47 HE I AK2 0. II 0.11 0.13 0.13
|
||
7 ACP 19.22 4439.50 S LLL_ 0.15
|
||
4097.20 O II 3 AK2 0.19 0.24 4439.50 NE II O. 15 0. 17
|
||
4097.20 G II 3 AK2 0.19 0.24 4442.43 NF II AK2 0.03 0.03 0.03 0.03
|
||
4101.70 H I 1 AK2 22.40 21.58 28.28 4445.88 NE II AK2 Q. 03 _Q^ 0.03- Q. 03
|
||
1 A41 17.80 21.58 22.47 27.25 4452.17 0 II AK2 0.05 0.05 0.06 0.06
|
||
2 ACP 15.20 19. 19 4456.59 S II AK2 0.03 0.03 0.03 0.03
|
||
LA 25*50 .JA*? 9 27.25 4465.04 Q LL_ AK2 0.04 0.04 0.05 -0.05
|
||
23.00 21.58 29.04 27.25 4471.48 HE I AK2 5.31 6.31 6.00 7.12
|
||
19.20 21.58 24.24 27.25 A41 9.20 6.31 10.39 7.12
|
||
4103.80 N III - 0.06 -■0.06- ACP 6.02 6.31 6.80 -E.12
|
||
4104. II 1 AK2 0.05 0.06 6.90 .31 7.79 7.12
|
||
4110. II 2 AK2 0.04 0.05 5.62 6.31 6.35 7.12
|
||
-4110.49- JQ_ 2 AK2 0*04- VV 2 . 4.80 6.31 5.42 7.12
|
||
4116..20 SI IV 1 KA 0.01 0.01 0. 0.02 4475.00 NF II 0.02 0.02 0.02 0.02
|
||
4119. II l AK2 0.06 0.06 0. 0.08 4489.00 G II 0.02 0.02 0. 02 0.02
|
||
4:120.81 ü£—I _J AK¿ 0.29 0.29 0-36 0-36 4538.53 AR II 0^03 0.03 0.03 0-03
|
||
4132. 79 O 1 AK2 0.04 0.05 0.05 4568.80 NE II 0.03 0.03 0.03 0.03
|
||
4142. 30 O 2 KA 0.05 0.06 4571.10 MG I AK2 0.20 0.20 0.22 0.22
|
||
4142.30 Q _2 Q. Q-5 . Q. 06— 4590.n TT A-K2— 0.07 Q.Q7- O.Ofl _a.QA_
|
||
4143, 77 HE I 3 AK2 0.31 0.39 4595.92 O II AK2 0.05 0.05 0.05 0.05
|
||
4143, 77 0 II 3 AK2 0.31 0.39 4601.87 O II AK2 0.03 0.03 0.03 0.03
|
||
4143 77 Q I_I_ —3 AK2— Q.31 0-39 4607.12 (FF T TT I AK2 0.07 0.08
|
||
4145. AK2 0.03 0.03 0.04 0.04 4607.12 N A K2 0.07 0.08
|
||
4147 AK2 0.02 0.02 0.02 0.02 4609 AW70 0.12 0.12 0. 13 0.13
|
||
41 53. AK? 0.08 Q.1Û- 4609.47 P TT AK2 ...Q^ns 0.05 n.05 -0.05 .
|
||
4153. 43 O I I AK2 0.08 0.10 4616 AK 2 0. 03 0.03 0.03 0.03
|
||
4156. 40 C III AK2 0.04 0.05 4621.72 O II AK2 0.0 0.0 0.0 0.0
|
||
4156. AO Q U 0.04 Q. 05 46^0 M TT AW70 0.06 0. 06 O.Oft -0.06
|
||
4159 0 A K2 0.02 0.02 0.02 0.02 4630.04 C AK2 0.05 0.05
|
||
4163. 90 (K V 1 AK2 0. 02 0.02 0.02 0.02 4630.04 N II AK2 0.05 0.05
|
||
4166. A2 MG T _2 AK? Q.Q3. - 0.04. 4633.86 N III- AK 7 0^17 0-18
|
||
4166. MG I 2 AK2 0.03 0.04 A W70 0.18 0.17 0. 19 0.19
|
||
4169. 21 HE I l AK2 0.09 0.09 0. 11 0.11 4639.03 O II AK 2 0.16 0.16 0.17 0.17
|
||
41 74 _Û AK2 Û. 03 Q. 03 0-04 4640.44 N TU AK2 . .0.-34 0.34 . _Q^ -Q.36
|
||
4183 AK2 0.04 0.04 0.05 0.05 AW70 0.70 0. 75
|
||
4185. II AK2 0.07 0.07 0.09 0.09 4641.73 N III AK2 0.26 0. 28
|
||
MI AK2 --0^.70 0. 75
|
||
4189. AK2 0.06 0.06 0.07 0.07 4641.73 O II 0.26 0.28
|
||
4194 A K2 0.03 0.03 0.04 0.04 4645 C III 0.80 A 0.86 A
|
||
A K2 - 4645 N I IT 0.80 A 0.86 A
|
||
4231. 59 NE II 1 AK 2 0.02 0.02 0. 02 0.02 4647.24 C III AK2 0. 13 0. 14
|
||
4242. 24 NE II 1 AK2 0.04 0.04 0.05 0.05 4647.24 NF II AK? 0.13 0. 14
|
||
42.44.0? NF II 1 AK2— 0.06 0.06 0.07- 0.07 4649.10 0 U 0.34 0.36
|
||
4253, 68 0 II 2 A K2 0.04 0.05 AW 7 G 0.70 0. 75
|
||
42 53. 68 S III 2 AK2 0.04 0.05 AK2 0. 15 0. 16
|
||
4257, in NE II _2 AK? - O- O? 0.0? 0.70 0. 75
|
||
42 57. 0.02 0.02 4657 (FE III) AW70 0.77 0. 82
|
||
4264 0.02 0.02 0.02 0.02 4658.09 AR II AK2 0.83 0.88
|
||
4267. 0-17 Q. 17 0.20- 0 «?Q 4658.09 (FF T II) AK2 0.83 0. 88
|
||
4275. 0 II 1 AK2 0.04 0.05 4658 C IV AW70 0. 77 0.82
|
||
42 76. 0 II 2 A K2 0.05 0.06 4661.48 O II AK2 0. 12 0.12 0. 13 0.13
|
||
4276, ££ 0 LL- ? AK? 0.05 . n. 06 467/w3G G U— 0. 06 0.07 -Q.-Q6— -0.07 .
|
||
4278 AK2 0.02 0.02 AH70 0.C8 0.07 0.08 0.07
|
||
4282. □ 11 AK2 0.03 0.04 AW70 0. 10 0.85 0.11 0.90
|
||
4282. 0 I I A K2 0.03 0.04 VV 2 1.60 0.85 1.69 0.90
|
||
4285. S III AK2 0.03 0.03 0.04 0.04 4695.80 N II KA 0.04 0.04 0.04 0.04
|
||
4287 AK2 0. 07 0.07 0.08 0.08 4701 (FE III) AW70 0.30 0.30 0.32 0.32
|
||
4289,13 Q LL- AK2 Q.Q2 Jk 02 0.02 0.02 4701.30 Q U AK? 0.3? 0-3? 0-34 —Q.34 .
|
||
4294. II 2 AK2 0.05 0.06 4711.34 (AR IV ) AK2 0.28 0.28 0. 29 0.29
|
||
4294. 45 S II 2 AK2 0.05 0.06 AW7 0 1.62 1.70
|
||
4303, .LO Q LL_ _3 AK2 Q. 01 0.02 4712.55 HE I . AK2 1.36 1-4?
|
||
43 03..10 0 A K2 0.01 0.02 A W7 0 1.62 1.70
|
||
4303..10 0 AK2 0.01 0.02 4733.32 N IV AK2 0.21 0.21 0.22 0.22
|
||
—43-17.11 Q LL_ 1 AK2 0.07 0.07 0.08 4740 ( AR IV ). AW7Q 0.65 0.65 0.97 0.67
|
||
4319, 69 O II AK2 0.06 0.06 0.07 0.07 4740.00 N IV A K2 0.67 0.70
|
||
4325. 76 O II 1 A K2 0.02 0.02 0.02 0.02 4740.00 MG II AK2 0.67 0. 70
|
||
4328 ¿5 Q_ 1 AK2 Q. 01 Q. 01 _û^ 0.01 4740.00 (AR IV ) AK2 0.67 0. 70
|
||
4333, AK2 0. 06 0.06 0.07 0.07 4754 AK2 0.20 0.20 0.21 0.21
|
||
4338 AK2 0.06 0.06 0.07 0.07 4754 (FE III) A W7 0 0. 12 0.12 0. 12 0.12
|
||
4340i H L_ AK2 45.00 A3. 52 îZnJl— 51.«-fl3- 4768.83 CL II AK 2 0.17 0.11 0. 17 0.12
|
||
1 A41 35.00 41.04 0.06 0.11 0.06 0.12
|
||
2 ACP 65.50 76.81 4774.40 N II 0.04 0. 04 0.04 0.04
|
||
1 LA 51.00 59.80 4776 Q. 15 0.15 Q. 15... . ..Q. 15
|
||
42.60 43.52 49.95 51.03 4781 N II 0. 10 0.10 0. 10 0.10
|
||
1 VV 2 44.00 43.52 51.60 51.03 4783.10 NE II 0. 09 0. 06 0.06 0.06
|
||
4342.95 O II 2 AK2 0.08 0.09 4813 Q III A W7Q 0.06 0.06 Q.-Q¿_ _Q.06 .
|
||
4342.95 S II AK2 0.08 0.09 4813.66 SI III AK2 0. 11 0.11 0. Il .11
|
||
4345.43 O II AK2 0. 16 0.16 0.19 0.19 4861.33 H T AK2 100.00 100.00 100.00 100.00
|
||
4349.33 O II AK2 0.08 0.08 0.09 0.09 A41 100.00 100.00 100.00 100.00
|
||
4362.95 (0 1 AK2 30.70 36.57 35.75 42.60 ACP 100.00 100.00 100.00 100.00
|
||
1 A41 56.00 36.57 65.22 42.60 LA 100.00 100.00 100.00 100.00
|
||
ACE_ 65.50 76. ?8 _Q_ 100.00 100.00 100.00 ICO.00
|
||
1 0 28.80 36.57 33.54 42.60 1 □ D62 100.00 100.00 100.00 100.00
|
||
i VV 2 30. 80 36.57 35.87 42.60 1 2 100.00 100.00 100.00 100.00
|
||
1 AK2 0*19 0.10 9*12 0*12 4880.68 IFE III) 1 AK. 2_ Û » 52 Q. 41 0.5? 0.41
|
||
4368.26 C II 1 AK2 0.12 0.12 0. 14 0.14 A W7 0 0.31 0.41 0.31 0.41
|
||
4378.34 O II 1 AK2 0.01 0.01 0.02 0.02 4921.00 HE I KA 1.40 1.65 1.38 1.62
|
||
■ 43_82 _JQ 4*2... -Q.t.9.1- -fl* .91.., 0.02 9.92 AW7 Q.._ 1.9Q . L. 6-5— 1.87 .62.
|
||
4387.94 HE I AK2 Ó. 55 0. 55 0.64 0.64 4931.00 (O III) 0.0 0.07 0.0 0.07
|
||
43 89 A K2 0.02 0.02 0.02 0.02 AW70 0. 14 0.07 0. 14 0.07
|
||
4391.85 NE II A K2- 0.04 _Q^Q5- 4959 (O TIT 1 A4 1 189.QQ 19fi.60 184.27 193.63
|
||
4391.85 AK2 0.04 0.05 ACP 165.00 198.60 160.87 193.63
|
||
4400 AK2 0.03 0.03 0.03 < 0.03 LA 214.00 198.60 208.65 193.63
|
||
4403 0 AK? 0.0? n.n? Q. 0? 0.0? _Q— 209.00 198.60 203.77 193.63
|
||
4409.29 NE II 1 AK2 0.03 VV 2 216.00 198.60 210.60 193.63
|
||
4413.24 NE II 2 AK2 0.07 (0 111)1 A4 1 543.00 587.42 522.74 565.51
|
||
4413.24 NE II ? AK2 Q.Q7 ACP 543.00 587.42 522.74 565.51
|
||
4414.95 AK2 0.09 0. 10 0.10 BE 1000.00* 962.70*
|
||
4416.87 0 AK2 0.07 0.08 LA 603.00 580.51 565.51
|
||
IC 4997 (PK NO. 58 + 10 1) IC 4997 (PK NO. 58+10 1)
|
||
610
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
IC 4997 tPK NO. 58+10 1) rr 5117 (PK NO. 89 -5 n
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF □ BS I CORR I AVE C
|
||
_iU LULL I 636^.05-
|
||
66Q.7a_ A -587*A2— 1270.76
|
||
QD62 1320.00 5.63.31 3985 H I _2 HX. 1- tLQX
|
||
1 VV 2 A 3889 HE I 2 VV 9. 10X 20.22 X
|
||
5016 HE I 1 BE 3.72* 3.57* 3967 (NE III) 2 A 41.00 85.49
|
||
30^1 .^I II I AW7 0 o-ua Q.ia 0-17 -Qji Ll_ 2 ACP 32.30 67.35
|
||
5047 HE I 1 AW70 0.35 0.35 0.33 0.33 18.00 37.53
|
||
5056 SI II l AW70 0.16 0.16 0.15 0.15 VV 1 27.30X 56.92 X
|
||
5145 (FE VI ) 1 AW70 0.12 0.12 o.H 0.11 . 3967 _b I_ 41.QQ 85-« 46
|
||
5158 (FE VII) 2 AW70 0. 15 0. 14 ACP 32.30 67.33
|
||
5161 (FE VII) 2 AW7 O 0.15 0. 14 R 18.00 37.52
|
||
ß 17.6 (FE VI ) 1 AW70 0.02 Qt-S-2— 0.02 0.02 VV 1 27. 3QX 56-.9QX
|
||
5191 (AR III ) 1 A W70 0.29 0.29 0.26 0.26 4026 HE T A 3.00 3.00 5.95
|
||
5199 (NI ) 1 A W70 0.21 0.21 0. 19 0.19 VV 1 9.10XA 18.06XA
|
||
5231 1 A W70 0.04 0.04 0.04 0.04 -4069 _LS UL 6.00 11.46
|
||
5262 1 A W70 0.07 0.07 0.06 0.06 4076 11 6.00 11. 39
|
||
5270 (FE III) 1 AW70 0.60 0.60 0.54 0.54 1 VV 1 9.10XA 17 • 27 XA
|
||
-J>.37JL- (FE IV ) J, AMXQ- 0.03 0* 03 0.04 0.04 —4Q97 III- ? ACP 10.70 19.94
|
||
1 A AE2 0. 0.37* 44* 2 3.00 17.00 42.70 31.56
|
||
1 AW 70 0.20 0. 17 ACP 10. 70 19. 87
|
||
5537 (CL un J A AE2 1. Q.84*_ QQ* —EE-B 15.00 17.00 77.85 31.56
|
||
l AW7 O 0.40 0.40 0.33 0.33 13.00 17.00 24. 14 31.56
|
||
5677 (FE VI ) 1 AW70 O. 10 0. 10 0.08 0.08 36.40X 67.58X
|
||
5754 N U 1 AW7Q 47.00 33. 67 64. nq 51 .37
|
||
O 11.50 6.75 9. 13 5.36 2 ACP 45.40 69.28
|
||
5801 1 A W7 0 O. 30 0.30 0.24 0.24 i PER 35. 00 33.67 53.41 51.37
|
||
5811 -IV - -J AM70- O-30 0.30 0.24-
|
||
4. 87*
|
||
0.74 _J B 7 4.00 - 33.67
|
||
39.40X
|
||
36.67
|
||
60.12X
|
||
51.31
|
||
1 AHX 6.30*
|
||
1 AW7 O 19.00 19.95 14.69 15.43 (O 111 ) 1 19.00 28.47
|
||
—1 Q 70.90 19 »-9 5 16.16 15.43 45.40 -68.07
|
||
25.20 A 19.49 A 12.00 17.98
|
||
2.60* 1. 84* VV 1 27.20X 40.75 X
|
||
8.80 A - .71 - -b 6.30 8.70
|
||
6363 (O AHX 0.70* 0.49* 1 ACP 4. 10 4. 1 3 5.66 5.71
|
||
6563 H LAR 10.00* 6.73* 1 R 2.00 4. 13 2.76 5.71
|
||
288.00 193.75 -J AU7 O 1.20 1.20 1-.57 - -1.57-
|
||
2 VV 2 708.00 A 476.29 A 4571 MG I 1. 10 1.40
|
||
6563 (N I I 1 2 VV 2 708.00 A 476.29 A 4634 N III 5.40 6.52
|
||
6583 -(N . II -l -1 O 19.30 1 .50 1.81 -
|
||
6678 HE I 1 AHX 2.50* 1.65* 2 A 5.40 6.48
|
||
6717 (S II ) I B AE2 0.45* 0.29* 1 AW70 3.90 4.69
|
||
1 AHX -2 VV 1 39.40 X 47. 12 X
|
||
11.70 7.66 4645 III 2 VV 1 39.40X 47. 12 X
|
||
(S II I l AE2 1.00* 0.65* 4649 III 2 A W7 0 1.90 2.26
|
||
AHX -4-650.- I I í... _2 A-W2Q - -1.90 —2^26
|
||
6734 ( S II) 2 O 11.70 7.64 A 13.80 1 1. 1 3 15.96 12.87
|
||
7065 HE I 1 O 18.20 18.20 11.29 ACP 10.90 1 1.13 12.60 12.87
|
||
7136 .1 0- 10.-50 6.44 8^70_. -11.13 1 0-. 06 . 1-2.87-
|
||
7325 (n II) O 21.40 12. 76 30.30X 35.03X
|
||
7751 (AR III) 1 AHX 2.15* 1.20* (AR IV ) 1 5.00 5. 66
|
||
1 AHX -9.78 -1 1.-Q7
|
||
8413 1 AHX 0.75* 0.39* 4713 HF I 3 ACP 9.78 11.05
|
||
8446 1 AHX 5. 68* 2.93* 4725 (NE IV ) 1 AW7O 0. 70 0. 78
|
||
1 AHX 0.53*- -4740- (AR IV L J A 7.50 8^2-8
|
||
8502 1 AHX 1. 14* 0. 59* 9.78 10.80
|
||
8545 1 AHX 1.34* 0.68* 7. 70 7.60 8.50 3.39
|
||
.-8598-. 1 AHX 1.4?* 0.-72*- __H L_ ion.no i on.on ino.oo -100^00-
|
||
AHX 1.64* 0.83* ACP 100.00 100.00 100.00 100.00
|
||
0 7.41 3.74 0D6 3 100.00 1 CO.00 100.00 100.00
|
||
AHX 1.64* 0.82* PER 100.00 100.00 100.00 ICO.00
|
||
0 4. 90 4.90 2.45 2.45 R 100.00 100.00 100.00 100.00
|
||
8863 0 5.90 5.90 2.92 2.92 VV 1 100.00 1 CO.00 100.00 100.00
|
||
9015 __Q 4. 1 7 ?. 04 -¿»Q4. A W 7 fl 3. an 3.88 3 «-6.4 .64-
|
||
9069 III) 1 0 32.40 32.40 15. 76 15.76 4931 (C III) 1 AW7 0 0.60 0.60 0.57 0.57
|
||
9229 I 1 G 8.91 8.91 4.27 4.27 4959 (0 III) 1 A 610.00 593.64 570.35 555.05
|
||
9532 _I 2 .95* 0.91* J LAR AC2 526.oa 593.64 491.81 555.05
|
||
9539 2 0 56.40 26.36 657.00 593.64 614.29 555.05
|
||
9539 2 0 56.40 26. 36 660.00 593.64 617. 10 555.05
|
||
-3.546— _LS LULL ? LAR 1.95* 0.91* 516.20. 593.64 481.71 555.05
|
||
10049 I 13.50 13.50 .08 6.08 1 A 1600.00 1637.40 1446.46 1480.27
|
||
10120 HE II 5.90 5.90 2.65 2.65 1 ACP 1554.00 1637.40 1404.87 1480.27
|
||
LÆ32Q. _LS LI i- 6.9L- 6.31-. 3.06 __1 QD63 1288.QQ. 1637.40 1164.40 1480.27
|
||
LAR 9.85* 4.22* 1 PER 2048.00 1637.40 1851.46 1480.27
|
||
G 347.00 347.00 148.55 148.55 1 VV 1 1697.00 1637.40 1534.15 1480.27
|
||
1Q9?9 _2 33.20 33.20 14.11 1.4.U -J AlaL7Q 2^ 40 A 2.15 A
|
||
10 MU (S IV ) 5047 HE I AW70 1. 10 1.10 C. 96 0.96
|
||
5056 SI II 1 AW70 1.20 l.?0 1.04 1.04
|
||
REGION KEY (REG ION.REFERENCE.EXPLANAT TON ) 5-L91— (AR III) 1 AW7Q 0.80 _Q.« 83 Q«-b3 0-.63-
|
||
A, AE2 , REGIONS A AND B ON DIFFERENT SCALES 5199 (NI ) 1 AW70 1. 10 1. 10 0. 86 0.86
|
||
5270 (FF III) 1 AW70 0.80 0.80 0. 59 0.59
|
||
END L£ 4997 LPK-MQ. 59+10 U 5-3.09— (CA V L 1 AW7Q Q. 20 -0.28 Q. 14 0.14
|
||
5323 (CL IV ) L A W7 0 0.30 0.30 0.21 0.21
|
||
5346 1 AW 70 1.10 1.10 0. 78 0.78
|
||
5411 HE il 1 AW7Q 3^80. 3.80 2*57 2*57.
|
||
BEGIN IC 5117 (PK NO. 89 -5 1) 1.38 (RAD10-H BETA) 1 VV l 39.40 A 26.63 A
|
||
1 A AE2 0.25* 0. 16*
|
||
HAVE. IPENT N FG REF... Q6S I AVE-Q CQPP I AW 70 1.20 - 1.2 Q Q*J.t 0*75 -
|
||
3712 I A 1.70 4.45 5537 (CL III) 1 A AE2 1.00* 0.62*
|
||
3727 (0 I I A 20.00 51.63 1 AW70 4. 10 4.1 0 2.54 2.54
|
||
ACP 12.50- 32.27 . 1592- _0 LLI— 1 AW7Q Q.40 0-4 0 0.24 Q.?4
|
||
PER 10.00 25. 81 (N 1 AW70 18.00 9.77
|
||
VV 1 18•20 X 46.98 X 1 VV l 48.50 A 26.33 A
|
||
-11,50- _H I— 2.20 2.30- 5. 56 -1.56 5801 ■C 1 AU 70 0-70 0.37
|
||
3770 H 3.50 3.50 8.69 8.69 5812 C IV A W70 0. 70 0. 37
|
||
3797 3.80 3.80 9.21 9.21 5862 ( MN V ) AW7C 0.60 0. 31
|
||
3835 5.10 11-93 19.15 5 864 ( MN V ) 2 AHIQ <1*59 0.31
|
||
ACP 9.46 8.19 22. 13 19.15 5867 ST II 1 AW 70 1.80 1.80 0.91 0.91
|
||
R 10.00 8.19 23.40 19.15 5876 HE I 1 PER 35. 00 28.10 17.69 14.21
|
||
-3_86 6_ (NE III) 1 93.00- 73.3-3 210.85 . 166.26 11 W 1 21.20 28.10 -1Q.JL2 - 1.W1 -
|
||
PER 81.00 73.33 183.64 166.26 5885 AW 70 0. 90 0.90 0.45 0.45
|
||
R 46.00 73.33 104.29 166.26 6300 (0 1 ) l VV 1 36.40 A 14.44 A
|
||
VV- 1 - 54.5QX 123.56X 6548 _LN LI L _1 PER 57.00 57.00 2 0-06 20.06
|
||
12.00 11.50 26.67 25.56 PER 783.00 273.45
|
||
11.00 11.50 24.44 25.56 VV 1 545.50 190.50
|
||
1C 5117 (PK NO. 89 -5 1) IC 5117 (PK NO. 89 -5 1)
|
||
|
||
611
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
IC 5117 IPK NO. 89 -5 1) 5217 fPK NQ- 1QQ -5 11
|
||
WAVE ÏDENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I AVE CORK I AVE C
|
||
6563 (N II 2 VV L 545.50 190.50 . itlp-L H I -J LA 3-1 t?P- là*.'?.!... 35t 01 29.67
|
||
65B4 (N I I ) 1 PER 153.00 52.86 PER 19.00 26.52 21.25
|
||
6717 ( S IT > 1 R AE2 0.54* 0.^18* PTP 24.00 A 26.85
|
||
6730 _LS Ll_ -L_ B....AE2- 1.00* ■ 32*- 23.48
|
||
23.48
|
||
-VV-..2- ,2,9tlO 26.52 31.43 29.67
|
||
9068 ( S I II ) l PER 159.00 159.00 4120 HE I l PG CAL 0.30 .33 0.33
|
||
9532 IS I II ) 1 PER 501.00 501.00 66.63 66.63 4143 HE I X PG CAL 0.50 0.56 0.56
|
||
10830 HE I 1 PER 1480.00 1480.00 155.71 155.71 4200 HE II 1 PG CAL 0.30 0.33 0.33
|
||
PER 73.00 7.54 4267 I I 1 PG CAL 0. 50 0.50 0.55 0.55
|
||
4340 I l A 55. 00 45.62 59.38 49.26
|
||
END IC 5117 IPK NQ. r5_l I. __1 QQX 7S.57X
|
||
l P CAL 55. 45.62 60. 13 49.26
|
||
1 PG CAL 41. 45.62 44.91 49.26
|
||
_i LA _54j —¿3*30 _ • 2_&__
|
||
BEGIN IC 5217 (PK NO. 100 -5 1) 0.25 (HYDROGEN LINES! ORE 45.62 30. 49.26
|
||
PER 40. 45.62 43. 49.26
|
||
WAVE IDENT N RO—B.EÜ- OBS I AVE 0 CORR I AVE C PTP 40. 45.6? -Ai 4.9.26_
|
||
3121 I I 2 PG CAL 1.70 2.23 VV 50. 00 45.62 53. 98 49.26
|
||
3122 III 2 PG CAL 1.70 2.23 (0 III ) A 13. 00 12.08 13. 99 13.00
|
||
3132 LLL_ Xl P-Q_£-A_L- , L6,t0Q- 20,92. 20.92 AN 3Q. JJU .32. 39X
|
||
3187 HE I PG CAL .90 .90 .35 6.35 I P CAL 12.08 12. 13.00
|
||
3203 HE I I 1 PG CAL 4.00 4.00 5. 17 5.17 l PG CAL 12.08 16. 13.00
|
||
3?qq _0 LLL 1 , PG R£—LAL. 1.20— ,.1,.2Q- 3.17 1.52- 1-5? _J LA 12.08 _LLi 13.QQ-.
|
||
3312 0 III CAL 2. 50 1 QRF 5. 5.
|
||
3340 0 III 3 PG CAL 3.60 4.54 1 PTP 10. 12.08 10. 13.00
|
||
3342 (NF III) 3 PG CAL —2 .4. 5.4_ 437.9 _M LUL 1 PG CAL Oj AO— . jQ ■ 4.0— 0. 0.43
|
||
3342 (Cl III) 3 PG CAL 3.60 4.54 4387 HF I 1 PG CAL 1.00 .07 1.07
|
||
3346 (NE V ) l PG CAL 1.00 1.26 4471 HE I 1 A 7.47 .57 7.92
|
||
. 3426 1 NE V ) 3 PG -CAL.. 1.3Q, .!■ 62_ _1 AU -L7 .-QÛX, - 02 X
|
||
3428 NE II 3 PG CAL 1.30 1.62 1 P CAL 7.47 7.92
|
||
3428 C TIT 3 PG CAL 1.30 1.62 l PG CAL 7.47 7.92
|
||
- 34A3 -Q LLL_ ■ ii. Q0_ -6..Q0_ --LA 8- 50 7.47 7.9?
|
||
1 PG CAL 6.00 6.00 7.44 7.44 1 PTP . 54 7.47 7.92
|
||
3650 1 A 7.50 7.50 9.01 9.01 4514 N III 1 PG CAL . 30 0.30 0.32
|
||
. 367.6 1 PG XAI— 0.90 ■ Q.9Q.- . 1.Q8_ —I .08. 4541 HF II -1 P-G.XAL..
|
||
3679 1 PG CAL 0.90 0.90 1.08 1.08 4571 MG I 1 PG CAL .60
|
||
3682 l PG CAL 0.60 0.60 0. 72 0.72 4634 N III 2 A .40
|
||
- 3 686 1 PG . CAJ _Q..9Q_ 1. _UQ1L_ J AW 70- Q
|
||
3691 l PG CAL 1.30 1.30 1.55 1.55 l PG CAL
|
||
3697 1 PG CAL 1.60 1.60 1.91 1.91
|
||
- 3 7Q3 ? PG.-CAL- 2.30 ? - 74
|
||
3705 2 PG CAL 2.30 2.74 1 PG CAL 2.10 2.17
|
||
3711 l PG CAL 2.00 2.00 2.38 2.38 1 AW 7 0 0.83 0.86
|
||
3 721 1 PG CAL - —4^00— -4.00- -A^7A- -? PG CAl
|
||
(0 I I ) l 20.00 23.75 4650 C III 2 PG CAL
|
||
P CAL 39.30 46.67 4657 (EE III) 1 A W7 0
|
||
PG-CAI ?0- 80 ?4.70. 46.59 C U¿ -3 PG_r.AI
|
||
LA 39.30 46.67 4659 (EE III) 3 PG CAL
|
||
LU 2.25* 2. 67* 4659 0 I I 3 PG CAL
|
||
PER . 14.oa- 4685 —HE II -U
|
||
PTP 21.90 A 26.01 A AW7 0 11. 14.45 11. 14.84
|
||
VV 2 25.00 29.69 P CAL 14. 14.45 15. 14.84
|
||
-UJ- -l.QO*— PG XAI -LI.
|
||
3734 l PG CAL 3.00 3.00 3. 56 3.56 LA 14.45 28. 14.84
|
||
3750 1 A 2.90 3.10 3.43 3.67 QRF 14.45 8. 14.84
|
||
1 RG-CAJ— -3.3Q- 3. IQ.. .3.90- -3.61.. —PTE—
|
||
3754 III 1 PG CAL 1.00 1.00 1.18 1.18 4698 i PG CAL .50 0.50 0.51 0.51
|
||
3759 III l PG CAL 1.60 1.60 1.89 1.89 4711 1 A .00 7.00 7. 16 7.16
|
||
3770 1 3.20 3.9-5 3.77 4.66 2 AW7C .40 6. 55
|
||
1 PG CAL 4.70 3.95 5.54 4.66 2 P CAL .30 6.44
|
||
3791 TIT 1 PG CAL 0.40 0.40 0.47 0.47 2 PG CAL 60 5. 73
|
||
3797 , _I _L A -6. IQ,. ,.,6.46.. 4713 HE I AMISL ÁSL.
|
||
l PG CAL 5.80 5.50 6.81 6.46 2 P CAL . 30 ,44
|
||
3820 HF I 1 PG CAL 1.80 1.80 2.10 2.10 2 PG CAL .60 73
|
||
3835 H L_ _J Ä_ 6.00 -6.55- -7. 00- ._7 «64- 4740 IAR IV ) J 4_ .40- 6.47 _53_
|
||
l PG CAL 7.10 .55 8.28 7.64 1 AW70 6.47 6.59
|
||
3862 SI I I l PG CAL 0.40 0.40 0.46 0.46 1 P CAL 6.47 6.59
|
||
- 3.ftA3- _LNE ÎII.1 J â , 98.QQ- 92.27 113.66- 10.7 .,Q2.. 1 PG CAL 6.47 _5.60- 6.59
|
||
96.50 111.93 100. 00 100. 00
|
||
131.00 151.94 100. oox 100. oox
|
||
PER . 59.00 92.27 68.43.. 107.02 -J P CAL LOO. 00100.00 1QQ. £0 1QQ.QQ .
|
||
115.60 92.27 134.08 107.02 1 PG CAL 100. 00100.00 100. 00 100.00
|
||
20.00 20.00 23. 11 23.11 1 COAL 100. 100.00 100. 00 100.00
|
||
P CAL 19.30 22.30 _J LA- 1QQ. QOion.no -LÛQ. ÜQ 1QQ.QQ .
|
||
PG CAL 19.00 21.96 ORE 100. 00100.00 100. 100.00
|
||
LA 131.00 151.39 PER 100. 00100.00 100. 100.00
|
||
3M9 _H£_L_ 2 P CAL 19 »30 22«.3.Q_ PTP 100. 00100.00 100. 100.00
|
||
2 PG CAL 19. 00 21.96 VV 2 100, ,00
|
||
100.00 100. 00
|
||
3 P CAL 40.00 45.71 WYSE 100, 00 A 100. 00 A
|
||
1 PG CAL . Q.8Q _ Q. 8.0- -Q.9-L- Q. 91 HE ..I A W70 L 22 2.16 L. JL1 2.14
|
||
(NE III) 2 A 42.00 47.98 l PG CAL
|
||
CAL 40.00 45.69 l WYSE
|
||
1 PG CAL -29.20 _2 9. 2-0- 33.36 33.36 1 A W7 0 -0.29. 2S_ 0.29
|
||
48.70 55.63 (0 I II ) 1 550. 00 433.01 543. 34
|
||
53.10 60.66 1 AN 313, OOX 309. 21X
|
||
..4Z.QÜ. .47.98- L_ -P-CAl 399. Ü0 413.0-L 39.4. II 427.77..
|
||
3 P CAL 40.00 45.69 COAL 426. 433.01 421, 427.77
|
||
l PG CAL 12.50 14.28 LA 400. 00 433.01 395. 427.77
|
||
—2__ 48.70 55.63 -QBf 438.QQ 433.01 432.70 427.77
|
||
2 VV 2 53. 10 60.66 PER 380. 00 433.01 375. 427.77
|
||
4009 HE I 1 PG CAL 0.30 0.34 VV 2 43 7. 50 433.01 432, 427.77
|
||
..ÍQ26,,., HE.,,I , _A_ 2.00 - 5.30- 2.26 -6*QQ. WYSE -410.cm A, 405.04 A
|
||
1 PG CAL 3.30 5.30 3.74 6.00 1500. 1390.36 1472. 90 1365.23
|
||
l LA 10.60 5.30 12.00 6.00 670. OOX 657. 89 X
|
||
4068 —Li LI—L -2 A_ 1.60 LaJLQ— 1163. HO 1390.36 1141.99- 1365.23-
|
||
1 PG CAL 2.60 2.92 1318. 00 1390.36 1294. 19 1365.23
|
||
4072 (S II ) 1 PTP 3.63 A 4.08 A 1170, 00 1390.36 1148. 86 1365.23
|
||
. 4.016 - (S II -L _2 A_ 1.60 .-BD 1 444. ■390.36 1417. 91 1365.23
|
||
2 P CAL 28.30 31.68 PTP 1200. 00 1390.36 1178. 1365.23
|
||
1 PG CAL 1.70 1.70 1.90 1.90 VV 2 1937. 50 1390.36 1902. 1365.23
|
||
-J. A 28.Q.Q. 26.52 -31.32- 29.67 WYSE 1330. -00- A 1305.
|
||
2 P CAL 28.30 31.66 AW70
|
||
1 PG CAL 26.20 29.31 29.67 WYSE
|
||
IC 5217 (PK NO. 100 -5 l) IC 5217 (PK NO. 100 -5 II
|
||
612
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
JLC 5217 tPK NQ. 1QQ --5_L1 _15 (PK NO. 47<-42 1) C = 0.03 (DUST MODEL)
|
||
WAVE IDENT N RG REF 08S I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I
|
||
5047 HE. I JL AW7Q Q.2Q- 0.20 ..Qm-ZQ— Q-.2Q 3727 (0 II 1 1 KA2 33.00 A 33.69 A
|
||
5159 (FE VIII 1 AW70 0. 19 .19 0. 18 0.18 4686 HE II KA2 35.00 35.00 35.11 35.11
|
||
5161 (FE VIII 1 A W7 0 0.22 0.22 0.21 0.21 4861 H I K A2 100.00 l 00.00 100.00 100.00
|
||
5176 (FE III) 1 A W70 _0..U- 0.12 0. 12 Q»12 4959 (0 III) KA2 300.00 ?flPtOQ 299.56 299,56
|
||
5191 ( AR I III l A W7 0 0. 16 0. 16 0. 15 0.15
|
||
5198 (NI ) 1 AW70 0.25 0.25 0.24 0.24 39 (PK NO. 47 + 42 1)
|
||
5262 1 AW70 0. 17 0.17 0. 16 0.16
|
||
5270 (FE III) 1 AW70 0.30 0.3 0 0.28 0.28
|
||
5314 1 WYSE 3.00 A 2.83 A
|
||
5411 HE I I 1 AW70 1.33 1.33 1.24 -Ui-4 BEGIN A 71 (PK NO. 85+ 41) C = 0.80 (HYDROGEN LINES)
|
||
l WYSE 3.00 A 2.79 A
|
||
5505 l WYSE 3.00 A •2.76 A S I AVE O CORR I
|
||
5517 1 A AE2 0.68* 0.63* -4-861 -Cl¿2 265.00
|
||
100. 0-0 100. 00 251.65
|
||
100.0-0 251.65
|
||
100.00
|
||
A W70 0.81 0.74 4991 (C III) 1 CLZ2 265.00
|
||
5537 (CL III) A AE2 1.00* 0.92* 6563 H I 1 CLZ 2 525.00 525.00 285.30 285.30
|
||
1 AW70 1.02 0.94 6575 _i_N II ) 1 CLZ2 1Q5Q.QP 1Q5Q.QQ 568. 58 568.58
|
||
5577 (0 I 1 WYSE 15.00 A 13.69 A
|
||
5754 (N I I i A W7 0 2.24 2.01 END 71 (PK NO.
|
||
-5813 C TV _1 wy.se. 3.00 A 2.67 A
|
||
1 AW70 16.30 14.93 14.41
|
||
1 ORF 11.00 A 9.72 A
|
||
1 PER 15.QQ 1 4.93 13.26 „BEGIN A _LZ LEK NQ. 97 ±—3 1) , 2.00 (HYDROGEN LINES)
|
||
1 PTP 13. 50 11.93
|
||
1 WYSE 40.00 A 35.35 A
|
||
6 049 -1 WYSE 3.0Q A 2. 6Q. A 4861 -Cl ¿2 IQQ.ag LQÜmQQ LOQ.flC 1ÛQ.QQ
|
||
6066 1 WYSE 3.00 A 2.60 A 4991 (0 I II ) 1 CLZ 2 500.CO 500.00 439.39 439.39
|
||
6194 1 WYSE 2.00 A 1.71 A 6563 H I l CLZ 2 1310.00 1310.00 285.18 285.18
|
||
_6-3-0.fl _LQ I L J WYSE 8.QQ A 6.77 A 6575 (N 11)1 CLZ2 460.OQ 460.QQ 99.26 99.26
|
||
6311 (S III) WYSE 6.00 A 5.07 A
|
||
6346 SI II WYSE 3.00 A 2.53 A 77 (PK NC. 97+ 3 1)
|
||
6363 (PI ) 1 WYSE 4.00 A 3.36—A.
|
||
6493 l WYSE 3.00 A 2.50 A
|
||
6548 (N II ) 1 WYSE 0. 0.0 A 0 A
|
||
6563 LL_ -I J CAJ4 1. 0.83* 1 íPK ND. -13 ^4 1 )
|
||
BEGIN AN QQ.» 1.00 (ESTIMATE)
|
||
1 ORF 384.00 363.00 317.37 300.01
|
||
1 PER 342.00 363.00 282.65 300.01 AVE O CORR I AVE C
|
||
1 PTP 363.QQ 363.QQ 3QQ.Q1 3QQ.Q1 i oo.oo ino.oo loo.oo
|
||
l CAM 0.08* 0.07* 4959 (0 III) VV4 130.00 130.00 123.82 123.82
|
||
l ORF 21.00 A 17.32 A 5007 (0 III) VV4 400.00 400.00 371.80 371.80
|
||
_J PER . 35.00 -2.8. 87
|
||
1 PTP 33.20 27.39 1 (PK NO. 13 -4 1)
|
||
l WYSE 60.00 A 49.50 A
|
||
_i WYSE 380.00 A -3-14.06—
|
||
6621 WYSE 4.00 A 3.29 A
|
||
6644 1 WYSE 5.00 A 4.10 A (PK NO. 14 -5 1) C = 1.00 (ESTIMATE)
|
||
6678 -J WYSE 70.00-A 16.37—A.
|
||
6717 (S I I ) l B AE2 0.51* 0.42* WAVE IDF NT N RG REF OBS I AVE 0 CORR I AVE C
|
||
6723 (S II ) 1 PTP 4. 90 4.00 4861 H I 1 VV4 100.00 ICO.00 100.00 100.00
|
||
6730 LS— J B A E-2- —1..0Qjfe_ —0-^8 2-*— 4656 LG III) J VV4 300.00 BOQ.-QQ - 785.74 785.74
|
||
7065 HE I PTP 7.95 7.95 6.32 6.32 5007 (0 III) 1 VV4 880.00 880.00 817.96 817.96
|
||
7325 (O II ) 1 PTP 10. 70 10.70 8.35 8.35 FNn AN 7 f PK Kifl- 14 -5 II
|
||
1Q83Q HF —I . PER 175.00- 175.00 116.38- 116.38
|
||
10 MU (S IV » 1
|
||
REGir.N K.EY (REGION» RFEFB-ENCE »EXPl AN.AJ.1P.N)-
|
||
AE? , REGIONS A AND B ON DIFFERENT SCALES C = 1.00 (ESTIMATE)
|
||
CAL , PHOTOELECTRIC
|
||
CAL , PHOTOGRAPHIC WAVE IOENT N RG REE OBS I AVE 0 CORR I AVE C
|
||
4861 H I 1 VV4 100.00 1 00.00 100.00 100.00
|
||
1C 5217 (PK NO. 100 -5 1) 4959 (0 III) 1 VV4 370.00 370.00 352.41 352.41
|
||
(0 I II ) 1 VV4 UOQtQfl IZQQtQQ HI5.4Q 1115.4Q
|
||
BEGIN A (PK NO. 131+ 2 1) Q.6Q (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF ORS I AVE 0 CORR I AVE C
|
||
4861 __H I- CLZ2 1QQ.QQ- 1QQ.QQ 1QQ.QQ 1QQ.QQ 30 ( PK NC. C = 0.65 (HYDROGEN t INES)
|
||
4991 (0 I II ) 1 CLZ 2 720.00 720.00 692.62 692.62
|
||
6563 H I 1 CLZ2 450.00 450.00 284.82 284.82 WAVE IOENT N RG REF OBS I CORR I
|
||
.$:>7g (N II ) 1 ÇLZ2 790.00 3726 (0 II ) 1 A41 54 » QQ 84.44 79Q«_Q_Q i_9
|
||
6723 (S II ) l CLZ 2 170.00 170-00 104.21 104.21 AC P 62.30 97.42
|
||
AUV 1.00* 1.56*
|
||
END A 3 ( PK NO. 131+ 2 1) 63.00 98.52
|
||
1 63. 00
|
||
1 54.40
|
||
—3_72?_ _LC II ) _L AUV Q..-46*
|
||
BEGIN A 33 (PK NO. 238+34 1) C = 0.05 (DUST MODEL) 3757 III l 8. 30 8.30 12.81
|
||
3798 I l 3.98 5.39 8. 18
|
||
WAVE IDENT N RG REF OBS AVE O CORR I AVE C L_ —6, 8Q- 5.39 8.18
|
||
CLZ 2 100.00 81.00 100.53 81.43 A4! 5. 50 5.38 .21 3.03
|
||
KA2 62.00 81.00 62.33 81.43 ACP 4.89 5.38 .30 8.03
|
||
4861 CLZ-2 I-Ca.-0-Q- 100.00 100.00 100 _Q -5.14 5.38 .62- 3.03
|
||
KA2 100.00 100.00 100.00 100.00 6. 00 .95
|
||
(0 I II ) l KA2 265.00 265.00 264.36 264.36 (NF III) 3 A41 15. 10 .20
|
||
4991 __LQ Ul) 1 CLZZ - 900.00 897.10 897.10 L_ ACP 12.00
|
||
6563 H I 1 CLZ2 285.00 285.00 274.34 274.34 A41 15.10
|
||
ACP 5.20 . 57
|
||
END A 13 (PK NQ. 238+34 .1) _Q 13. 8Q ,_LQ—
|
||
14.40
|
||
A41 15. 10
|
||
AÇP *_2Q— 7.57
|
||
BEGIN A 36 (PK NO. 318+41 1) C = 0.05 (DUST MODEL) 2 13.80
|
||
2 14.40
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C (NE I II ) 2 12.60 -2.7.81.,
|
||
3868 (NE III) 1 KA2 17.00 17.00 17.51 17.51 ACP 13.20
|
||
4686 HF I I 1 KA2 118.00 1 18.00 118.62 118.62 A41 12.60
|
||
4861 _d I L_ KA_2_. 1QQ..0Q _ 1Q0.-QQ 1Q0.QQ 100.00 ACP 13.2Q
|
||
4959 (C III) 1 KA2 100.00 100.00 12.30
|
||
1.30
|
||
END A 36 (PK NO. 318+41 1) 3970 (NE III) 2 12.30
|
||
I.*30
|
||
1.70
|
||
30 ( PK NO. 64+ 5 1)
|
||
613
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
CN3 -J (PK NQ, 38+12—1) BEGIN HA 1 12 ( PK NO. 356 -3 3) Q.Q (NO CALCULATION>
|
||
HAVE IOENT N RG REF OBS I CORR I WAVE IOENT N RG REF OBS I AVE 0 CORR I
|
||
372$.. -LQ n t _L A_ 181.09 6563 tí I_ -J HE67 l.QQ*A 1.00*A
|
||
A41 102.00 115.44 6584 (N II ) 1 HE67 0.20*A
|
||
SO 1.00* 1. 13*
|
||
VV 111■BQ 126.54- END ÜAJ 39 (PK NO- 356 -3 3)
|
||
3729 II Ï SO -2_ 0.54* 0.61*
|
||
3750 A 4. 70 4.70 5.30
|
||
A4I .60 a_L2
|
||
A 4.70 5.29 41 (PK NO. 356 -4 2) 0.71 (DUST MODEL)
|
||
A4I 4.60 5.18
|
||
3797 A -5.QQ- 4.20 5.6-L 4.71 HAVE IDENT N RG REF QBS 1 AVE Q CQRR 1. -AVE C
|
||
A41 .40 4.20 3.82 4.71 4686 ME II VV4 26.00 26.00 28.01 28.01
|
||
A 8. 10 5.80 9.05 6.48 4861 H I VV4 100.00 100.00 100.00 100.00
|
||
A41 3.50 5.80 3.91 6.48 4959 _LQ UI) VV4 180.00 180.00 173.88 173.
|
||
A 11.00 11.00 12.21 5007 (0 III) 1 VV4 520.00 520.00 .493.70 493.70
|
||
A41 9.00 9.99
|
||
VV 2 -25.90 28.74 END HA 1 41 (PK NO. 356 -4 2)
|
||
3889 A4I 9.00 9.99
|
||
VV 2 25.90 28.74
|
||
-39.6,7- 16.00 19.73 17.6L. 21.72
|
||
A41 12.00 19.73 13.21 21.72 BEGIN HAl 42 (PK NO. 357 -41) C = 3.30 (HYDROGEN LINES)
|
||
VV 2 31.20 19.73 34.34 21.72
|
||
4026 -HE I 2 - 00 2.00 2* -2.19 WAVF IDENT N RG RFF ORS T AVF n CORR T Av F r
|
||
4069 (S II ) A 5. 10 5.55 4340 VV4 22.00 60.44 60.44
|
||
4072 (S II) A41 3.10 3.37 4686 HE II VV4 170.00 240.47 A
|
||
4076 _LS II ) A 5. 10 5.54 4B61 VV4 , loo.no inn.nn inn.nn
|
||
A 26. 00 29.00 28. 19 31.44 4959 (0 III) l VV4 280.00 280.00 238.43 238.43
|
||
A41 21.00 29.00 22.77 31.44 5007 (D Ml ) 1 VV4 790.00 790.00 620.66 620.66
|
||
VV 2 40.00 29.00 4^. 3A 31.44
|
||
A 51.00 47.97 53. 89 50.68 42 (PK NO. 357 -4 1 )
|
||
A41 40.00 47.97 42.27 50.68
|
||
VV 2_ 57.90 47.97 55.90 50.68
|
||
4363 (0 III) VV 2 10.00 A 10.54 A
|
||
4471 HF I 2.70 5.75 2.82 6.00 BEGIN HA 1 44 (PK NO. 358 -3 1 ) C = 0.0 (NO CALCULATION)
|
||
_8.AO .75 . 18 6.00
|
||
4686 HE II 7.60 7.60 7.75 7.75 WAVF IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
4861 H I 100.00 100.00 100.00 100.00 6563 H I I HE6 7 1 •00*A 1 « 00*A
|
||
A4J ion.no i nn.no inn.nn 1-00.00 ■ ■6.584 LN U ) 1 HF6 7 —0.60*A 0.80*A
|
||
0D62 100.00 100.00 100.00 100.00
|
||
VV 2 100.00 100.00 100.00 100.00 44 (PK NO. 358 -3 1)
|
||
4. an 4.80 4.76 4.76
|
||
(0 III ) 16. 10 18.97 15.89 18.72
|
||
0D62 12.60 18.97 12.44 18.72
|
||
VV 7 78. 20 1A.97 ■ 77.A3- 18.72 -BFfilN HA 1 46 ( PK Nfl. 3 58 -4 1 ) C ^ 1.50 (ESTIMATE)
|
||
5411 HE II VV 2 29.40 29.40 27.94 27.94
|
||
5876 HE I VV 2 20.00 20.00 18.30 18.30 WAVE IDENT N RG REF OBS I AVE 0 CCRR I
|
||
6300 —LQ I L VV 2 . 1 8.20 Ift^PO 16^ L3- 1 6.13 —4.340 H T 1 VV4.
|
||
6563 VV 2 576.40 502.49 4861 H I 1 VV4 100.00 100.00 100.00 100.00
|
||
6563 VV 2 576.40 502.49 4959 (0 III) 1 VV4 140.00 140.00 130.14 130.14
|
||
5007 LQ Li T ) 1 VV4 350. 00 350.00 313.65 3X3.65
|
||
(PK NO. 38+12 1)
|
||
46 (PK NO. 358 -4 1)
|
||
1 (PK NO. 290+ 7 1) 0.33 (RADIO—H BETA)
|
||
BEGIN HA 1 kl ( PK NO. -Cun (NO CAI rill ATT DM I
|
||
WAVE IDENT N RG REF OBS I CORR I
|
||
3727 (O II ) 1 AF 31.00 38.89 WAVE IDENT N RG REF OBS I AVE Û CORR I AVE C
|
||
3868 (NE I II ) 1 AF 74.00 90.00 90.00 6563 H I 1 HE67 1.00*A 1.00*A
|
||
3970 H I 2 AF 29.00 34.55 6584 (N II ) 1 HE67 l.00*A 1.00*A
|
||
3970 (NE III ) 2 AF 29.00 34.55
|
||
41Q1 H I 1 Af_ 3.2.00 37. 10 END ÜAJ, 47 (PK NO. 1 ~3 1)
|
||
4340 HI 2 AF 46.50 51.44
|
||
4363 (0 III) 2 AF 46.50 51.22
|
||
4686 HE II 1 HR 29.50 30.54
|
||
1 100.00 100.00 100.00 100.00 49 ( PK NC. 358 -5 2) = 3.30 (HYDROGEN L INES)
|
||
1 100.00 100.00 100.00 100.00
|
||
4959 -IQ III) 1 AF 250.QQ 250^.00 246.01 246.01 AVE O CORR I
|
||
(0 I II ) 1 3869 (NF III) 1 VV4 77.00 543.98
|
||
3889 H I 2 VV4 25.00 168.74
|
||
.END EG- _1 (P* ND. 290+ 7 1) 3889 HF I 2 VV4 25.00 168.74
|
||
4102 H I 1 VV4 16. CO 16. 00 70. 12 70.12
|
||
4340 H I 1 VV4 25.00 25.00 68.68 68.68
|
||
4363 (0 I II ) 1 VV4 14.00 14.00 36.82 36.82
|
||
BEGIN HA 1 7 (PK NO. 345 •11) C = 0.0 (NO CALCULATION) 4645 C III 2 VV4 12.00 A 18.41 A
|
||
4645 N III 2 VV4 12.00 A 18.41 A
|
||
_HAY-E IDFNT N RG REF QBS I AVE Q CQRR I AVE C —4-6.86 HF U 1 VY4 5.00 A 7.07 A
|
||
6563 I 1 HE67 1.00*A 1•00*A 4861 H I 1 VV4 100.00 100.00 100.00 100.00
|
||
6584 (N II ) 1 HE67 0.50*A 0. 50*A 4959 (0 III) 1 VV4 360.00 360.00 306.55 306.55
|
||
_5-QQ7 LO III ) 1 VV4 840.00 840.00 -659.94 659.94
|
||
(PK NO. 345 -1 1)
|
||
49 ( PK NO. 358 -5 2)
|
||
16 (PK NO. 0+42) C = 1.50 (ESTIMATE)
|
||
. BEGIN HA1 54 ( PK NO. —2-T-4 1) C = 1.50 (ESTIMATE)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
5007 (C III) 1 VV3 2.30* 2.06* WAVF IDENT N RG RFF OBS I AVE O CORR I AVE C
|
||
6563 H I 1 VV3 2.90» Q. 92* 4959 (0 III) 1 VV3 6. 50* 6.04*
|
||
5007 III) 1 VV3 8.30* 7.44*
|
||
16 (PK NO. 6563 I l HE6 7 1.00*A 0.32*A
|
||
-1 Y.Y3 LL.2Q* 5.48*
|
||
6584 (N II ) 1 HE67 0.10*A
|
||
BEGIN HA 1 35 (PK NO. 355 -3 3) 2.60 (HYDROGEN LINES) END HAJ 54 (PK NO. 2-41)
|
||
WAVE IDENT N RG REF □ BS I AVE CORR I AVE C
|
||
WO _i m... 16.00 16.00 35.47 35 »47
|
||
4861 H I 1 VV4 100.00 100.00 100.00 100.00 BEGIN HA 1 55 (PK NO. 1-41) C = 0.0 (NO CALCULATION)
|
||
4959 (0 I II ) 1 VV4 140.00 140.00 123.35 123.35
|
||
5007 _LQ IIl-LL VV4 47.Q-._QQ— 47Qj_QQ 388.64 388.64 WAVE IDENT N_ RG REF QBS I AVE 0 CORR I AVF C
|
||
6563 H I 1 HE67 1.00*A 0.14*A 6563 I l HE67 i.00*A 1•00*A
|
||
6584 (N II ) 1 HE67 0.10*A 0. 01*A 6584 II ) l HE6 7 0.80*A 0.80*A
|
||
35 (PK NO. 355 -3 3» 5 5 ( PK NO.
|
||
615
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
PEGIN HAI 63 (PK NO. 2 -6 Zi Q.Q ( HYDROGEN LINE.SJ l_ BEGIN HR -5 (PK N CL 359 -Q 1) G = 1.71 t R AD I fl—H RFTAI
|
||
WAVE IDENT N RG REF OBS I AVE 0 COPR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I
|
||
43^0 H I I VV4 48.00 ^9tQ0. 48.00 48.00 3727 (0 II ) I AK I 16.00 52.53
|
||
4861 H I VV4 100.00 100.00 100.00 100.00 3797 H I 1 AK! 2.90 2.90 8.81 8.81
|
||
4959 (0 III) VV4 120.00 120.00 120.00 120.00 3835 H I 1 AKI 3.30 3.30 9.58 9.58
|
||
5500 (0 III) VV4 270.00 270.00 270.00 270.00 3868 (NE III ) _L AKI 47.00 47.00 _13.1« .131.14
|
||
3889 I AKI 10.20 27.76
|
||
63 ( PK NO. 3889 HE I AKI 10.20 27.76
|
||
3967 (NE III) AKI 15.90 39.94
|
||
3970 H I 2 AKI 15.90 39.83
|
||
4068 (S II) 1 AKI 2.90 2.90 6.54 6.54
|
||
RFGIN HA2 1 (PK NO. 350-»- 4 1) C = 0.0 1NQ CALCULATION) —4076 _LS II—L J
|
||
4101 1 AKI
|
||
AKI
|
||
0.50
|
||
Q« 50... 10.60
|
||
10.60
|
||
1.12
|
||
23.02 ■ 1.12
|
||
23.02
|
||
WAV F IDENT N PG REF OBS I AVE G CORR I AVE C 4340 1 AKI 27. 30 32.65 46.37 55.46
|
||
6563 H I 1 HE67 1.00*A 1.00*A -1 VV4 38.00 32.65 64.55 -55.46-
|
||
6584 (N 11)1 HE67 0.20*A 1 AKI 18.50 15.75 30.71 26.15
|
||
1 VV 4 13.00 15.75 21.58 26.15
|
||
END HA2 1 (PK NO. 350» 4 1) 4471 HE I -1 AKI 3.30 3.30 4.95 4.95
|
||
4541 HE II AKI 2.50 2.50 3.49
|
||
4640 N III AKI 6.90 6.90 8.68
|
||
4686 HE II . —A.Kl. . .58^00 71.50 85.76
|
||
REGIN HA2 35 (PK NO. 356 -5 1) 0.0 (NO CALCULATION) l VV4 85.00 71.50 101.95 85.76
|
||
4711 (AR IV 1 1 AKI 9. 30 9.30 10.86 10.86
|
||
CORR I 4711 HE I .2 AKI -3L.3H.. 10-86
|
||
3727 (P I I ) l 3.80B 3. 808 4713 (AR IV ) AKI 9.30 10.84
|
||
3868 (NF III) 1 5.40B 5.408 4726 (NE IV ) 1 AKI 5.30 6.09
|
||
3967 (NE HD 2 2*2Q3-.. 2,208 . 4740 I AR IV 1 J AKJ , 22-00 24.91
|
||
3970 I 2.20B 2.208 1 AKI 100.00 100.00 100.00 100.00
|
||
4101 I 2. 50B 2. 508 1 0D63 100.00 100.00 100.00 100.00
|
||
4340 _Ü I— 6.2QR 6,20R -J 1nn.no inn.no i nn-nn
|
||
4363 (D 111)1 RM 0. 0.0 1 AKI 715.00 647.50 657.23 595.18
|
||
4861 H T 1 RM 10.00B 10.00B 1 VV4 580.00 647.50 533.13 595.18
|
||
4959 (0 I II ) 1 RM 3 1,00.8. 31,008 . _J nn63 1410.00 1 555.00 1242.49 1370.26
|
||
5007 (P HT) 1 PM 120.OOB 120.008 1 VV4 1700.00 1555.00 1498.03 1370.26
|
||
6548 (N II ) 1 RM 17.00B 17.008 6300 (0 I 1 VV4 92.00 92.00 28.86 28.86
|
||
6563 H I 1 RM 40.OOB 40.OOB 6563 H L -2 VV4 4230^00- 1131.29
|
||
(N 11)1
|
||
_3_5 ( PK NO. —356 -5 1) < PK NO. 359 -0 1 >
|
||
|
||
BEGIN HA2 38 (PK NO. C = 1.50 (ESTIMATE) BEGIN HR (PK NO. C = 1.63 (RADIO-H BETA)
|
||
N PG REF AVE C CQRR.I AVE C
|
||
5007 (0 I II ) VV3 3. 10* 2. 78* 3727 (C II ) 1 VV4 40.00 122.61
|
||
6563 VV3 35.00* 11. 15* 3889 VV4 31.00 A 79.61 A
|
||
3 8 ( PK NO. 3970 (NEIII) 2 VV4 21.00 49. 88
|
||
4102 H I 1 VV4 14.00 14.00 29.05 29.05
|
||
4340 H I I VV4 30.00 30.00 49.42 49.42
|
||
4686 HEII VV4 25.00 25.00 29.67 29.67
|
||
43 (PK NO. 11 -9 1) C = 0.0 (NO CALCULATION) 4861 I VV4 100.00 100.00 100.00 100.00
|
||
4.Q5Q im i
|
||
WAVE IDENT- N PG REF DBS I AVE 0 CORR I 2 VV 5 27.00* 24.94*
|
||
6563 H I 1 HE67 1.00*A 1.00*A (P I 11 )
|
||
1 VV4 650.00 650.00 576.98
|
||
65B.4 LN I I ) I HF67 i .nota i.nn*A y v5 27.QQ* . 21^97.^.
|
||
1 VV 3 28.00* .08*
|
||
48 ( PK NO. 2 VV4 870.00 251. 11
|
||
2 VV5 37.00* 10.68*
|
||
(N II ) 2 VV4 870.00 251.11
|
||
VV5 37.00* 10.68*
|
||
BEGIN HA4 1 (PK NO. 49+88 1) 0.14 (HYDROGEN LINES) 6723 (S 11)1 VV? 2, QQ* Q.53*
|
||
6730 (S II ) l VV3 2.00* 0.53*
|
||
WAVE OBS I AVE 0 CORR I AVE C
|
||
3426 1.80 1.80 2.03 ■ ■2.-.02- END _6 (PK NQ, 7» 1 1)
|
||
3444 4. 40 4.96
|
||
3727 240.00 264.24
|
||
3869 8. 10 8. 80 8.80
|
||
3889 H I M I 69 30. 10 32. 64 7 (PK NO. 3-14 1) C = 1.33 (HYDROGEN LINES) \
|
||
3889 HE I MI69 30. 10 32.64
|
||
4102- —H I_ 1 MI 69 27.4Q 25.25 79. 1 7 WAVE IDENT N RG REF OBS I AVE Q ÇQRR I AVE C
|
||
MI 7 3 23.10 25.25 24. 59 26.88 3868 III ) 2 31.80 69.99
|
||
4340 1 M16 9 52.90 48.20 55.22 50.31 3889 I 2 LA 31.80 68.65
|
||
1 M I 73 4 3.’ 50 48.20 45.41 50.31 3967 III) 2 LA 20.00 40.61
|
||
4363 (Q III I 1 MI69 12.80 12.80 13.34 13.34 3970 T 2 LA 20.00 40. 51
|
||
4471 HE I 1 MI 69 5.60 5.60 5. 79 5.79 4101 I 1 LA 10.40 10.40 18. 88 18.88
|
||
4686 HF II i 10.40
|
||
MIOS 100.00 1Q.4Q 1Q.55- 1Q.55- 4340 £_ J 1 LA- 39.80 39.80 59.81 59.81
|
||
1 MI 69 100.00 100.00 100.00 4363 (O I II ) 1 LA 12.30 12.30 18.16 18.16
|
||
1 MI 73 100.00 100.00 100.00 100.00 4861 HI 1 LA 100.00 100.00 100.00 100.00
|
||
1 M I 6 9 213.Q.Q- ¿11.55. 211.55 . 4959 LQ III) 1 LA- 24Q.QQ 240.00 224-95 224.95
|
||
5007 (0 III) M 169 669.00 669.00 662. 19 662.19 (0 IIDl
|
||
5876 HE I l M I 69 15. 70 15.70 14. 65 14.65
|
||
6548 (N II) 1 MI 6 9 37.00 37.00 33.28 33.28 ENP hr_ ..(.PK NO.. 3-14 1)
|
||
h i 1 MI 69 298.00 296.00 267.83 266.04
|
||
l M I 73 294.00 296.00 264.24 266.04
|
||
_LN Il ) 1 M 16 9 12Q.« Q.Q— 12Q.0Q 107a74 1Q7.74
|
||
BEGIN HB 12 (PK NO. Ill -2 1) 0.98 (HYDROGEN L INES)
|
||
1 (PK ND. 49+88 l)
|
||
WAVE _lüfJH M RQ REF DBS I AVE Q COFR I AVE C
|
||
3634 l PG AKI 0.80 0.80 1.65 1.65
|
||
3669 l PG AKI 0. 70 0.70 1.42 L .42
|
||
BEGIN HB _4 (PK NQ. 3t 2 1) C = 1.52 (RADin-H RETA1 3671 _ü L_ -L.P.G. AKI. Q.6Q Q.6Q 1.22 1.22-
|
||
3673 I l PG AKI 0.80 0.80 1.62 1.62
|
||
IDENT N RG REF DBS I AVE 0 CORR I AVE C 3676 I 1 PG AKI 0.90 0.90 1.82 1.82
|
||
4861 —H I_ 1 0D63 IQQ.Qfl 1QQ.QQ 100.00 1QQ.QQ 3629- _ü I_ 1 PG AKI 1-00 1.00 2.02 2.Q2_
|
||
4959 (o uni VV3 7.70* 7.15* 3682 1 PG AKI 1.00 1.00 2.01 2.01
|
||
5007 (0 111)1 0D63 912.00 912.00 816.08 816.08 3687 l PG AKI 1.20 1.20 2.41 2.41
|
||
L- VY-3 19.00* LLlQÛ* 3692 . 1. PG aki 1.5Q 1.5Q 3.Q1 3.Q1
|
||
6563 VV3 51.00* 16.01* 3697 H I 1 PG AKI 1.90 3.80
|
||
6730 (S II ) 1 VV3 2. 60* 0.75* 3703 H I 2 PG AKI 2.20 4.38
|
||
3703 ..HE. .L 2 PG AKI 2.20 4.38
|
||
3+ 2 1) 3712 1 PG AKI 2.40 4.75
|
||
3722 2 PG AKI 6.50 12.79
|
||
12 ( PK NO. 111-2 1)
|
||
616
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
12 CPK NO. Ill -2 II __L8 1PK NH. ?TK -3 1)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
3722 ( s mi 2 PG AKI 6.50 12.79 -3.970 , _H I __2 JEC 12.00 A
|
||
(0 II ) 1 10.00 19.62 4101 1 JEC 3.00 A 4.47 A
|
||
l PE AKI 8.50 16.68 4340 l JEC 20.00 A 26.27 A
|
||
1 PG AKI 4.50 8.83 4861 _L JEC .00 A .QQ-A-
|
||
l VV 2 9.00X 17. 66X 100.00 100.00 100.00 100.00
|
||
3729 (0 II 1 1 PG AKI 1.50 2.94 4959 (0 III ) 1 JEC 20.00 A 19.15 A
|
||
3734 __±) I 4.80 4.10- ■-9>37_ .5007 10 III > 1 JEC -30.00 A 28.11 A
|
||
1 PG AKI 3.40 4.10 6.64 8.00 1660.00 1660.00 1555.43 1555.43
|
||
1 A 4.00 4.15 7.73 8.02
|
||
1 PG AKI 4,30 4.15 8.31 8.02 END HE2 18 CPK NO. 273 -3 It
|
||
3770 4. 10 4.50 7.82 8.59
|
||
1 PG AKI 4.90 4.50 9.35 8.59
|
||
3 7_9_7_ _11 PG AKI
|
||
A— t.9JL 5.40 9. 19 10.13-
|
||
5.90 5.40 11.07 10.13 26 (PK NO. 278 -61) C = 0.50 CRADIO-H BETA)
|
||
3819 HE I 1 PG AKI 1.60 1.60 2.96 2.96
|
||
3835 _H I 6.00 6.85 10.97 12.53 -MAVE IDENT N RG REF OBS I —AVE Q CQFR I AVE C
|
||
l PG AKI 7.70 6.85 14.08 12.53 4861 I l WR 100.00 100.00 100.00 100.00
|
||
l A 45.00 39.37 80.47 70.40 5007 (0 I II ) 1 WR 1290.00 1290.00 1243.70 1243.70
|
||
I PE AKI 42.10 3^.37 75.29 70.40
|
||
1 PG AKI 31.00 39.37 55.44 70.40 HE2 26 (PK NO. 278 -6 1)
|
||
1 11.00 11.00 19.39 19.39
|
||
2 PE akj_ •-IQ- 12.52
|
||
2 PG AKI 12.10 21.33
|
||
2 PE AKI 7. 10 12.52 28 (PK NO. 275 -21) C = 0.96 (DUST MODEL)
|
||
3967 2 Pf. AKI 1?.10 ■ 21.33..-
|
||
WAVF IDENT N RG REF OBS I
|
||
(NE III) 2 A 28.00 47.18 AVE 0 CORR I AVE C
|
||
1 PG AKI 19.30 32.52 4861 H' I 1 WB 100.00 100.00 100.00 100.00
|
||
3967 __h L_ 2 28.00 47.18- -5.0.0 7 , _LQ MW AI bLS 1660.00 1660.00 .1547.49 1547.49
|
||
2 PE AKI 31.10 52.41
|
||
1 PG AKI 16. 50 27.80 28 (PK NO. 275 -2 1)
|
||
397.Q- (NE III) 2 PE AKI 31.10- 52.32
|
||
4009 HE I 1 PG AKI 0. 10 0.10 0. 16 0.16
|
||
4026 HE I 1 PG AKI 3. 10 3.10 5.04 5.04
|
||
4068 _LS II ) 1 PG AK.I— 1.40 1.40 2.22- 2.22 BFOTN HF 7 2j9 ( PK NO. 775 -7 7 1 0.97 (DUST MOOFt )
|
||
4076 II ) 0.50 0.50 0. 79 0.79
|
||
4101 I 17.00 18.50 26.38 28.71 OBS I
|
||
1 8-40 1 8.50 74.33_ 100.00
|
||
l PG AKI 19.60 18.50 30.42 28.71 5007 (0 III) 1 WB 186.00 186.00 173.90 173.90
|
||
4144 HE I l PG AKI 0.40 0.40 0.60 0.60
|
||
4267 _C U_ 1 PG AKI 0.40 —0.40- 0. 56 . -F-ND bL£2 29 t PK NO. 2 Z5—--2- 2)
|
||
36.00 48.60
|
||
2 PE AKI 26.00 35.10
|
||
■ I PG AK I— 31.00 41.85
|
||
1 60.00X 81.00X 36 ( PK NO. 279 -3 l) 1.50 (ESTIMATE)
|
||
(0 III) 1 22.00 29.32
|
||
7 PF AKI 7A. nr> R4-h*
|
||
l PG AKI 22.00 22.00 29.32 29.32 46 86 HF I I l 100.00 100.00 117.07 117.07
|
||
4387 HE I 1 PG AKI 0.80 0. 80 1.05 1.05 4861 H T l 100.00 ICO.00 100.00 100.00
|
||
4471 HF I _) A_ 7.40 7. 1 5 —9.31 8.-9.9 -5-007 -ID T 11 ) 1 -l-LSO.OO 1150.PC 1 030. 56 1030.56
|
||
1 PG AKI 6.90 8.68
|
||
4711 (AR IV ) 2 PG AKI 1.10 1.20 36 (PK NO. 279 -3 1)
|
||
4713 HF I 2 PG AKI- . 10 1-70
|
||
1 A 100.00 100.00 100.00 100.00
|
||
1 PE AKI 100.00 100.00 100.00 100.00
|
||
1 PG AKI IQQ.Qfl- 1QQ.Q0 1QQ.QQ- 1QQ.QQ RFOTN HF? 3Q (PK ND. 7R3 -4 1 > r = n.n (no cai mi attdni
|
||
1 0D6 3 100.00 100.00 100.00 100.00
|
||
1 VV 2 100.OOX 100.OOX WAVE IDFNT N RG REF ORS I CORR I
|
||
4921 HE II l PG AKI 2.50 2.50 2.43 2.43 3727 (O II ) 1 JEC 50.00 A 50.00 A
|
||
4959 (0 III) 1 A 130.00 149.33 123.94 142.37 3868 (NE I II ) 1 JEC 25.00 A 25.00 A
|
||
l PE AKI 140.00 149.33 133.48 142.37 3967 (NE I II) 2 JEC 5.00 A 5.00 A
|
||
1 PG AKI 178^00- 149.33 169.70 142,. 31 —3970 Ü I 2 JEC 5. 00 A 5.00 A
|
||
1 VV 2 125.OOX 119. 17X 4340 l JEC 10.00 10.00
|
||
(0 III) 1 A 310.00 348.00 288.57 323.94 4959 (0 I 11 ) l JEC 16.00 A 16.00
|
||
1 PE AKI . 459t-QP_ ?48tOQ 427t 27 323.94 5007 (0 I I I ) 1 JEC -SQtQQ A 50.QQ A
|
||
l 0D63 275.00 255.99
|
||
l VV 2 220.OOX 204.79X 39 (PK NO. 283 -4 1)
|
||
_2 VV—2 250.QQ 118.44
|
||
(N II ) 2
|
||
REGION KEY (REG ION.REFERENCE.EX PLANAT ION) BEGIN HE2 47 ( PK NO. 285 -2 1) Q.O (NO CALCULATION)
|
||
PE, AKI , PHOTOELECTRIC OBSERVATIONS
|
||
PG. AKI , PHOTOGRAPHIC OBSERVATIONS WAVE IDENT N PG REF ORS I AVE 0 CORR I
|
||
6563 H I I HE67 I.00*A 1.00*A
|
||
12 (PK NO. Ill -2 1) 6584 (N II ) L HE67 l.CO*A
|
||
END HE 2 47 (PK NO. 285 -2 1)
|
||
(PK NO. 264 -81) C = 0.49 (RADIO-H BETA)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 50 (PK NO. 283+ 31) C = 0.0 (NO CALCULATION)
|
||
3727 (O II ) 1 LK 105.00 147.04
|
||
3868 (NE I II ) 1 LK 123.00 123.00 164,49 164.49
|
||
3969 (NE III) 2 67.50 87.57 3727 (O II ) l JEC 350.00 350.00 A
|
||
3969 H I 2 LK 67.50 87.57 3868 (NE III) l JEC 180.00 180.00 A
|
||
4101 __ü I L_ LK 24.J5JL 24.50. 30.52 3889 H I 2 JEC 10.00 10.00 A
|
||
4340 HI I LK 52.30 52.30 60.77 60.77 3889 HF I 2 JEC 10.00 A 10.00
|
||
4861 HI I LK 100.00 100.00 100.00 100.00 3967 (NF I III 2 JEC 100.00 A 100.00 A
|
||
.4959 to. lili 1 LK_ 657.00 657.00 641.51 641.51 3970 H I 2 1QQ.QQ A 100.00 A
|
||
5007 (0 III) 1 LK 1210.00 1210.00 1167.42 1167.42 4101 H I JEC 50.00 50.00 A
|
||
4340 H I JEC 150.CO A 150.00 A
|
||
-END ÜL2 I (PK NO. ¿64 -..8. li 4686 he n J.E£_ jU-QO.A-
|
||
4861 I 1 JEC 100.00 100.00 A
|
||
4959 III) 1 JEC 200.00 A 200.00 A
|
||
_5Q07 111)1 JEC 350.00 A 35.Q.QQ A
|
||
(PK NO. 273 -31) C = 0.89 (OUST MODEL)
|
||
50 (PK NO. 283+ 3 1)
|
||
WAVE IDENT
|
||
3727 (0 II ) 1 JEC 100.00 A 184.34 A
|
||
3868 (NE III) 1 JEC 25.00 A 42.38 A
|
||
-3889.. H I 2_ JEC l.QQ- A 1.67 A
|
||
3889 HE I JEC 1.00 1.67
|
||
3967 (NE III) JEC 12.00 19.27
|
||
18 (PK NO. 273 -3 1)
|
||
617
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
HE2 111 (PK NO. 315 -0 1) BEGIN HE2 123 <PK NO. 323» 2 1> 2.43 (HYDROGEN L INES)
|
||
WAVE IOENT N RG REF OBS I CORR I WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4686 HE II I JEC 40.00 A 45.42 A 4340 H .._I _L WB -22* 00 22.00 46.30 46.3Q
|
||
4861 I 1 JEC 5.00 A 5.00 A 4861 H I 1 WB 100.00 100.00 100.00 100.00
|
||
4959 (0 III) l JEC 30.00 A 28.28 A 5007 (0 III) 1 WB 190.00 190.00 159.07 159.07
|
||
5007 (0 III) 1 JEC 100.00 A 91.53 A
|
||
HE2 123 iPK NO. 323+ 2 l)
|
||
HE2 111 (PK NO. 315 -0 1)
|
||
BEGIN HE2 125 (PK NO. 324+ 2 1) C = 1.66 (HYDROGEN LINES)
|
||
BEGIN HE2 LL3 ( PK NO. 320+ 4 1) 0.0 (HYDROGEN.LINES) IOENT N RG REF
|
||
WAVE OBS I AVE 0 CORR I AVE C
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C 4340 H I l WB 28.00 28.00 46.55 46.55
|
||
4340 H I 1 WB 78.00 78. 0(J 78.00 78.00 4861 H I 1 WB 100.00 100.00 100.00 100.00
|
||
4861 H I 1 WB 100.00 100.00 100.00 100.00
|
||
6563 H I 1 HE67 1•00*A 1•00*A HE 2 125 (PK NO. 324+ 2 1)
|
||
. 6584_ _LN II ) 1 HE67 0. 8Q*A 0.8Q»A
|
||
HE2 113 (PK NO. 320+ 4 1)
|
||
BEGIN HE-2 121 ( PK NO. ,325t 4 2) 1.23 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF ORS I AVE 0 CORR I AVE C
|
||
BEGIN HE2 114 (PK NO. 318 -21) C = 0.0 (NO CALCULATION) 4340 Fl I 1 WB 32.00 32.00 46.64 46.64
|
||
4363 (0 III) 1 29.00 29.00 41. 58 41.58
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4686 HE I I l 47.60 47.60 54.17 54.17
|
||
3727 ID LL_ J_J JEC— 100-00 A 1Q0.QQ A 4861 1QQ.QQ i on.on i on.on i on.no
|
||
RM 0.0 B 0.0 B 5007 (0 III) l WB 110.00 110.00 100.54 100.54
|
||
(NE III) I JEC 25.00 A 25.00 A
|
||
3883- JEC 0-75 A 0-75 A END HE ? 177 I PK MPI. U ?1
|
||
3889 HE I JEC 0.25 0.25
|
||
3967 (NE III ) 2 JEC 3.00 A 3.00 A
|
||
3970 _H I ■ipr 3. QQ A 3.00 A
|
||
4101 1 JEC 1.00 A 1.00 A BEGIN HF2 128 (PK NO. 325+ 41) C = 1.04 (HYDROGEN LINES)
|
||
4340 1 JEC 20.00 A 20.00 A
|
||
486I_ _J JEC 3.QQ A 3.QQ A TDENT N RO REF OBS I
|
||
1 RM 10.00 A 10.00 A 4340 34.00 34.00 46.75 46.75
|
||
1)1 JEC 14.00 A 14.00 A 4861 1 WB 100.00 100.00 100.00 100.00
|
||
1 RH 24-0QB 24.QQB -5007 T) 1 WB 120.00 170.00 U 1^2-1 1-11.21
|
||
1) 1 JEC 35.00 A 35.00 A 6563 I 1 HE67 1.00*A 0.45*A
|
||
l RM 76.00B 76.OOB 6584 II ) 1 HE67 0.20*A 0.09+A
|
||
5876 HE I 1Q-OOB 10-QQ B
|
||
6300 (0 I ) 1 12.00 A 12.00 A (PK NO. 325+ 4 1)
|
||
6363 (0 I ) l 0.0 R 0.0 B
|
||
6548 _LN LI Aft- nnR
|
||
6563 I 1 RM 90.OOB 90.OOB
|
||
6584 II ) 1 RM 190.OOB 190.OOB BEGIN HE2 129 (PK NO. 325+ 3 1) 1.33 (HYDROGEN L INES)
|
||
HE2 114 (PK NO. 318 -2 l) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4340 H I 1 WB 31.00 31.00 46.59 46.59
|
||
4861 H I _1 Mfi 100.00 icn.on 1 00.00 1 00.00
|
||
5007 (0 III) 1 WB 135.00 135.00
|
||
BEGIN HE2 115 (PK NO. 321+ 2 1)' C = 1.54 (HYDROGEN LINES)
|
||
END HE 2 129 1 PK NO- 325+ 3 11
|
||
WAVE IDENT OBS I AVE 0 CORR I AVE C
|
||
4340 H I 29.00 29.00 46.47 46.47
|
||
..486.1- 1QQ.QQ- i nn.no 100-00 100.00
|
||
5007 (0 III) l WB 479.00 479.00 428.00 428.00 BEGIN HE2 131 (PK NO. 315-13 1) C = 0.36 (PADIO-H BETA)
|
||
END HE 2 115 (PK NO. 321+ 2 1) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
^Sól HI 1 WB 100.00 100.00 100.00 100.00
|
||
5007 (0 III) l WB 13.00 t 13.00 12.66 12.66
|
||
BEGIN HE2 117 (PK NO. 321+ 2 2) C = 3.08 (HYDROGEN LINES) HE 2 131 (PK NO. 315-13 1)
|
||
IDENT N RG REF QES AVE 0 CORR I AVE C
|
||
4340 1 WB 18.00-L- 18.00 46.23 46.23
|
||
4861 H I 1 100.00 100.00 100.00 100.00 BEGIN HE 2 132 (PK NO. 323 -2 1 ) C = 0.13 (HYDROGEN LINES)
|
||
5007 (0 III ) 1 795.00 795.00 634.71 634.71
|
||
6563 H I 1 HE6 7 l.OO+A 0.10*A WAVE IDENT N RG REF OBS 1 AVE O CORR I AVE C
|
||
6584 (N II ) l HE67 0.20*A 0.02*A 4340 HI 1 WB 45.00 45.00 46.83 46.83
|
||
4861 HI 1 WB 100.00 100.00 ICO.00 100.00
|
||
HE2 117 (PK NO. 321+ 2 2) 5007 (0 III) l WB 760.00 760.00 752.81 752.81
|
||
END HE 2 132 (PK NO. 323 •2 1)
|
||
BEGIN HE2 118 (PK NO. 327+13 1) 0.28 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C BEGIN HE2 133 (PK NO. 324 -1 1) 0.44 (HYDROGEN LINES)
|
||
4340 H I 1 WB 43.00 43.00 46.85 46.85
|
||
4861 H I 1 WB _LQ& 00 100.00 100.00 100.00 N RG REF O&S I AVE 0 CORR I AVE C
|
||
5007 (0 III) 1 WB 1170.00 1170.00 1146.29 1146.29 4340 HI 1 WB 41.00 41.00 46.91 46.91
|
||
4861 HI 1 WB 100.00 100.00 100.00 100.00*
|
||
END HE2 118 (PK NO. 327 + 13 1) 5007 (O I II ) 1 WB 135.00 135.00 130.73 130.73
|
||
HE2 133 (PK NO. 324 -1 l)
|
||
BEGIN HE2 119 (PK NO. 317 -51) C = 0.0 (NO CALCULATION)
|
||
WAVE- IDENT N RG REF OBS I AVE Q CQRE—I. —AVE C BEGIN HE-2 124 ( PK NO. 319 -9 1) 0.15 (RADIO-H BETA)
|
||
3727 (0 II ) 1 JEC 100.00 A 100.00 A
|
||
3868 (NE III) 1 JEC 40.00 A 40.00 A WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3882. _tí I 2_ JEC 1.QQ—A_ 1-00 A 4340 HI 1 WB 39.00 39.00 40.83 40.83
|
||
3889 HE I 2 JEC 1.00 A 1.00 4861 HI 1 WB 100.00 ICO.00 100.00
|
||
3967 (NE III) 2 JEC 15.00 A 15.00 A
|
||
3970 H I 2 J.EÇ- 15.00 A 15.00 A END HF2 134 (PK NO. 319 -9 1)
|
||
4101 HI 1 JEC 8.00 8.00 A
|
||
4340 HI 1 JEC 35.00 A 35.00 A
|
||
4686 HE IT 1 JEC 1-QQ A 1.QQ A
|
||
4861 HI 1 JEC 15.00 A 15.00 A BEGIN HE2 136 (PK NO. 322 0.75 (RADIO-H BETA)
|
||
4959 (0 III) 1 JEC 20.00 A 20.00 A
|
||
5001 LQ HD 1 JEC 80.00 A 9Q.0Q A —WAVE IDEM! N RG REF OBS I
|
||
4340 38.00 38.00 47.81 47.81
|
||
HE2 119 (PK NO. 317 -5 1) 4861 100.00 100.00 100.00 100.00
|
||
HE2 136 (PK NO. 322 -6 1 )
|
||
619
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
- HE2 136 (PK NO. 322 -6 1) „BEGIN HF.2 UÜ, LPK__NO, 326 -6 1) C = 0.58 (RADIO-H BETA1
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE.C WAVE IDENT N RG REF OBS I AVE 0 CORR I
|
||
5007 (Q III) 1 WB 1260.00 ■12J&Q.« ÍLQ 1192.77 1192^77 4340 H I -J W9 38.00 38.00
|
||
4861 H I 1 WB 100.00 100.00 -^>,■3.9-
|
||
100.00 ^i39
|
||
HE2 136 (PK NO. 322 -6 1) 6563 H I I HE67 1.00*A 0.64*A
|
||
. 8394 JLN II ) 1 HE67 a*IQ*a Q« Q6*A...
|
||
HE 2 151 IPK NO. 326 -6 1)
|
||
8EGIN HE2 L2J I PK -MO. 320,^9 1) C = Q.Z3. (PAD1Q-H BETA1
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4340 H I 1 WB 31.00 31.Q.Q- . 33..¿6 3-3.» 26.. BEGIN HE2 L52 ( PK NO. 333+ 1 1 ) —3.Q8 (HYDROGEN LINES)
|
||
4861 HI 1 WB 100.00 100.00 100.00 100.00
|
||
WAVE IDENT N RG REF OBS I AVE O AVE C
|
||
END HE2 138 ( PK NO. 320 -9 11 4340 H I _1 WB. U-ß.t-QQ 18.00 -4.6 t 23. .4.6.« 23—
|
||
4363 (O 111)1 8.55 8.55 21.08 21.08
|
||
4686 HE II 1 WB 83.40 83.40 115.28 115.28
|
||
-4861 H I 1 Hü_ 1QQ.QQ U3.Q.QQ 100.00 100.00
|
||
BEGIN HF 2 140 (PK NO. 327 -1 2» C = 2.01 (HYDROGEN LINES) 5007 (0 III ) i WB 955.00 955.00 762.45 762.45
|
||
6563 H I 1 HE67 1.00*A 0.10*A
|
||
WAVE . IDENT N RG REF QBS L. ..AVE.-Q CQRR I AVE C 6384 -iiü LL-i-l HE67 l.2Q*A 0. 11 *A
|
||
4340 H I 25.00 25.00 46.27 46.27
|
||
4061 H I 100.00 100.00 100.00 100.00 HE 2 152 (PK NO. 333+ 1 1)
|
||
65.63 hi I— HE67— 1. QQ*A Q«-22*A
|
||
6584 (N II ) l HE67 0.80*A
|
||
END ÜE2 UlO IPK NO. 121—\ 2) -BEGIN HE2 151 ( PK NO. 330 -2 1) ■0.59 (HYDROGEN (INFS)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3727 LQ II ) 1 J EC 1QQ.0Q A -15Q.QQ A
|
||
BEGIN HE2 141 ( PK NO. 325 -4 1» C = 0.84 (RADIO-H BETA) 3868 (NE III) 1 J EC 25.00 A 35.48 A
|
||
4340 H I I J EC 10.00 A 11.98 A
|
||
HAVE IDENT N RG REF DBS I AVE Q CURB I AVE C
|
||
4340 H I 52.00 52.00 67.25 67.25 4861 H I 1 WB 100.00 100.00 100.00 100.00
|
||
4363 (0 III) WB 18.00 18.00 23.02 23.02 4959 (0 III) 1 J EC 15.00 A 14.58 A
|
||
468.6 HE II W3_ 41. ZD..- 41.70 45.55 45.55 5 007 _m un i WB 831.00 831.00 795.97 795.97
|
||
4861 H I 1 100.00 100.00 100.00 100.00
|
||
5007 m in » i 1380.00 1380.00 1297.80 1297.80 END HE2 153 (PK NO. 330 -2 1)
|
||
HE2 141 (PK NO. 325 -4 1)
|
||
RFGIN HF? L5-5 LPK NO. 3.3B+ 5 1 ) f. = 0.68 ( H YDfiDGE N l rNFÇl
|
||
BEGIN HF2 142 (PK NO. 327 -2 1) 1.52 (RADIO-H BETA) WAVE IDENT N RG REF OBS I CORR I
|
||
3727 LQ II » J JAC- 60.00 A 95.74 A
|
||
WAVE ID N RG REF OBS I AVE 0 CORR I AVE C 3835 J EC 0.25 0.38 A
|
||
4340 H l WB 30.00 30.00 47.78 47.78 3868 (NE III) J EC 120.00 A 179.62 A
|
||
486J H_ _1 H-8 100.00 100.00 1 00.00 100.00 3889 ti I - J EC. 30.00 A
|
||
6563 H I l HE6 7 l.00*A 0.31*A 3889 HE I JEC 30.00 A 44.46 A
|
||
6584 (N II ) 1 HE67 0.80*A 0.25*A 3967 (NE III) J EC 60.00 A 86.18 A
|
||
-3370 H I JEC
|
||
HE 2 142 (PK NO. 327 -2 1) 4101 JEC 50.00 A 67.82 A
|
||
4340 JEC 100.00 A 123.15 A
|
||
4471 HE I JEC 0.25 A 0.29
|
||
BEGIN HF 2 143 (PK NO. 327 -1 1) 0.43 (HYDROGEN L INES) 4861 H I JEC 100.00 A 100.00
|
||
WB I no. on i no.nn
|
||
WAVE N RG REF OBS I AVE 0 CORR I AVE C 4959 (0 III ) JEC 170.00 A 164.46 A
|
||
4340 l WB 41.00 41.00 46. 77 46.77 5007 (0 III) JEC 300.00 A 285.45 A
|
||
4861 100.00 100.00 100.00 100.00 WB 1020.00 1020.00 970.53 970.53
|
||
5007 (0 I II ) 1 1820.00 1820.00 1763.68 1763.68
|
||
END HE 2 155 (PK NO. 338+ 5 1)
|
||
end HF? 143 (PK NO. 327 -1 1)
|
||
BEGIN HE2 156 LEUJíQ.« . 3.38+ 5 2) —Q.Q (HYDROGEN LINES)
|
||
BEGIN HE 2 145 (PK NO. 331+ 0 1) C = 0.0 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C -4-34.0 H I _1 WB 69.00 69.QQ _J>9. QQ 6,9. QQ
|
||
4340 49.00 49.00 49.00 49.00 4861 HI 1 WB 100.00 100.00 100.00 100.00
|
||
4861 100.00 100.00 100.00 100.00
|
||
5007 1350.00 1350.00 1350.00 1350.00 -END HE2 L5¿ ( PK NO. 338+ 5 ?)
|
||
HF2 145 (PK NO. 331+ 0 l)
|
||
BEGIN HE2 157 (PK NO. 331 -2 1) C = 0.0 (NO CALCULATION)
|
||
BEGIN HE2 146 ( PK NO. 328 -2 1) C = 1.21 (DUST MODEL) . WAVE IDENT N RG REF OBS I AVE O CORR I AVF C.
|
||
6563 I 1 HE67 1•00*A 1.00*A
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I 6584 II ) 1 HE67 0.50*A 0.50*A
|
||
3727 (D II ) 1 JEC lOt QQ 22^97-A_
|
||
3889 HI 2 JEC 0.25 0.50 A HE2 157 IPK NO. 331 -2 1)
|
||
3889 HE I 2 JEC 0.25 0.50 A
|
||
4340 HI 1 JEC 4.00 5.79 A
|
||
H I 1 JEC 2.00 A 2.00 A
|
||
l WB 100.00 100.00 100.00 100.00 BEGIN HE 2 158 (PK NO. 327 -6 1) 0.0 (HYDROGEN LINES)
|
||
(0 111)1 JEC 0.50 A 0.47 A
|
||
III) l JEC 5.00 A 4.58 A WAVE IDENT N RG REF DBS I AVE O CORR I AVE C
|
||
1 WB 2510.00 2510.00 2297.50 2297.50 4340 HI 1 WB 51. 00 51.00 51.00 51.00
|
||
4861 Ü I 1 WB 100 HQ LQQ.QQ 100.00 -1QQ.0Q
|
||
HE2 146 (PK NO. 328 -2 1) 5007 (O I II ) 1 WB 525. 525.00 525.00 525.00
|
||
6563 H I I HE 67 1. 00*A l.OO*A
|
||
H584 LU II ) 1 HE67 0. 1Q*A 0- 10*A
|
||
BEGIN HF2 149 (PK NO. 329 -2 1) C = 0.0 (HYDROGEN LINES) HF 2 158 (PK NO. 327 -6 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4340 H I 1 WB 52.00 52.00 52.00 52.00
|
||
4861 H I_ 1 WB 100.00 100.00 100.00 100.00 -BÜGIN HE 2 LÍL2 ( PK NO. 330 -3 1) C = 0.0 (HYDROGEN LINES)
|
||
5007 (0 III) 1 WB 812.00 812.00 812.00
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
END HE 2 L49 ( PK NQ. 329--2 1) 3.868 LNE I 11 I. 1 JEC 25.QQ A 25.00 A
|
||
3889 I JEC 4.00 A 4.00 A
|
||
3889 HE I JEC 4. 4.00 A
|
||
HE 2 159 (PK NO. 330 -3 1)
|
||
620
|
||
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
HE2 hhl (PK Nfl. 63-12 1) 1 (PK NO. 119 -6 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C REGION KEY (REG ION,REFERENCEfEXPLANA!ION)
|
||
4101 HI 1 LL 21.70 21.70 28.65 28.65 At AE2 t REGIONS A AND B ON DIFFERENT SCALES
|
||
4267 LL 1.40 1.40 1.74 1.74
|
||
4340 LL 43. 80 43.80 52.96 52.96 END 1 (PK NO. 119 -6 1)
|
||
4387 LL 2.80 2.80 3.33 3.33
|
||
4686 1 LL 32.20 32.20 34.37 34.37
|
||
4861 1 LL 100.00 100.00 100.00 100.00
|
||
4Q7 1 -HE—1_ _J U 11.20 11.70 10.99 1 0.66 BEGIN HU 1 2 (PK NO. 86 -8 11 0.59 (RADIO-H BETA)
|
||
5015 HE I l LL 3.20 3.20 3.05 3.05
|
||
5876 HE I 1 LL 18.20 18.20 13.40 13.40 WAVE IDENT N RG REF OBS I AVE 0 CCRR I AVE C
|
||
6563 -J 1 U— 435.3Q 435.30 271.34 271.34 3132 0 III 1 A 35.00 27.50 65.95 51.81
|
||
HE I 1 AW 20.00 27.50 37.68 51.81
|
||
3187 HE I 1 AW 3.90 3.90 7.20 7.20
|
||
END HE2 467 (PK NO. 63-12 II 3203 HE II 1 A 30.00 -22. 5P- 27.53 41.30
|
||
15.00 22.50 41.30
|
||
3241 (NA IV ) AW 1.20 1.20 2. 16 2.16
|
||
3299 0 III AW 1.70 1.70 2.99 —
|
||
BEGIN HE2 l (PK NO. 355 -4 1) C = 1.13 (DUST MODEL I 3312 III 3.50 3.50 6. 12 6.12
|
||
3340 III 4.30 4.30 7.43 7.43
|
||
WAVE IDENT N RG REF DBS I AVE Q CQRR \ &VE. C -334¿_ 56 .no 96-67
|
||
4861 l 1 VV4 100.00 100.00 100.00 100.00 48.30 83.34
|
||
4959 (0 III ) 1 VV4 320.00 320.00 302. 86 302.86 56.00 96.62
|
||
5007 jo I_I.LL_L_ _VV4_ 610.00 ...6.LQ«Q0 -561t63 5.6U63 48.3D 83.34
|
||
3381 IV 0.40 0.40 0.68 0.68
|
||
1 (PK NO. 355 -4 1) 3385 IV 1.50 1.50 2.55 2.55
|
||
.3 396 IV 0.30. 0.30- 0.51 0.51
|
||
3409 0 IV 0.20 0.20 0.34 0.34
|
||
3411 0 IV 0.40 0.40 0.67 0.67
|
||
BEGIN HU 1 1 (PK NO. 119 -6 II 0.32 (RADIQ-H BETA) 3425 ( NE—V L 180.QQ 300.91
|
||
1 ACP 147. 00 245.75
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C 3425 0 III 2 A 180.00 300.91
|
||
3727 _LQ U L A Ô- 260.QQ 323.95 3444 Q—UI -I A 10.QQ- 16.60
|
||
ACP 342.00 426.11 8.40 9.20 13.95 15.27
|
||
Wl 268.80 334.91 3634 HE I 0.60 0.60 0.93 0.93
|
||
3797 3. 30 4.05 3673 _H L_ -0-. 73 0.73 1.12 .12
|
||
3835 H I 12.00 12.00 14.61 14.61 3676 H I 0.77 0.77 1. 18 1.18
|
||
3868 (NF III ) 110.00 167.50 132.99 202.51 3679 H I 0.80 0.8 1.22 1.22
|
||
135.QQ 163.22 3682 _H I— 0.87 0. 8.7_ 1.-33 J .33-
|
||
225.00 167.50 272.03 202.51 3686 1 AW 0.91 0.91 1.39 1.39
|
||
31. 00 31.00 37.31 37.31 3691 1 AW 1.20 1.20 1.82 1.82
|
||
1 35.00 162.46 3697 -J AJaL_ 1.34 1.34 7.Q3 —2.03—
|
||
2 Wl 53. 10 63.90 3703 AW 2.20 3.33
|
||
3 ACP 135.00 162.46 3705 AW 2.20 3.33
|
||
_2 WL- 53.10 63.90 3712- AW... 1. 85 2.Z9 .
|
||
? A 55.00 65.22 3715 HE II 0.10 0.15
|
||
2 ACP 50.80 60.24 3715 0 III 0. 10 0. 15
|
||
-2 W-l— 109.40 129.72 3721 4.61 6.93
|
||
55.00 65.21 3721 ( S HT I 4.61 6.93
|
||
ACP 50.80 60.23 3 72 7 (0 II ) 45.00 67.50
|
||
Wl 109.4n 129.71 40.70 61.05
|
||
4069 (S II) 7.80 9.06 1 VV 2 87.50 A 131.25 A
|
||
4076 S II 7.80 9.05 3732 HE I I 2 AW 0. 20 0.30
|
||
6.30 7 .-31- 3734 I -J AW 2.55 2.55 3.81
|
||
4097 N III 2 ACP 32.60 37.66 3740 HE II 0.40 0.40 0.60 0.60
|
||
4101 H I 1 A 33.00 38.09 3750 H I 2.50 2. 80 3.72 4.16
|
||
_2 AC£— 32. QQ 37.63 3. 10 2.8Q . 4.61 4.16
|
||
50. 00 41.50 57. 71 47.90 3 754 0 III 0. 57 0.57 0.85 0.85
|
||
4340 H I 47.00 61.00 51.84 67.28 3757 0 III 0.21 0.21 0.31 0.31
|
||
ACP 56.30 62.10 3759 0 III AW 2.70 2. 70 4.00 4.00
|
||
Wl 75. 00 61.00 82.72 67.28 3768 HE II AW 0. 20 0.20 0.30 0.30
|
||
4363 {0 III ) 16.00 20.50 17. 57 22.52 3770 H I 3.70 3.95 5.46 5.83
|
||
56.30 61.83 AW 4j 20 . 3.95.. 6.20 -5.93-
|
||
25.00 20.50 27. 46 22.52 3774 0 III 0. 18 0.18 0.27 0.27
|
||
4471 HE I 21.00 18. 10 22.63 19.51 3781 HE I I 0.49 0.49 0.72 0.72
|
||
ACP 3Qi 40 L8.1Q 32.76 19.51 -379j_ _Q III -JJZ7- 0.27 0^40 -Q.4Q
|
||
1 KA2 2.90 3.13 3 797 4. 70 5.07 6.86 7.40
|
||
1 Wl 21.90 23.60 5.44 5.07 7.94 7.40
|
||
4685 HF I I _L_ 26.CO 17.37 26.89 HE II Q. 51 Q.51 Q. 74 _Q..Z4_
|
||
ACP 16.80 17.37 17.38 17.96 3819 HE I 1.25 1.81
|
||
1 KA2 9.30 17.37 9.62 17.96 3833 HE I AW 0.25 0.36
|
||
1 Wl 31.-30 32.37 3833 H£_LI . AW Q. 25 Q.36
|
||
1 A 100.00 100.00 100.00 100.00 1 6.90 7.10 9.92 10.21
|
||
1 ACP 100.00 100.00 100.00 100.00 l 7.30 7.10 10.50 10.21
|
||
-J £A2_ 100.00 1QQ.QQ -IQQ.QQ IQQ.QQ 3839 ( FE V ) 1 Q« 25 0.25 Q.36 —Q.36
|
||
I DD63 100.00 100.00 100.00 100.00 3851 (FE V 0. 19 0. 19 0.27 0.27
|
||
1 Wl 100.00 1 CO.00 100.00 100.00 3856 SI I I 0.20 0.20 0. 0.29
|
||
4959 JJ III ). J A_ 35Q.QO 413.07 344.59 406.69 .3 858..- HE II AW. _Qjt. 0.84 1. 20 1.20
|
||
1 ACP 411.00 413.07 404.64 406.69 3862 SI II 0.23 0.33 0.33
|
||
1 KA2 485.00 413.07 477.50 406.69 3 864 0.48 0.68 0.68
|
||
J Wl 4Q6j_2Q 413.07 400.02 406.69 3868 (NE III) 62.00 53.93 87.98 76.53
|
||
1 880.00 1270.30 859.65 1240.93 1 ACP 64.80 53.93 91.95 76.53
|
||
l ACP 1188.00 1270.30 1160.53 1240.93 l KA2 35. 00 53.93 49.67 76.53
|
||
_1 QD63- 1732.CQ 127Q.3Q .1691..95- 1240.93 J W 2 131.30 A I86t-32 A.
|
||
l Wl 1281.20 1270.30 1251.57 1240.93 17. 00 23.92
|
||
5015 HF I 1 AW70 0.90 0.90 0.88 0.88 ACP 14. 80 20.82
|
||
5047 HE I 1 AW70 0. 30 0.30 0.29 Ji¿9_ AW 11. QQ 15« ^8
|
||
5191 t AR III) 1 AW70 0. 25 0.25 0. 24 0.24 2 VV 2 37.50 A 52.76 A
|
||
5198 (NI ) I A W7 0 1.00 1.00 0.94 0.94 2 A 17.00 23.92
|
||
5200 (NI ) 1 AW 70 0.80 0.80 0. 76 0.76 —2 ACP . 14.80 ¿Qj>-82
|
||
5411 HE I I 1 AW70 2.30 2. 10 11.00 15.4
|
||
5517 (CL III) 1 A AE2 1. 15* 1.03* VV 2 37.50 A 52.76 A
|
||
J AW 70 Q.68 -0,68 0.61 3923 _AW L. QQ 1.39
|
||
1 A AE2 1.00* 0.90* 2 A 34.00 46.55
|
||
l AW70 0. 50 0.50 0.45 0.45 2 ACP 30.40 41.62
|
||
5 75 A -IN LI L J A WI..Q— 5..3Q ¿1.4Q 4.60 18*57 1 AW 24.00 A 32. 86 A
|
||
1 Wl 37.50 21.40 32.55 18.57 2 VV 2 56.30 77.08
|
||
1 A W70 14.50 35.40 12. 38 30.22 3967 2 A 34.00 46.54
|
||
J WJ 56.3Q 35.40 48.07 30.7? -2 ACP 30.40 41.62
|
||
6300 1 Wl 106.30 85. 79 56.30 77.07
|
||
6563 2 Wl 1593.80 1248.79 4009 HF I 0.27 0.27 0. 36 0.36
|
||
-6-563 __2 WJ— - 1593^60 -1248..19- -4Q26 .. HE -I ¿.60 2.60 3.49 3.49
|
||
6717 ( S II ) 1 B AE2 0. 77* 0.59* 4026 HE II 2 AW 3.20 4.29
|
||
6730 (S III 1 B AE2 1.00* 0.77* 4026 HE I 2 AW 3. 20 4.29
|
||
4068 __LS 11 ) 1 AW 5.50 7 «-75
|
||
1 (PK NO. 119 -6 1)
|
||
(PK NO. 86 -8 1)
|
||
622
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
HUI _2 IPK. NQ. 86 -8 1) HU 1 2 CPK NO. 86 -8 11
|
||
WAVE IOENT N RG REF OBS AVE O CORK I AVE C WAVE IDENT N RG REF OBS AVE 0 CORR I AVE C
|
||
..JlQ22_ _LS II ) J â 2t8.iL. 15.30 3.69 20.15 5309 CCA V ) 1 AW70 0.27 0.27 0. 24 0.24
|
||
1 ACP 27.80 15.30 36.62 20.15 5323 (CL IV ) 1 AW70 0.19 0.19 0.16 0.16
|
||
4076 CS I! ) 1 AW 1.90 1.90 2.50 2.50 5335 (FE VI 1 1 AW 7 0 0.26 0.26 0.22 0.22
|
||
4097 N ITT _2 ACP 26.50 3.4^8. 5411 HE II 1 AW7Q ,8.40 8.40 7.10 7.10
|
||
1.50 1.50 1.96 1.96 5517 1 A AE2 0.69* 0.57*
|
||
22.50 18.75 29.31 24.43 l AW70 0.74 0.61
|
||
ACP 2 6. 50. 34.53 5537 (cl nn J A.-A.E2 1.00» 0.82*
|
||
1 15.00 19.54 1 AW 70 0.90 0.90 0.73 0.73
|
||
1 VV 2 50.00 A 65.14 A 5554 (N II ) VV 2 31.30 31.30 25.40 25.40
|
||
4120 HE I _1 AW 0.70 0.91 0.91 559? _Q LLL AW7Q 0.22 0.2? 0. 18 0-1 a
|
||
4143 HE I 1 AW 0.50 0.50 0.64 0.64 5630 CFE VI ) 1 AW70 0.30 0.30 0.24 0.24
|
||
4163 (K V ) l AW 0.27 0.27 0.34 0.34 5677 CFE VI ) 1 A W70 0. 14 0. 14 0. 11 0.11
|
||
4186 C III 1 AW 0.t6 0.16 0.20 0.20 -5.72-1 _ (FE VLI1. -AH7Q ■ 0.70 0.70 0.54 0.54
|
||
4199 HE II 1 AW 2.24 2.24 2.81 2.81 5754 (N II) l AW70 10.00 10.00 7.70 7.70
|
||
4227 (FE V ) 1 AW 0. 37 0.37 0.46 0.46 5801 C IV l AW7 0 0.53 0.53 0.40 0.40
|
||
4267 C II 1 AW 0.20 0.20 0.25 0.25 5806 HE II AW7Q 0.12 0.12 0- 09 0.09
|
||
1 A 46.00 55.11 5812 HE II 1 A W70 0. 16 0.16 0. 12 0.12
|
||
2 ACP 46.00 55.11 5875 HE I 1 AW70 15.20 15.20 11.36 11.36
|
||
1 ORF 45.00 44.93 -53»_9L. 53.83 1 ORF 11.00 A 8.22 A
|
||
1 VV 2 43.80 44.93 52.47 53.83 1 VV 2 25.00 18.68 A
|
||
(O III» 1 A 20.00 19.27 23.77 22.90 6300 (0 1 VV 2 25.00 A 16.84 A
|
||
-2 ACP 46.00 54.68- 6563 H_. flR F 458.00 458.00 292.10
|
||
l ORF 19.CO 19.27 22.59 22.90 2 VV 2 887.50 566.02
|
||
1 VV 2 18. 80 19.27 22.35 22.90 1 W 1.00* 0.64*
|
||
_n LLL _1 AH 0.22 Q.22- (?■ 26 Q.26 _LN II ) -VV- 2. aa/^LQ 566.0?
|
||
4383 AW 0. 28 0.2B 0.33 0.33 1 242.00 153.67
|
||
4387 HE I 1 AW 0.73 0.73 0.86 0.86 1 w 0. 92* 0.58*
|
||
4471 ..HE I _i A— 5.30 4.20 6.09- 4.82 6717 _LS LI—I—1 R AF? .0^55» 0. 34*
|
||
1 4.50 4.20 5.17 4.82 6730 (S II I 1 AE 2 1.00*
|
||
1 KA2 2.80 4.20 3.21 4.82
|
||
4510 _LK IV 1 J AW 0.20 , 0-20 0-23 0-23 REGICN KEY (PEG ION.REFERENCE.EXPLANA!ION)
|
||
8. 20 6.15 9. 19 6.89 AE2 REGIONS A AND B ON DIFFERENT SCALES
|
||
4. 10 6.15 4.59 6.89
|
||
n.BO 0.80 -0^89—
|
||
4606 CFE III1 l AW 0.50 0.54 0.55 0.59
|
||
1 AW70 0.58 0.54 0.63 0.59
|
||
4634 N III 2 2.00 .2.17 A
|
||
0.86 0.86 0.93 0.93 2 l (PK NO. 51+ 9 1) 0.51 (RADIO-H BETA)
|
||
4634 N II 1 A W70 0.70 0.70 0.76 0.76
|
||
6/140 —N ITT -2 A 7.16 . IflFNI N RG REF
|
||
1 AW 1.50 1.45 1.62 1.57 3703 1.90 1.90 2.7? 2.72
|
||
l A W70 1.41 1.45 1.52 1.57 3712 2.50 2.50 3.57 3.57
|
||
4657 _3 AW70 0.32 0-34 -3J26 78.00 10.77
|
||
0.25 0.27 1.00* 1.42*
|
||
0.32 0.34 59.10X 83.93 X
|
||
IFF ITT) 2 0.27 —0.44*
|
||
4661 0 II 0.32 0.34 3750 3.70 3. 70 5.21 5.21
|
||
4685 HE I I 90.00 89.56 95.76 95.30 3770 4. 10 4.10 5.74 5.74
|
||
81.BQ 89.56 87.Q4 95.30 3797 5.40 5.40 7.49 7.49
|
||
1 KA2 95.00 89.56 101.08 95.30 7. 70 10.54
|
||
1 ORF 81.00 89.56 86. 19 95.30 12.70X 17.39 X
|
||
1 W 2 1QQ.QQ 89.56 106.40 95.30 10.70
|
||
4711 (AP IV ) 2 A 10.00 10.54 12.70X 17. 18 X
|
||
1 AW 10.00 10. 14.00 18.81
|
||
.2 A W ? Q. - 9.BO in. 54
|
||
33 12.30X 16.5?X
|
||
4711 HE I 10.00 10.54 3889 HF I 12.30X 16.52X
|
||
AW70 9.80 10.33 3967 (NE III) 20.00 26.24
|
||
4ÿ24 (NF TV ) AW 2.30 2.41 28.20X 36.99X
|
||
AW70 2.50 2.62 20.00 26.24
|
||
4740 (AR IV ) A 5.00 6.72 5.22 VV 1 28.20X 36.99X
|
||
AW 7.00 6.72 7.30 -4.Q26 HE. I... A 2. ¿Q 2.20 2,83 2.83
|
||
l AW70 7. 10 6.72 7.41 7.02 4069 ( S II ) 1.90 2.41
|
||
1 KA2 7.80 6.72 8.14 7.02 4076 ( S II ) 1.90 2.41
|
||
_Q Ay 4t6Q _AtAQ_ 4.79 4.79 4101 25. QQ 25.QQ 31.42 31.42
|
||
100.00 100.00 100.00 100.00 VV 1 38.60X 48.51X
|
||
ACP 100.00 100.00 100.00 100.00 A 46.00 53.78
|
||
KA2 100.00 1C0.00 100.00 IPOtOQ YV. 1. 5.9.CQX 68,97*
|
||
1 0D63 100.CO 100.00 100.00 100.00 A 2. 20 2.2 0 2.55 2.55
|
||
1 ORF 100.00 100.00 100.00 100.00 VV 15.00X 17.42 X
|
||
1 VV 2 100.00 100.00 100.00 100.00 4471 HE A_ 4, 8Q 4.80 5.41 5.41
|
||
4881 (FE III) 1 A W70 0. 15 0.15 0. 15 0.15 9.10 X 10.25X
|
||
4893 (FE VII Ï l AW70 0. 18 0. 18 0. 18 0.18 46 34 III 1. 10 1.18
|
||
4909 1 4W7Q 0.10 0. 10 0. 10 Ot IQ 4640 III I t IQ U 18
|
||
AW 0.80 0.79 1.01 4686 HE II 25.00X 26.38X
|
||
l AW70 1.26 1.24 1.01 4711 (AR IV ) 1.20 1.20 1.26 1 .26
|
||
4931 CO III ) 1 A W70 0.31 0.30 0.30 4861 H I 100.00 100.00 100.00 100.00
|
||
4944 CFE VIII 0.21 0.21 0.20 0.20 l OD 62 100.00 100.00
|
||
4959 CO III) 290.00 283.40 281.79 275.37 1 VV 1 100.oox 100.oox
|
||
AÇP 199.00 283.40 193.36 —21.5137 ( 0 III) 1 130.00 i ?ft- ai
|
||
KA2 268.00 283.40 260.41 275.37 1 VV l 118.20X 115.30X
|
||
ORF 229.00 283.40 222.51 275.37 l A 380.00 388.50 366.09 374.28
|
||
VV 2 431.00 283.40 418.79 .275.37 1 QD62 397.00 388.50 38-Z_LlZ_ 374.28
|
||
4972 (FE VI ) l AW70 0.22 0.22 0.21 0.21 290.90X 280.25X
|
||
5007 (0 III ) 1 A 750.00 621. 75 718.34 595.50 5411 HE II 34. 50 34.50 29.85 29.85
|
||
1 ACP 633.00 621.75 606.28 595.50 5876 HE I 45.5Q 45,5 0 35- 36 35.36
|
||
i 0D63 550.00 621.75 526.78 595.50 6300 (0 1 ) 1 VV 1 35.00 24.87
|
||
1 ORF 554.00 621.75 530.61 595.50 6563 H I 2 VV L 354.50 240.31
|
||
VV 2 2062.50 A 1975.43 A 6563 _LN LI L 2 VV 1 354.50 ?40.31
|
||
5015 1 AW70 1.20 1.20 1. 15 1.15
|
||
5041 SI II 1 AW70 0.35 0.35 0. 33 0.33
|
||
5047 HE I 1 A W70 0.26 0.26 .JL*. »25
|
||
5056 SI II AW70 0. 13 0.13 0. 12 0.12
|
||
5131 0 V A W70 0.20 0.20 0. 18 0.18
|
||
514? CFE VI ) 1 AW70 Qt 29 Qt¿9 Q, 27 0,27 BEGIN J 320 (PK NO. 190-17 1) 0.0 (HYDROGEN LINES)
|
||
5164 1 AW70 0.10 0.10 0.09 0.09
|
||
5176 CFE VI ) 1 AW70 0.25 0.25 0.23 0.23 WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
5191 CAR.I-IU _1 AW7Q . 0. 36 0.36 0.32 _Q .32 3727 (O II ) 1 A 21.00 21tQQ...
|
||
5198 (N I ) l A W70 2.30 2.30 2. 07 2.07 27.OOX 27.OOX
|
||
5200 (N I ) 1 AW70 1.20 1.20 1.08 1.08 30.60X 30.60X
|
||
S?70 IFF III 1 AW70 0. 14 _JL_ 0. 1? 3797 5.2Q _ 5, 2.Q— 5.20
|
||
5277 CFE VII) AW70 0. 14 0.14 0.12 0.12 3835 H I 1 7. 50 7.50 7.50 7.50
|
||
5289 1 AW7 0 0.17 0.17 0. 15 0.15 3868 (NE III) 1 110.00 101.50 110.00 101.50
|
||
2 CPK NO. 86-8 1) 320 (PK NO. 190-17 1)
|
||
623
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
3ZQ (PK NQ. 19Q--I7 1J -9.0-0 (PK NQ. 194» 2 1)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDFNT N RG REF OBS I CORR I
|
||
3868 (NE I II 1 1 AA1— l^OfOOX -33M-. (NE III) 2 Ô .34* QQ 4Q.97
|
||
93.00 101.50 93.00 101.50 35.50 42.77
|
||
VV I 1I8.40X 118.40X 19.00 22.89
|
||
-Ü I_ A - 26* QQ -26.QQ_ 2.6.«-QQ . VV 1 33.QQX _39. I6X
|
||
27.00X 27.00X A 34.00 40.96
|
||
32.70X 32.70X ACP 35.50 42.77
|
||
VV 1 3 21 T.Q X 32.70X _Lô 19.QQ . 22..S9
|
||
3889 HE I 27.OOX 27.OOX VV 33.OOX 39.76X
|
||
3967 (NE III) 55.00 55.00 4026 HE I 1 A 3.30 3.93
|
||
-A41- 79.ÛPX -7.9».QmL. —4Q69. _LS LI ) 2 3* QQ. . . 3.54
|
||
2 VV 1 75.50X 75.50X 4076 (S II ) 2 3.00 3.53
|
||
2 A 55.00 55.00 4097 N III 2 ACP 24. 70 28.92
|
||
_2 Aid 79.OOX 79.QQX- -41Q1 H I 1 _A ¿LtQO 22.30 24. 57
|
||
2 MA 46. 00 46. 00 ACP 24.70 28.90
|
||
2 VV 1 75.50X 75.50X LA 23.60 22.30 27.61
|
||
3969 (NE III) _2 ÜA 46.00 _46..Q.fl_ VV 1 SQX .3.6.Q3X
|
||
4076 II 20.80X 20.80X A 42.00 46.75
|
||
4101 I 30.00 30.00 ACP 108.00 120.22
|
||
_A4.l_ 34.OOX 34.QQX. 32.BOX 36.51X
|
||
27.00 28.50 27.00 28.50 50.70 56.44
|
||
32.70X 32.70X 52.70X 58.66X
|
||
4340 5Q.QQ AI» QQ -5Q»Q.Q_ 47.00 --4343 _L0 LULL- 13.00 14.40 -L4.4Û .
|
||
57.OOX 57.OOX 108.00 119.66
|
||
46.90X 46.90X 7.90X 8.75X
|
||
44.QÛ 44.00 5Q.7Q 54^ LB
|
||
1 VV 1 5 9.2 OX 59.20X 28.60 X 31.69X
|
||
(0 III) l A 18.00 18.00 19.00 HE I 1 4.00 4.34
|
||
J A41 15.HÛX 15.OOX _1 ? 0. 90 X 22-ftflX
|
||
24.60X 24.60X 4542 HE II 1 2. 70 2. 89
|
||
20.00 20.00 4634 N III 2 3.20 3.36
|
||
20.4ÛX -70.40X -4640 _N LLi 2_ .20
|
||
1 A 8.00 8.00 4645 C III VV 1 3. 30X 3.45X
|
||
1 VV l 22.40X 22.40X 4645 N III 2 VV 1 3.30X 3.45X
|
||
_2 VV 1 40.aox 40. BOX _4685 HF T I 1 —A -4Z.00 48.76 47.31
|
||
4645 C in VV l 40.BOX 40.80 X 41.80 45.60 43.37
|
||
4686 HE I I VV 1 26.50X 26.50X 39.OOX 40.46X
|
||
4flAi _H I 100.00 -100.00 48.00 -45.60 49.80
|
||
100.00 100.00 VV 1 50.50X 52.39X
|
||
100.OOX 100.OOX 4711 (AR IV ) 2 ACP 11.20 11.56
|
||
. 1 00.-QQ -100.00 -4713 HF I 2 —ACP— ■ 1 U20 11.55
|
||
100.00 100.00 100.00 100.00 (AP IV ) 1 A 4.00 5.64 4. 10 5.78
|
||
1 ACP
|
||
i100.00 100.00
|
||
nn.nn 1.00.00 100.00 100.00
|
||
-100.00 100.00 —ti 1 C-
|
||
7.28
|
||
-LOO. 00
|
||
5.64 7.47
|
||
100.00
|
||
5.78
|
||
(0 I II ) l 340.00 337.42 340.00 337.42 ACP 100.00 100.00
|
||
A41 310.00 337.42 310.00 337.42 AN 100.OOX 100.OOX
|
||
..AN . 209.OOX . 209.OOX CPDA i no.nn i nn.nn
|
||
l CPDA 380.20 337.42 380.20 337.42 LA 100.00 100.00 100.00
|
||
1 MA 310.00 337.42 310.00 337.42 VV 100.OOX 100.OOX
|
||
346.90 337.4? 346.90 337^42 —LO UI ) 1 _A ^qn.nn 383 .-41
|
||
890.00 1104.20 890.00 1104.20 ACP 313.00 307.71
|
||
1200.00 1104.20 1200.00 1104.20 AN 297.OOX 291.98X
|
||
524.QQX -524. OOX C PDA 478.60 470-51 -38Ü.Q3
|
||
CPDA 1202.00 1104.20 1202.00 1104.20 LA 385.00 378.49
|
||
VV 1 1124.80 1104.20 1124.80 1104.20 VV 439.60X 432.17X
|
||
541 1 HF II- . .AW.7-Q- 0.41 ?- ? 5 0.41 - ? .? 5 —LO L-LU—L- 1260.00 - 1228.-17—
|
||
VV 1 4. 10 2.25 4. 10 2.25 I ACP 1013.00 1234.50 987.41
|
||
5517 (CL III) AW70 0.51 0.51 0.51 0.51 l AN 845.OOX 823.65X
|
||
5537 (CL III) AW70 0.51 0. 51 0. 51 0.51 1 CPDA 1445.00 1234.50 1408.50 1203.31
|
||
5754 (N II) AW70 0. 17 0.17 0.17 0.17 1 LA 1220.00 1234.50 1189.18 1203.31
|
||
5801 C IV AW70 0. 34 2 0.34
|
||
5*30 0.34 0.34 1 VV 1 1428.60X 1392.51X
|
||
5875 HE I AW70 ¿2f0p 22.00 25-30 -519.9... —LM I L_L_ AH7Q Q..8Q 0.80 ¿*-75 -Q.75
|
||
VV 1 28.60 25.30 28.60 25.30 5411 HE ï I 1 AW70 4. 50 4. 07
|
||
6300 (DI ) VV 1 36. 70 36.70 36. 70 36.70 5517 (CL III) 1 A AE2 0. 72* 0.64*
|
||
6563 28Q« QQ ¿-9JQ.« QQ 28Q« QQ- 280.00 _L— AÜZ¿_ ..¿*86 . Q-.76 0.76
|
||
VV 1 265.30 265.30 (CL III) 1 A AE2 1.00* 0.89*
|
||
(N 11)2 VV l 265.30 265.30 1 A W7 0 0.83 0.83 0.74
|
||
_1_N LI ? 1 ■ AH7Q _2*. 5Q. 9.50 2» 14 —8 ■ 14
|
||
320 (PK NQ. 190-17 1) VV l 16.50 9.50 14. 13 8.14
|
||
5801 IV A W70 1.30 1.30 l.ll 1.11
|
||
5812 _LV- AW7Q 0.85 0.85 -¿.-72
|
||
1 A W70 14.60 18.30 12.28 15.39
|
||
900 (PK NO. 194+ 21) C = 0.35 (HYDROGEN LINES) 1 VV 1 22.00 18.30 18. 51 15.39
|
||
6300 _LQ I ) 1 VV 1 35.20 35.20 27.84 27.84
|
||
WAVE IDE NT N OBS I AVE 0 CORR I AVE C 6563 1 428.60 328.23
|
||
3133 0 III l 31.00 31.00 45. 13 45.13 6563 (N II ) 2 VV l 428.60 328.23
|
||
3203 HF I I 1 14«_¿Q 14.00 . 2Q..07 20.Q7 6717 —LS U ) 1 -B AE2 ¿»61*_. Q .46»
|
||
3312 III 5.70 5.70 7.94 (S II ) 1 1.00*
|
||
3346 0 III ? 10.50 14.51
|
||
3346 ( NE V ) 2 10.50 14.51 -REGION.KEY (REG ION»REFERENCE.EXPLANATION)
|
||
3425
|
||
3425
|
||
(NE V ) 2
|
||
O III 2
|
||
18.00
|
||
18.00
|
||
24.42
|
||
24.42 r AE2 . REGIONS A AND B ON DIFFERENT SCALES
|
||
3444 __Q LU L_ 17.00 17. QQ 22.96 22-^96 END -JLO-Q (PK NO. 194+ 2 1)
|
||
3650 I 2.50 3.23
|
||
3727 II ) 52.00 66. 14
|
||
66. 30 84.33
|
||
LA 41.80 53.17 BEGIN K3 62 (PK NO. 95+ 01) C = 1.60 (HYDROGEN LINES)
|
||
VV 38.50X 48.97X
|
||
. 3-L5Q -A . _5t 5.Q.. 6.96 ¿*.9,6. —WAVE (DENT EL-RÇ RE F OBS I AVE 0 CORR I AVE C
|
||
3770 I 1 4. 20 4.20 5.29 5.29 4861 I CLZ2 100.00 100.00 100.00 100.00
|
||
3797 I 1 5.00 5.00 6. 26 6.26 4991 (0 III) CLZ2 1100.00 1100.00 991.97 991.97
|
||
3835 _1 L— la 4,Q -2*95 9.18 12.34 -5876 - HE l CLZ2 80.00 80.00 36.27 36.27
|
||
ACP 12. 50 9.95 15.51 12.34 6300 (0 I ) 1 CLZ 2 20.00 6.85 A
|
||
(NE III) 1 A 74.00 76.35 91.07 93.97 6563 H I 1 CLZ2 970.00 970.00 286.45 286.45
|
||
L_ -ACP.. 78.70 16.3 5 - 96.86- 93.97 6575 (N I I ) 1 CLZ2 500.00 500.00 146.61 146.61
|
||
57.40 70.64
|
||
63.70X 78.40X 62 (PK NO. 95+ 0 1)
|
||
16.QQ 19. 59
|
||
ACP 12.00 14.69
|
||
LA 57.40 70.29
|
||
17* 6QX . 21.55X
|
||
ACP 12.00 14.69
|
||
#V 1 17. 60X 21•55 X
|
||
900 ( PK NO. 194+ 2 1 )
|
||
624
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN Ml I (PK NO. 130-11 1) 0.53 IRADIO—H BETA) _2 (PK NO. 133 -8 1)
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
3133 0 III _L AKI 24.00 2A.QQ 39671 (Ne ni} 2 AD 39.80 56,56
|
||
3187 HE I AKI 4.30 4.30 7.46 7.46 2 0 28.80 40.93
|
||
3203 HE II 1 AKI 51.00 51.00 88.00 88.00 2 R 25.00 35.53
|
||
3242 (NA IV ) 1 AKI 4. 10 4.10 6.96 .JL m -19.70 28.00
|
||
3299 0 III AKI 2. 20 2.20 3.65 3.65 2 AD 39.80 56.50
|
||
3312 0 III AKI 2.70 2.70 4.46 4.46 2 0 28.80 40. 88
|
||
3340 0 III AKI 3.60 3.60 5.89 5.89 2 R 25.00 35.49
|
||
3345 ( NE V ) AKI 76.00 76.00 124.05 124.05 2 Wl 19. 70 27.96
|
||
3362 (NA IV ) AKI 1.60 1.60 2.60 2.60 1 AD 25.70 24.43 34. 55 32.85
|
||
3 4 ¿5 _ INE V I 1 AKI 145.OQ- 145 00 230.06 230.Q6 __l Q_ 26.90 - ¿.4«-43_ 36.16 . 32. 85
|
||
3444 III AKI 7.50 7.50 11.83 11.83 1 0D66 27.50 24.43 36.97 32.85
|
||
3679 I AKI 0.70 <3.70 1.02 1.02 l R 17. 00 24.43 22.85 32.85
|
||
3682 I AKI 1.00 1.00 1.46 1.46 1 Wl 21. 30 24.43 ?ß^64 32.85
|
||
3686 AKI 1.50 1. 50 2.19 2.19 1 ZI 2 8. 20 24.43 37.91 32.85
|
||
3691 AKI 1.40 1.40 2.04 2.04 1 AD 43. 70 45.05 53.49 55.14
|
||
3697 _H I_ AKI 1.3Q- ■L.3Q. 1.89 1.B9 _JL
|
||
1
|
||
Q , 5.Q.1Q
|
||
34. 00
|
||
45.05 . 61.3.2
|
||
45.05
|
||
55.1fr
|
||
55.14
|
||
3704 I AKI 1.70 2.47 41.62
|
||
3704 HE I AKI 1.70 2.47 2 Wl 34.40 42.11
|
||
3722 _hi I_ 3. IQ , 4.47 1 ZI 52.40 45.05 64. 14 55.14
|
||
3722 (S III) AKI 3.10 4.47 4343 H I 1 0D66 47. 80 47.80 58.44 58.44
|
||
3726 (0 II) AKI 14.30 20.59 4363 (Q III) 1 AD 8 1 • 00 68.96 98.28 83.67
|
||
VY.1- 71.4QX- 102.81X. 1 0 79. 50 68.96 96.46 83.67
|
||
3729 11 ) AKI 9. 70 13.95 1 0D66 72. 50 68.96 87.97 83.67
|
||
3734 I AKI 2.40 3.45 Í RWl 53.00 68.96 64.31 83.67
|
||
3736 AKI Q.SQ .A_ 1-15. A 34.40 _4_L,.Z_4-.
|
||
3740 HE II AKI 0.90 A 1.29 A 1 ZI 58.80 68.96 71.34 83.67
|
||
3740 (FE V ) AKI 0.90 A 1.29 A l AD 5.50 10.95 6.42 12.78
|
||
3750 AK.1— 3,-50 5.QQ 5.QQ 1 Wl 16. 40 -LQ,9J2_ 19.14 ..12,78
|
||
3754 0 III AKI 1. 10 1.10 1.57 1.57 4686 HF II 1 AD 3.30 26.20 3.54 28.08
|
||
3759 0 III AKI 3. 10 3.10 4.41 4.41 1 Wl 49. 10 26.20 52.63 23.08
|
||
5.20.- 5.2 0. 7.37 .4861_ H I _1 AH 100.00 100-00 100.00 100.00
|
||
3797 H I AKI 8*60 8.60 12.09 12.09 1 0 100.00 100.00 100.00 100.00
|
||
3819 HE I AKI 1. 10 1.10 1.53 1.53 1 0066 100.00 100.00 100.00 100.00
|
||
3835 AKI . .30 ,3-Q_ 12.89 12.89 100.00 i oo. on 100-00 100.00
|
||
3858 HE II AKI 1.00 1.00 1.37 1.37 1 Wl 100.00 A 100.00 A
|
||
3868 (ME III) AKI 33.00 33.00 45. 19 45.19 1 ZI 100. 00 100.00 100.00 100.00
|
||
?fl.nnx 3fl.34X 4921 HF I JL AH . 1.7Q 1. 70 1.67 1,67
|
||
16.60 22.56 (0 I II ) 1 59.00 70. 10 57. 13 67.88
|
||
17.00X 23.10 X 54. 70 70.10 52.97 67.83
|
||
1 4.3f)X- 19.43X.- 105.00 70.1-0- ..lai.. 6fi 67.88
|
||
3889 HE I AKI 16.60 22.56 2 Wl 52.50 50.84
|
||
Wl 14.30X 19.43X 1 ZI 61.70 70. 10 59. 75 67.88
|
||
3Q¿7 INF TIT) 29.60 39.2-5— 5QQ7 _LD 111 ) 1 AD 170.QQ 166.00 -161.9.9 1 5ft . 1 fl
|
||
R 3 5.00 X 46.41X 1 0D66 162.00 154.37
|
||
Wl 28.60X 37.93X 2 Wl 52. 50 50.03
|
||
AKT 29-60 39.22 _l ZJ 1AA r nn 158. 18
|
||
35.00X 46.37X 5016 HE I 1 AD 5.00 5.00 4. 75 4.75
|
||
28.60X 37.89X 5876 HE I 1 AD 23.40 23.40 16. 89 16.89
|
||
AKI . 3.L2 6300 _LQ I L- J WL 9ft.40 98.40. ,63.23 63.23
|
||
4068 II AKI 2.80 2.80 3.59 3.59 741.00 644.33 448.03 389.58
|
||
4101 I AKI 26.20 26.20 33.23 33.23 468.00 644.33 282.97 389.58
|
||
32.QQX. ¿n,5flx 206.60 -124.92
|
||
Wl 42.80X 54.28X ZI 724. 00 437-75
|
||
4200 HE II AKI 3.00 3.00 3.68 3.68 6563 (N II ) Wl 206.60 124.92
|
||
4340 JÜ I AKI 45.60 45.60 . ,5,3.64 53.64 6584. ( N II ) 1 3.20 13.2.Q.. 7.94
|
||
1 33. OOX 38.82X 6678 HE I 1 AD 4. 80 4. 80 2.83 2.83
|
||
1 VV1 285.60XA 335.93 XA 7065 HE I 1 AD 24.00 24.00 13.09 13.09
|
||
(0 III ) 1 AKI 12.20 12.20 14.25 10830 HE I 1 AD 447.00 447.90 152.26 152.26
|
||
22.OOX 25.70X
|
||
4387 HE I 1. 10 1.10 1.28 1.28 END (PK NO. 133 -8 l)
|
||
4471 HE L- AKI - L.60 1.60 1.81- 1.81
|
||
Wl 342.70X 387.97X
|
||
4541 HE II AKI 4. 80 5.32 BEGIN Ml
|
||
4624 (AR V L _AKJL_ 0« 9Q—A— n- 97 A 4 (PK NO. 147 -2 1) C = 1.05 (HYDROGEN LINES)
|
||
4658 C IV AKI I. 30 1.30 1.39 1.39
|
||
4686 HE II AKI 88. 00 88.00 93.04 93.04 WAVE IOENT N RG REF OBS I
|
||
68.00-*-. 71.89 X 3726 ( 0 III 1 AKI
|
||
Wl 228. 50XA 241.59XA 3729 11 ) 1 AKI 1.50 3.08
|
||
4711 (AP IV ) AKI 9.70 10.17 3734 I I AKI 0. 70 0. 70 1.43 1 .43
|
||
4713 HE L AKI . 9.70 10.17 3750... _I 1 AKI -1.50 1.50... 3.04 3.04
|
||
4726 (NF TV ) AKI 2.00 2.09 3770 H I AKI 4. 30 4. 30 8. 59 8.59
|
||
4740 (AR IV ) AKI 7. 00 7.00 7.27 7.27 3797 H I I AKI 3.30 3.30 6.48 6.48
|
||
4H61 H I AKI . 1Q0.QQ . 1 QQ. OQ 100.00 i on. oo I 00.00 3835 jy l_ _J AX I -3.-9Q 3.90 7.45 7.45
|
||
l 100.00 100.00 3868 (NF III) 1 AKI 41.00 76.43
|
||
I wi 100.OOX 100.OOX 3839 H I 2 AKI 12.60 23.13
|
||
4959 tn uni AKT 168.QQ 206.5Q -163,12 3889 HE I 7 AKI 12.60 23.13
|
||
R 245.00 206.50 238.76 201.24 3967 (NF III) 1 AKI 21.40 21.40 37.43 37.43
|
||
Wl 185.60X 180.87X 3970 1 AKI 11.60 11.60 20.25 20.25
|
||
-5QQ7 _L0 LULL Wl 585.50 585.50 563.2H 563.25 4101 1 AKI 17.40 17.40 27. 86 2 7.86
|
||
6300 (0 Wl 42.80 A 30.01 4340 H I I AKI 32.20 32.20 44.41 44.41
|
||
6563 H Wl 442.70 295.55 4363 (0 III ) 1 AKI 8.20 8.20 11. 15 11.15
|
||
-4.471 . HE I 4.09
|
||
65.63
|
||
6717
|
||
_Lhl II 1
|
||
II ) A E2
|
||
442.70
|
||
0.56*
|
||
295.55
|
||
0.36* 4686 HE II i AKI
|
||
AKI 3t2Q
|
||
8.70 8. 70 9.71 .4,.09...
|
||
.71
|
||
673C II ) AE2 1.00* 0.65* 4861 I AKI 100.00 1 CO* 00 100.00 100.00
|
||
4959 MI) AKI 357.00 357.00 339.20 339.20
|
||
(PK NO. 130-1 l 1) 5517 (CL III) 1 A AE2 0. 0. 50*
|
||
5537 (CL III) 1 A A F 2 1. 00* 0. 70*
|
||
67L7- IS U..1 1 B AE2 0.45* 0.19*
|
||
(S M ) 1 B AE2
|
||
2 (PK NO. 133 -8 1) 'C = 0.66 (HYDROGEN LINES)
|
||
REGICN KEY (REGION.REFERENCE.EXPLANATION)
|
||
WAVE IDENT N RG PEE OBS I AVE O CORR I A t AE2 , REGIONS A AND B ON DIFFERENT SCALES
|
||
3727 (O II ) 1 Wl 13. 10 20.62
|
||
3835 (O II ) 1 AD B . 30 8.30 12.46 FNP Ml 4 (PK NO. 147 -2 1)
|
||
(NE I II ) 1 AD 78.00 68.53 115.37 101.37
|
||
1 0 77.60 68.53 114.78 101.37
|
||
50.00 68.53 73.96 101.37
|
||
l 1.70 17. 14 BEGIN MI 7 (PK NO. 189+ 7 t) C = 0.61 (DUST MODEL)
|
||
9. 20 13.48
|
||
41. QQ 60.Q7 WAVE IDENT N RG REF OPS I AVE O CORR I AVE C
|
||
AD 11. 70 17. 14 3727 (O II ) l VV l 24.00 36. 50
|
||
Wl 41.00 60.07 3869 (NE III) 3 VV l 13.00 18.66
|
||
(PK NO. 133-8 1) (PK NO. 189+ 7 1)
|
||
625
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
<£K NQ,t \(f -1 n 56 (PK NO.
|
||
HAVE IOENT N RG REF OBS I COPR I WAVE IDEM N RG REF DBS AVE O
|
||
6563 H T _2 1400.00 4363 LQ III) l VV^ 23.QQ 29.94 29.2á
|
||
4861 H I 1 VV4 100. 00 100.00 100.00 100.00
|
||
46 ( PK NO. 4959 (0 III) 1 VV4 160 00 160.00 153.14 153.14
|
||
5007 (o un i vv4 480. 00 480.00 449.43 449.43
|
||
6563 II ) 2 VV4 760. 382.69
|
||
6563 I 2 VV4 760. 382.69
|
||
48 IPK NO. 13 -31) C = 0.51 (HYDROGEN LINES)
|
||
56 CPK NO.
|
||
HAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4340 H I 1 VV4 48.00 48.00 56.11 56.11
|
||
4861 H I 1 VV4 100.00 100.00 100.00 100.00
|
||
4959 (0 III) 1 VV4 250.00 250.00 * 243.87 243.87 BEGIN Ml 57 <PK NO. 22-2 1) 2.10 (DUST MODEL)
|
||
5007 (0 III) 1 VV4 680.00 680.00 655.11 655.11 OBS I AVE O CORR I
|
||
6563 VV4 1600.00 1084.60 WAVE IDENT N RG REF AVE C
|
||
6563 VV4 1600.00 1084.60 4686 HE II 1 R3 78.00 78.00 97.26 97.26
|
||
4861 HI 1 R3 100.00 100.00 100.00 100.00
|
||
48 (PK NO. 1 VV5 100.00 100.00 100.00 100.00
|
||
I II ) 1 R3 400.00 265.50 361.11 239.69
|
||
1 VV5 131.00 265.50 118.26 239.69
|
||
5007 (0 III) 1 VV5 375.00 375.00 321.63
|
||
BEGIN Ml 50 (PK NO. 14 -4 1) C = 1.40 (HYDROGEN LINES) 6563 H I 2 VV5 594.00 119.82
|
||
6563 II ) 2 *15 594.00 119.82
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3727 (O II ) 1 VV4 20.00 52.34 END 57 (PK NO. 22 -2 1)
|
||
3869 (NE III) J VV4 43.QQ 98.56
|
||
3970 H I 2 VV4 28.00 58.87
|
||
3970 (NE III) 2 VV4 28.00 58.87
|
||
-4JLQZ VV4 35.00 35.QQ 65. 51 -65>51 BEGIN MI SB ÍPK NO. ??-3 11 Q.97 (HYDROGEN LINES)
|
||
4340 H I 2 VV4 30.00 46. 06
|
||
4363 (0 III) 2 VV4 30.00 45.21 WAVE IDENT N RG REF OBS I CORR I
|
||
4686 HE II L_ VV4 3Q.QQ 30.00 34.75 .34.75 3 7 ¿7 (0 II) 1 VV 1 85.00 165t 54
|
||
4861 H I 1 VV4 100.00 100.00 100.00 100.00 3868 R3 46. 00 81.78
|
||
4959 (0 III) 1 VV4 350.00 350.00 326.93 326.93 VV 137.50 244.44
|
||
5007 (0 III) 1 VV4 1200.00 1200.00 1Q83.26 1QB3.26 3 B89 _H L_ -R3- 3.2Q 5.61
|
||
6563 II ) 2 VV4 2500.00 859.86 137.50 241.03
|
||
6563 I 2 VV4 2500.00 859.86 3.20 5.61
|
||
137.50
|
||
50 (PK NO. 14-4 1) R3 17.00 28.49
|
||
VV 72.50X 121.52X
|
||
■R3 17..0Q —28.45—
|
||
VV 72.50X 121.32X
|
||
53 (PK NO. 15 -41) C = 0.85 (HYDROGEN LINES) 4072 R3 16. 00 16.00 25.17 25.17
|
||
4101 R3 18.00 1 a.no 27..81 27.81
|
||
WAVE IDENT N RG REF OBS I CORR I 65.00X 100.42X
|
||
3970 H I 2 VV4 44.00 69.08 33.00 44.41
|
||
-INF III ) 2 44. nn 69.OB 120.OOX 161.51 X
|
||
4861 I 1 VV4 100.00 100.00 100.00 100.00 (0 I II ) 1 9.60 12.76
|
||
4959 III ) 1 VV4 250.00 250.00 239.86 239.86 2 VV 1 120.OOX 159.45X
|
||
<34.00 94.00 88.34 88.36 vv i 4?.soy 78.43X
|
||
6563 I 2 VV4 719.00 376.11 4686 HE II 220.OOXA 243.61XA
|
||
6563 II ) 2 VV4 720.00 376.63 4861 H I R3 100.00 100.00 100.00 100.00
|
||
VV 1 100.00 lOQ^QJ i no.no 1QQ.QQ
|
||
53 (PK NO. 15 -4 1) VV5 100.00 ICO.00 100.00 100.00
|
||
(0 III) R3 240.00 219.33 228.93 209.21
|
||
VV. 1 22Q^QQ 219.33 209.85
|
||
198.00 219.33 188.86 209.21
|
||
54 (PK NO. 16 -4 1) 1.00 (HYDROGEN LINES) (0 III ) 775.00 712.50 721.95 663.72
|
||
650.00 712.50 605.50 663.72
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 5876 HE I 122.50 122.50 75.84 75.84
|
||
3727 (0 II 1 VV 1 0.0 A 85.00 0.0 163.99 6300 (0 1 ) 140.00 140.00 73.09 73.09
|
||
-VV4 . 85. 00 168.99 6563 H I 315.00 150.37
|
||
3869 (NE III ) 1 VV 1 0.0 A 54.00 0.0 A 97.65 VV5 508.00 242.50
|
||
1 VV4 54.00 54.00 97.65 97.65 (N II) VV l 315.00 150.37
|
||
3889 H I 2 W 1 Q»Q L. Q.O Q« Q A . ■■■■Q.Q VV 5 508.00 24¿t-5Q_.
|
||
2 VV4 8.50 15. 16
|
||
2 VV 1 0.0 0.0 A END Ml 58 (PK NO. 22 -3 1)
|
||
2 VV4 8 « QQ .-Là. 27
|
||
3970 H I 2 VV4 18.00 30.60
|
||
3970 (NE I II ) 2 VV 1 0.0 A 0.0 0.0
|
||
2 WA 16.QQ 3Q.6Q BEGIN Ml (PK NO. 23-2 1) C = 1.03 (RADIO-H BETA)
|
||
3970 0.0 0.0 A
|
||
4102 45.80 A 71.67 A WAVE IDENT N RG REF OBS I CORR I
|
||
14.00 14.QQ 3727 _LC II ) J VV 1 29.8Q 6Q.48
|
||
VV 1 41.70 36.85 56.64 50.05 (NE III) R3 100.OOX 184.22X
|
||
VV4 32.00 36.85 43.47 50.05 VV l 40.40 74.42
|
||
..V.V4 17.00 17.QQ 18.88 18.88 3889 .VV 1 40. 40 73.32
|
||
100.00 100.00 100.00 100.00 3889 HE I 3 VV l 40.40 73.32
|
||
100.00 100.00 100.00 100.00 3967 (NE III) 2 R3 64.OOX 110.76X
|
||
. .4.959 _I_Q III ) VV I . 241.70 270.85 230.21 257.97 2 VV 1 40.40 69.91
|
||
VV4 * 300.00 270.85 285. 74 257.97 3970 R3 64.OOX 110.56X
|
||
VV 1 541.70 695.85 503. 51 646.79 VV 1 40.40 69.79
|
||
V.Y4_ 85Q.QQ 695.85 79Q.Q8 -6-46.79 41Q1 79^-QQX 125.37X
|
||
6300 (0 ) l VV 1 66.70 34. 13 57.40 91.09
|
||
6563 H 2 VV 1 1250.00 583.22 96.OOX 131.60X
|
||
2 VV4 .45Q.Q..Q9- 2Q99.58 VV 1 159.6Q 218.19-
|
||
) 2 VV 1 1250.00 583.22 10 III ) 53.OOX 71.67 X
|
||
2 VV4 4500.00 2099.58 159.60 215.82
|
||
. 468.6 HF II 91. OOX 101.4QX
|
||
54 (PK NO. 16-4 1) 100.OOX 100.OOX
|
||
l VV 1 100.00 100.00 100.00 100.00
|
||
_1 VV5 1QQ.Q0 1 00.00 100.00 100.00
|
||
(0 III) 1 R3 400.OOX 380.43X
|
||
56 (PK NO. 16 -4 2) 0.90 (HYDROGEN L INES) 1 VV 1 170.20 179.10 161.87 170.34
|
||
1 VV5 188.00 179.10 178.80 170.34
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C (0 III) 1 VV 1 638.20 675.60 591.91 626.60
|
||
3 869 (NE III) l VV4 21.00 21.00 35.79 35.79 l VV5 713.00 675.60 661.28 626.60
|
||
3889 1Q.QQ . -83 5876 HE L I VV 1 2 3.40 23.40 14.06 14.06
|
||
3889 HE I 2 VV4 10.00 16. 83 6300 (0 I ) 1 VV l 44. 70 22.42 22.42
|
||
3970 H I 2 VV4 18.00 29.02 6563 H I 2 VV 1 595.70 271.65
|
||
3970 (NE III) 2 VV4 18.00 29.02 2 VV5 925.00 421.82
|
||
4102 VV4 15.00 15.00 22.44 22.44 2 VV 1 595.70 271.65
|
||
4340 VV4 32.00 32.00 42.16 42.16 2 VV 5 92 5. 00 421.82
|
||
56 (PK NO. 16 -4 2) 59 (PK NO.
|
||
627
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE Continued
|
||
BEGIN mi _6_0 IPK NO. 19 -4 1) Q.Q ( HYDRDGEN I INF.SI Ml.. _Z3 (PK NO. 51 -3 1)
|
||
WAVE IOENT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3727 (0 II) 1 ^_L_ . 18.Qg A . _18tOP-A_ 3967 JL-N-E IU ) 2 VV 1 31.60 39.56
|
||
3869 (NE III) VV l 80.00 80.00 2 R 16:00 19.89
|
||
3889 H I VV 1 80. 00 80.00 2 VV 1 31.80 39. 53
|
||
.3889.... —HE L VV. 1 . 80,.Q0 .. -80.00- . 4101 _H L_ _1 B 21.00 . 2L..85 25.24 26.26
|
||
3970 (NE I II) 1 20. 70 20.70 22.70 21.85 27.28 26.26
|
||
3970 H I VV 1 20. 70 20.70 42.00 42.00 47.62 47.62
|
||
4102 H I w.. i 36.70 A ■36t7-Q-A-_ 54.50 -61.79
|
||
4340 H I 2 VV l 120.00 120.00 4363 (0 III) 5. 80 6. 54
|
||
4363 <Q III) 2 VV l 120.00 120.00 54.50 61.46
|
||
-4686 HE II J ^ VV 1 . 34.00 34.00 34.00. .-3-4.00- 4471 HF I 12^-00 12*-QQ 13.21
|
||
4861 I 1 VV 1 100.00 100.00 100.00 100.00 4861 100.00 100.00 100.00 -J3.21
|
||
100.00
|
||
4959 (0 III) l VV 1 55.30 55.30 55.30 55.30 VV l 100.00 100.00 100.00 100.00
|
||
5007 CO II.U i yy-.i 146.70 146.70 146.70 146.70 4959 _R 180.00 137.95 176.44 135.22
|
||
5411 HE II l VV 1 28.70 28.70 28.70 28.70 VV 1 95.90 137.95 94.00 135.22
|
||
6300 (O I ) 1 VV l 36. 00 36.00 36.00 36.00 5007 III ) VV 1 359.10 359.10 348.50 348.50
|
||
_6563 H L 2 213.30 213.30 5754 II ) VV- 1 VV 1 0.0 A 0.0 0.0 A 0.0
|
||
(N II ) 2 5876 HE I VV 1 0.0 0.0 0.0 A 0.0
|
||
6300 <n I ) VV 1 18.20 18.20 13. 83 13.83
|
||
_EM2 MJ- -612 (PK-NQi 19-4 11... 6563 H I -W 1 . 590.90 -432.29
|
||
(N II ) 2
|
||
_L3 (PK NO. 51 -3 1)
|
||
61 (PK NO. C = 0.20 (HYDROGEN LINES)
|
||
—HA.VE— IOENT N RG REF . QBS I AVE 0 CÛRP, I, AVE C
|
||
4101 H I l VV 5 24. 80 27.13 27.13 BEGIN Mi 74 (PK NO. 0.0 (HYDROGEN LINES)
|
||
4340 H I 2 VV5 41.00 43.59
|
||
4363 (0 111)2 VJVÜ 41 .-0.0 43.47 . WAVE OBS I
|
||
4686 HP T I l VV5 24.00 24.00 24.51 24.51 (0 II ) l LU 2.08* 2.08*
|
||
4861 H I 1 VV 5 100.00 100.00 100.00 100.00 1 VV 27.30 27.30
|
||
-4.9519 LO IIJ1-J V.V-5 . . 369.00 369.00 365.42- 365.4? - 3729 _LQ U )1— LU l.-QQ*- l.QQt
|
||
5007 (0 'III) I VV 5 1210.00 1210.00 1192.44 1192.44 3835 H I I 12.00 12.00 12.00 12.00
|
||
5876 HE I 1 VV5 31.00 31.00 28.08 28.08 3 869 (NE III) 1 57.60 57.60 57.60 57.60
|
||
63 QC (01)1 VV5 34.00 34.00 29. 74 29.74 - 3 88-9 H I 1 1 6 .-00 16.-00 16.00
|
||
6563 H VV5 2140.00 1837.38 VV 1 30.30 30.30
|
||
6563 (N 11)2 VV 5 2140.00 1837.38 3889 HE I 2 VV 1 30.30 30.30
|
||
- 39-62 _LNE Li I ) 2 _ß 52.QÛ -52.QQ
|
||
61 (PK NÜ. 24.20 24.20
|
||
52.00 52.00
|
||
4069 (S II ) l 32.00 32.00 32.00 32.00
|
||
63 (PK NU. 21 -5 1) C = 1.27 (DUST MODEL) 4076 S II 1 VV 1 33. 30 33.30 33.30 33.30
|
||
- 4101 —H I 1— _B 40.00 26.10
|
||
WAVE I DENT N PG REF oes i AVE 0 CORR I 12.20 26.10 12.20 26.10
|
||
4959 (0 I II ) 1 VV1 1.30* 1.22* 55.00 55.00 55.00 55.00
|
||
-LO I I I ) - l- 16.00* —12.76» .
|
||
6300 ) 1 VV1 2.10* 0.90* (0 III ) 1 R 17.00 17.00
|
||
6563 2 VV1 1 1.50* 4.37* W 54.50 54. 50
|
||
6563. VV 1 11.50» . 4.37» 2 5.00 -2 5.00
|
||
1 45.50 3 5.25 45. 50 35.25
|
||
63 (PK NO. 21 -5 l) 4542 HE II 1 26.00 26.00 26.00 26.00
|
||
4645 _N LLi 2_ ...4-8^50
|
||
4645 C III 2 48.50 48. 50
|
||
4686 HE II 1 34.00 34.00 34.00 34.00
|
||
BEGIN M1 -J54 (PK NQ. C .= 0.3B ID.U.ST MODEL.)... 4R61 -Jd I 1- 100.00 -1 no.,no _100.-00 LQQ.oa
|
||
100.00 100.00 100.00 100.00
|
||
WAVE IUENT N RG REF CBS I AVE 0 CORR I (n mil 280.00 249.10 280.00 249.10
|
||
3727 (C II) 1 R3 300.00 389.52 218.20 249.10 218.20 249.10
|
||
305.60 396.79 5007 (C III) 1 624.20 624.20 624.20 624.20
|
||
(NE III) l 56.00 89. 10 70. 16 111.63 5876 HE I 1 24.20 24.20 24.20 24.20
|
||
VV 1 122..2Q 89.IQ 153.Q9 6300 -LQ L. _) L_ -XV 1
|
||
3889 2 R3 28.00 34. 89 111.63- 6563 2
|
||
_6j_LQ_ 6.10
|
||
248.50
|
||
6. IQ
|
||
248.50
|
||
6.10
|
||
2 VV 1 61.10 76. 13 6563 ) 2 248.50 248.50
|
||
-3.889 HE-L- 2 R3 28.00 34.89
|
||
61.10 76. 13 74 (PK NO. 52 -4 1)
|
||
3967 18.00 22.04
|
||
vv i 80.60 A 98.68
|
||
3970 1 R3 43.00X 52.61X
|
||
2 VV l 80.60 98.61 A BEGIN Ml 80 (PK NO. 107 -2 1) 0.44 (HYDROGEN LINES)
|
||
-4101- -1 EL3 24.00 . 2 4j-Q_Q -28.«.i¿ -28 »46.
|
||
1 VV l 69.40XA 82. 29XA WAVE IDFNT N PG REF OBS I AVE 0 CORR I AVE C
|
||
l P3 36.00 40.44 3727 (0 II ) 1 VV5 47.00 63.59
|
||
1 VV 1 108.30X 121.67X 3868 (NE II I) 1 VV5 23.00 23.00 29.86 29.86
|
||
4363 (C III) VV 1 66.70 X 74.56X 4101 VV5 10.00 10.00 12. 18 12.18
|
||
4471 HE I VV 1 2.80 A 3.06 A 4340 ORF 4 1.00 41.00 46.91 46.91
|
||
4686 HF I I VV 1 16.70 A 17.38 A _2 yy.5_ 21.00 -24.Q3
|
||
1 CL Z 2 100.00 100.00 100.00 100.00 (0 II I ) 1 ORF 19.00 21.61
|
||
1 KA2 100.00 100.00 100.00 100.00 2 VV 5 21.00 23.89
|
||
1 R3 100. 00 100.00 100.00 100.00 4686 HE 11 ORF 46.00 46.00 48. 18 48.18
|
||
1 VV 1 100.00 100.00 100.00 100.00 4861 H I 1 ORF 100.00 100.00 100.00 100.00
|
||
l KA2 261.00 200.50 256.21 196.82 1 VV5 100.00 100.00 100.00 100.00
|
||
...2QQ.SQ 196.62 4959 (0 II I) 1 ORF 244.00 267.00 238.83 261.34
|
||
4991 <0 III) _I BJL_
|
||
CLZ2 . 1.40^0
|
||
700.00 700.00 -131..43683.02 683.02 1 VV5 290.00 267.00 283.85 261.34
|
||
5007 (0 III) 1 VV 1 527. 80 52 7. 80 513.34 513.34 II) l ORF 325.00 A 314.71 A
|
||
5876 HF I 1 VV 1 108.40 lQ8t4Q 89. 84 89.84 -XV 5 8QQ.QQ 800.00 774.68 774.68
|
||
6300 (PI ) VV 1 97.20 97.20 75.35 75.35 5876 HF I 1 ORF 21.00 21.00 16.90 16.90
|
||
6563 H T CL Z 2 285.00 285.00 213.32 213.32 6563 H I 1 ORF 405.00 405.00 289.59 289.59
|
||
VV 1 555.70 -4L3..-24. -2 V-V5... 460.00 -328.9.1
|
||
6563 (N II > 2 VV 1 555.70 415.94 6563 (N II VV5 4Ö0.00 328.91
|
||
6575 ( N II) 1 CLZ 2 400.00 400.00 298.90 293.90 6583 (N II ) 1 ORF 270.00 270.00 192.43 192.43
|
||
6723 ( S II ) 1 SUL ¿2- . 80.T...0Q 80.00 58.68 58 tfrfl 6717 (S II ORF 2ÜjlQJL- - 28*0Q _ 19.57 19.57
|
||
6731 (S 11)1
|
||
64 ( PK NO.
|
||
END Ml 80 (PK NO. 107 -2 1)
|
||
. B..E1LLN. ...M-L- 73 (PK NO. 51 -3 1) 0.41 (HYDROGEN LINES)...
|
||
BEGIN M2 4 (PK NO. 349+ 41) C = 0.0 (NO CALCULATION)
|
||
WAVE IDENT N RG REF OBS AVE O CORR I AVE C
|
||
3727 _L0 II )-J VXJL. 68 .-20 9Q.AQ WAV-E IOENT N- RG.. REF OBS 1 AVE O CORR I AVF C
|
||
3889 H I 1 15.00 19.02 6563 I l HE67 l•00*A 1.00*A
|
||
3967 (NE III) 2 16. CO 19.90 6584 (N II ) l HE6 7 0. iO*A 0.10*A
|
||
73 ( PK NO. (PK NO. 349+ 4 1)
|
||
628
|
||
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
629
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
WEI -J. tPK NQt :^-2) tPK NQ. 342■*•27 1)
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3967 (NE III) 2_ 33.00 42.16 3967 ine im 1 AC7 0 19.00 iq.oo 19.20 19,20
|
||
1 AKI 27.00* 34.49* 2 VV 1 65.30 66.00
|
||
2 R 39.00 49.82 1 AC70 15.00 15.00 15. 16
|
||
_2 VV 1 62.90 80.36 _2 W 1 65.30 66.00
|
||
33.00 42.15 4023 HE II 1 AC7 0 1.60 1.60 1.62 1.62
|
||
AKI 12.00* 15.33* 4026 HE I 1 AC70 0.0 0.0 0.0 0.0
|
||
_R 39.00 49.82 -4068 _ls u r 1 AC70 1.40 1.4Q 1.41 1.41
|
||
2 VV 1 62.90 80.35 4076 l AC70 0.50 0.50 0.50 0.50
|
||
1 A 4.60 7.30 5.78 9.17 4101 1 AC 70 22.60 39.95 22.80 40.31
|
||
_L_ 10. 00 7.30 12.57 9.17 _J VV 1 57.30 39.95 57.82 40.31
|
||
2 A 11.00 13.65 4199 HF II 1 AC 70 2.00 2.00 2.02 2.02
|
||
1 AKI 8.80* 10.92* 4340 H I 1 AC70 51.00 37.50 51.31 37.73
|
||
_J B 14.QQ . 14. QQ L yv i -24.00 37.50 24.15 37.73
|
||
11.00 13.62 (0 III) 1 AC 70 18.50 21.90 18.61 22.03
|
||
3.00* 3.71* 1 VV 1 25.30 21.90 25.45 22.03
|
||
22.90 28.35 28.35 HF T ACTO 2.00 1 9-nn 2-01
|
||
20.00 21.90 24.58 26.92 1 VV 1 36.00 19.00 36. 17 19.09
|
||
20.00 21.90 24.58 26.92 4541 HE II 1 AC 70 3.40 3.40 3.41 3.41
|
||
25.70 21.90 31.59 26.92 4634 _fj LLL -J A.C.7 0 1.14 1.14 1.14 1.14
|
||
4143 HE I l R 9.30 9.30 11.29 11.29 4640 III AC70 1.70 1.70
|
||
4267 C II 1 AKI 0.50* 0.59* 4645 C III 2 VV 1 42.70 42.81
|
||
4340 Jj I_ 1 A 34.00 34,50 39.14 39,7? 4645 N TIT -2 VV 1 42.70 42.81
|
||
36.00*A 41.45*A 4647 C III l AC70 0.65 0.65 0.65 0.65
|
||
35.00 40.29 39.72 4649 0 II 1 AC70 0.76 0.76 0.76 0.76
|
||
W 1 42.80 49.21 -£685 HE II J AC 70 120-00 A 120.25 A
|
||
(0 III I 1 10.00 18.50 11.44 21.17 I KA2 90.00 84.35 90. 19 84.53
|
||
AKI 9.30* 10.64* l VV 1 78.70 84.35 78.87 84.53
|
||
-fi- 27.00 18.50 30.90 21.17 1 AR IV ) J AC 70 10-90 10.90 -IH. 92 10-9?
|
||
2 VV 1 42. 80 48.98 4713 HE I l AC70 0.0 0.0
|
||
1 AKI 0.60* 0.68* 4724 (NE IV > 1 AC70 2. 10 2. 10
|
||
-I B 14.00 15.9? 4740 15 IV > J AC 70 6.20 . 6.21
|
||
1 A 6. 50 7.24 7.24 1 AC 7 0 100.00 1 00.00 100.00 100.00
|
||
1 AKI 6.30* 7.02* l KA2 100.00 100.00 100.00 100.00
|
||
1 R 26.0QX 28.96X -J 0116 3 100.00 100.00
|
||
4634 N III 2.60 2.77 1 VV 1 100.00 100.00 100.00 100.00
|
||
4640 N III 2.60 2.76 1 AC70 470.00 447.23 469.54 446.80
|
||
4685 HE II 5.20— -5^46- —I KA2 525.00 524.49
|
||
2.80* 2.94* l VV 1 346.70 447.23 346.36 446.80
|
||
4711 5. 80 6.04 (0 III ) l AC70 1410.00 1264.43 1407.94 l 262.59
|
||
4. ?Q* 4.38* J 0063 -1-410. QQ 1264.43 -140 7.94 1 262.59
|
||
33. 00 19.40 34.39 20.22 l VV l 973.30 1 971.88 l
|
||
4713 HE I AKI 4.20* 4.37* 5411 HE II 1 VV 1 49.30 A 49.02 A
|
||
4740 (AR IV 1 —A— 7. 70- ?0-85 7-96 -21^55 6563 _H I -2 VV 1 150.70 148.42
|
||
1 AKI 4.00* 4. 13* 6563 (N II ) 2 VV l 150.00 147.73
|
||
1 R 34.00 20.85 35. 14 21.55 6717 (S IT I 1 AE2 0.85* 0.84* ,
|
||
-4861 —1 A ion.on i nn.no ino.oo inn.op 6730 -LS II ) J A-E2 1.00* 0.98* 1
|
||
1 0D6 3 100.00 100.00 100.00 100.00
|
||
1 R 100.00 100.00 100.00 100.00 END CPK NO. 342 + 27 1)
|
||
_1 VV 1 100.QQ 1QQ.00 100.QQ inn.oo !
|
||
520.00 399.53 508.48 390.68
|
||
250.00 399.53 244.46 390.68
|
||
4?8.6n 399.53 41*9. 1 0 390.68 RFGIN MF? (PK NO. inn -ft 1> 0.2 5 ( H YDRnGF N 1 INFS1
|
||
(0 I II ) 1 1970.00 346.67 1904.85 1302.13
|
||
I 0063 1070.00 1346.67 1034.61 1302.13 WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
_J VV 1 1000.QQ . 1346.67 966.93. ,.1302.13 3712 _H I _1 A 3.90 3.9Q . 4.64 4.64
|
||
5411 HE II 28.60 28.60 25. 10 25.10 40.00 47.51
|
||
5876 HE I 20.00 20.00 15.93 15.93 PER 22.00 26. 13
|
||
6300 (0 I ) VV 1 34.30 34.30 25.20 25.20 SO 1.00* 1.19*
|
||
6563 H I VV l 371.40 261.54 VV 5 36. 50 43.35
|
||
6563 (N II ) VV 1 371.40 261.54 3729 SO 0.46* 0.55*
|
||
3734 _A 5.50 _5jl5_Q- 6.52 6.52
|
||
END (PK NO. 52 -2 2) 3750 H I 5.40 5.40 6.39 6.39
|
||
3770 H I 6.20 6.20 7.31 7.31
|
||
3797 _y L 9. QQ 9. QQ 10.57 10.57
|
||
3835 10.00 10.00 11.66 11.66
|
||
(PK NO. 342+27 1) 0.02 (RADI0—H BETA) 3868 (NE III 1 l 75.00 84.00 86.99 97.43
|
||
-53.QQ 84.QQ 61.47 97.43
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C PER 54.00 84.00 62.63 97.43
|
||
3132 0 III 1 AC 70 30.00 30.00 30.65 30.65 VV5 154.00 84.00 178.62 97.43
|
||
3203 HE II 1 AC70 40. 00 40.00 40.83 40.83 3889 _H I_ 25.QQ 25.QQ .28.89
|
||
3299 0 III AC 7 0 3. 50 3.50 3. 57 3.57 VV5 74.00X 85.52X
|
||
3312 0 III AC 70 10.20 10.20 10.40 10.40 3889 HE I VV5 74.00X 85. 52 X
|
||
334Q Q in -1 AC7Q 15.00 15.00 15,29 15.28 3967 (NE III ) _JA 41.00 46.84
|
||
3345 (NE V ) 1 AC70 94.00 95.75 2 VV5 82.00X 93.68X
|
||
3425 (NE V ) 2 AC7 0 250.00 254.39 ? A 41.00 46.84
|
||
3428 _Q LL 2 AC7Q ?50.00 254.38
|
||
4026
|
||
_2 VY5 82.00X -93..67X.
|
||
3444 0 III 1 AC70 41.00 41.71 HE I 6.10 6.91
|
||
3682 H I 1 AC70 0.20 0.20 4069 ( S II) 2. 30 2.59
|
||
3696 H 1 1 AC70 _fia_55L_ 0-50 0, 51... 0.51 4076 __LS LI L 2.3Q 2.58
|
||
3691 1 AC70 0.83 0.83 0. 0.84 1 A 35.00 32.00 8 39. 15 35.80
|
||
3697 1 AC 7 0 1.10 1.10 1. 12 1.12 1 PER 29. 00 32.00 32.44 35.80
|
||
370? _J AC7Q 1,35 1.35 1,37 1,37 _i yv5 -46,QQX 51.46X
|
||
3705 l AC70 0.0 0.0 0.0 0.0 A 52.00 47.50 56. 14 51.28
|
||
3712 1 AC 70 1.80 1.80 1.83 1.83 PER 43.00 47.50 46.42 51.28
|
||
3722 2 AC7 0 3.40 3.45 VV5 64.QQX
|
||
3722 ( S III) 2 AC7 0 3.40 3.45 (0 III) 8. 30 10.15 8.93 10.92
|
||
3726 (0 II ) l AC70 20.30 20. 58 12.00 10.15 12.91 10.92
|
||
l VV 1 66.70 67.6Z 4471 —Hg—I 12.20 9.97 12.94 10.59
|
||
3728 II ) l AC7 0 16.30 16.53 KA2 7. 75 8.22
|
||
3734 I 1 AC 70 2.40 2.43 2.43 VV5 18.00X 19.08X
|
||
3750
|
||
3 754 J AC7Q, . 3.30 3.34 3,34 —4-634. N MI _jS 3.60 3.72
|
||
0 III 1 AC70 2.20 2.20 2. 23 2.23 4640 III 2 3.60 3.72
|
||
3759 0 III 1 AC 70 5.50 5.50 5.57 5.57 4711 (AR IV ) l A 3.00 3.00 3.07 3.07
|
||
3770 H I 1 AC7 0 4. 10 4.10 4. 15 -4^15 4861 —b I J, A_ 100-00 1QQ.QQ 100,00 100-00
|
||
3797 H I 1 AC 70 6.20 6.20 6.28 6.28 KA2 100.00 100.00 100.00 100.00
|
||
3835 H I 1 AC70 8.00 8.00 8.10 8.10 PER 100.00 ICO.00 100.00 100.00
|
||
-3.868 (ne nn J AC7Q 78.00 93,65 78^93 94.77 VV 5 100,00 100.00 100.00 100.00
|
||
1 VV 1 109.30 110.60 4959 (0 III) A 200.00 217.25 197.58 214.62
|
||
I 2 AC70 13.60 13.76 KA2 242.00 217.25 239.07 214.62
|
||
__2 W 1 76,00 76.88 -PER 235.00 -217.25 232.16 ? 14.6?
|
||
HE I 2 AC 70 13.60 13. 76 VV5 192.00 217.25 189.68 214.62
|
||
2 VV 1 76.00 76.88 (0 III) PER 703.00 624.00 690.27 612.70
|
||
(PK NO. 342 + 27 1) (PK NO. 100 -8 1)
|
||
|
||
631
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
PS (PK NQ. tf-Zl l) BEGIN VYl. lPK_.N.P.t., 1.18 -9 W C = 0.96 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4363 (0 im 1 P72 3,16 3.57 3,38 3,82 3727, _UJ II ) 1 VYl 31.30 6Q.54
|
||
4471 HE I OP 6.04 6.04 6.37 6.37 35.00 54.70 61.85 96.67
|
||
4861 H I OP 100.00 100.00 100.00 100.00 26.00 54.70 45.95 96.67
|
||
P7.2 1QQ.ÛÛ 100.0Q . 1QQ.0Q 10Q.QQ 103.10 54.70 _A8¿ 20 96.67
|
||
4959 (0 III) 1 OP 38.90 38.90 38.47 38.47 3889 1 R 13.00 22.66 22.66
|
||
5007 (0 III) 1 OP 123.00 159.00 120.95 156.35 2 VV1 21.90 38. 17
|
||
P72 195.00 159. Q-Q 191.75 156.35 3889 VV1 21-90 ?8tl7
|
||
5876 HE I P72 12.90 12.90 11. 51 11.51 3967 (NE III) 16.00 26.68
|
||
6563 H I P72 339.00 339.00 284.48 284.48 50.00 83.36
|
||
3970 H I 16.00 26.63
|
||
<PK NO. 65-27 1) 50.00 83.22
|
||
14.00 32.00 21.53 49.21
|
||
50.00 32.00 76.90 49.21
|
||
4340 l R 30.00 55.65 40.25 74.67
|
||
71 (PK NO. 36 -1 1) 0.85 (HYDROGEN LINES) l VV1 81. 30 55.65 109.09 74.67
|
||
4363 1 R 4.60 5.45 6.09 .22
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C VV1 6.30 5.45 8.35 7.22
|
||
4686 HE I I 1 CLZ2 90.00 90.00 98.41 98.41 KA2 4.40 8.07 5.51 10.10
|
||
4861 _±L_ _J CLZ2 IQQ.QQ.. IQQ.QQ IQQ.QQ IQQ.QQ .-1 tQQ ■ 07 1.25 10.10
|
||
4991 III ) CLZ2 1250.00 1250.00 1183.21 1183.21 VV1 18.80 8.07 23.54 10.10
|
||
6563 I 1 CLZ2 545.00 545.00 285.09 285.09 4686 HE II VV1 12. 50 12.50 13. 83 13.83
|
||
6575 -U M ÇU2 31P0t OH... H.C-Qa.QjS— -L6Í5..&2 LM?« 52 4861 H I KA? -LQQ.j.QQ LQ.Qm.Q.0 100.00 100.00
|
||
6723 (S 11)1, CLZ2 370.00 370.00 1 R 100.00 100.00 100.00 100.00
|
||
1 VV1 100.00 100.00 100.00 100.00
|
||
END S 11 1 PK NQ. 36 -1 1) 4959 _lq nn J &A2 3QQ«QQ 291.47 286.3Q 2.7.8.15
|
||
340.00 291.47 324.47 278.15
|
||
VV1 234.40 291.47 223.69 278.15
|
||
VV1 750.00 75Q.QQ 699. 17 699.17
|
||
BEGIN SP 1 (PK NO. 329+ 2 1) 0.47 (RADIO—H BETA) 5411 HE II 1 VV1 40.60 30.91 A
|
||
5876 HE I l Wi 37.50 23. 33 A
|
||
-63QQ JLD I L A VV1 -8^40 44.36 A
|
||
4340 HI l WR 48.00 48.00 55.43 55.43 6563 VV1 656.30 315.69
|
||
4861 HI 1 WB 100.00 100.00 100.00 100.00 6563 (N II ) 2 VV1 656.30 315.69
|
||
5 007 LO I IT ) 1 WR 740.00 740.00 715.0) 715.01
|
||
1 ( PK NO. 118 -8 1)
|
||
(PK NO. 329+ 2 1)
|
||
(PK NO. 53+24 1) C = 0.0 (HYDROGEN LINES)
|
||
BEGIN SS C = 1.10 (HYDROGEN LINES)
|
||
WAVE TDENT N RG REF OBS I CORR I
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I 3 72 7 (0 II ) 1 R3 100.00 100.00
|
||
3727 _LG LI L 1. VV4 . 34.00 72.40 -3-868 (NE III)
|
||
3889 H I VV4 7. 30 13.80 143.00 143.00
|
||
3970 H I VV4 16.00 28.69 30.00 30.00
|
||
■3<a7n (NF IT
|
||
4102 VV4 30.00 30.00 49.09 49.09 HE l R3 30.00 30.00
|
||
4340 VV4 50.00 50.00 70.03 70.03 VV5 53.00 53.00
|
||
(NF III)
|
||
4645 III VV4 12.00 13.84 VV5 43.00 43.00
|
||
4861 VV4
|
||
A-QCjQ -LO IIII) 1 100.00 100.00 100.00 R3 65.CO 65.00
|
||
5007 (Q III ) VV4 30.00 30.00 27.68 4072 R3 15.00 15.00 15.00 15.00
|
||
5517 (CL III) AE2 0.^0* 0.21* 4101 R3 41.00 35.50 41.00 35.50
|
||
5537 -LO U..I.L. 1 A AF? .-ÛÛ* 0.68* VV5 30.00 3Q.QQ
|
||
6 563 II ) VV4 1000.00 432.33 4267 R3 5.00 5.00 5.00 5.00
|
||
6563 H I HE6 7 1•00*A 0.43*A 4340 R3 64.00 64.00 64.00 64.00
|
||
VV4 1000.00 432.33 VV5 33.00 33.00
|
||
6584 (N II) HE67 0.10*A 0.04*A R3 24.00 24.00
|
||
6717 ( S II) B AE2 0.41* 0.17* VV5 33.00 33.00
|
||
6730 _LS LI—JL B AE2 1.00» 0.41* 4471 HE I , R3 Í9.Q0 19,QQ 19.00
|
||
4541 HE I I R3 14.00 14.00
|
||
REGION KEY (REG ION,REFERENCE» EX PLANAT ION) 4634 N II 18.00 18.00
|
||
A » AE2 t REGIONS A AND B ON DIFFERENT SCALES 4640 _N LI_ R3 18.00
|
||
4686 HE II R3 46.00 39. 50 46. 00 39.50
|
||
VV5 33.00 39.50 33.00 39.50
|
||
4861 _J 100.00 100.00 -LOP. 00 ■1.00*0-0—
|
||
l VV5 100.00 100.00 100.00 100.00
|
||
1 R3 255.00 396.50 255.00 396.50
|
||
BEGIN VE _2_6 (PK NO. 265 -2 1) C = Q.Q (NO CALCULATION) 1 VV 5 538.00 396.50 538.00 396.50
|
||
5007 (0 III) 1 VV5 1625.00 1625.00
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I 6563 H I 2 VV5 600.00 600.00
|
||
_ftg63 H J i ME6.7 . i.QQ*A 1.00*A 6563 (N II ) 2 VV5 600.00 600.00
|
||
6584 (N II ) 1 HE67 1.00*A
|
||
-E.ND VE 2ft LPK NO. 265 -2 1)
|
||
BEGIN VYl -.-27 ~3 2) C = 0.0 (HYDROGEN LINES)
|
||
BEGIN Wl 2 (PK NO. 151 + C = 1.10 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR AVE C
|
||
WAVE
|
||
4861
|
||
IDENT N RG REF
|
||
H I l CLZ 2
|
||
OBS I AVE O CORR I AVE C 3868 ( NF I II ) 1 R3 _ 7.9, 00 ■ ■79tQQ 79.00 79.00
|
||
100.00 100.00 100.00 100.00 3889 H I 2 R3 26.00 26.00
|
||
6563 H I 1 CLZ 2 660.00 660.00 285.34 285.34 3889 HE I 2 R3 26.00 26. 00
|
||
-6575 LN II ) 1 CLZ2 46Q.QQ 4.6Q. 00 127.91 197.91 3 967 (NE III) 2 48.00 48.00
|
||
3970 HI 2 R3 48.00 48.00
|
||
(PK NO. 151+ 2 1) 4072 (S II ) 1 R3 30. 00 30.00 30.00 30.00
|
||
4101 HI 1 R3 33.00 33.00 33.00 33.00
|
||
4340 HI 1 R3 57.00 57.00 57.00 57.00
|
||
4363 (0 III) 1 R3 38.00 38.00 38.00 38.00
|
||
BEGIN Wl (PK NO. 197 -2 1) 1.50 (HYDROGEN LINES) 4861 HI 1 R3 100.00 100.00 100.00 100.00
|
||
(0 I II ) 1 300.00 300.00
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
4861 H I 1 CLZ2 100.00 100.00 100.00 100.00 (PK NO. 27 -3 2)
|
||
6563 H I 1 CLZ2 895.00 895.00 285.24 285.24
|
||
6575 (N TI ) 1 CLZ2 400.00 400.00 126.64 126.64
|
||
6723 LS— II ) 1 CLZ2 120.00 120.00 35.31 35.31
|
||
BEGIN VY2 (PK NO. C = 1.00 (HYDROGEN LINES)
|
||
Wl (PK NO. 197 -2 1)
|
||
-JLAV-E- IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
4861 HI 1 VV 3 100.00 100.00 100.00 100.00
|
||
4959 (0 III) 1 VV 3 152.00 152.00 144.77 144.77
|
||
(PK NO.
|
||
633
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
-6 2» 40 CPK NO. 0+ 0 n C » 0.35 (ESTIMATE)
|
||
WAVE TOENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE C
|
||
5007 (O I II ) 1 VV 3 432.00 432.00 401.54 401 .54 . 3.727 LQ LI 1 1 HB 39.00 49,60
|
||
6565 II ) 2 425.00 198.15 4861 H I 1 MB 100.00 100.00 100.00 100.00
|
||
6565 I 2 425.00 198.15 5007 (0 III) 1 WB 691.00 691.00 673.54 673.54
|
||
1 ( PK NG. NS 40 ( PK NO.
|
||
|
||
(PK NO. 45 -2 1) 1.00 (HYDROGEN LINES) 42 (PK NO. 0+ 0 1) 0.35 (ESTIMATE!
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
3727 (O II ) 1 VV 1 45.50 90.46 3727 (O II ) 1 WB 117.00 148.81
|
||
3869 (NE III) 1 R 42,00. 42,00 7i>, 95_ 75.95 4661 H I 1 WB 100.00 100.00 100.00 100,00
|
||
142.40 257.52 5007 (0 III) 1 WB 67.00 67.00 65.31
|
||
15.00 15.00 , 26.75
|
||
147.40 253.99 END NS 42 (PK NO. O-»- 0 1 )
|
||
3889 HE I 3 VV 1 142.40 253.99
|
||
3967 (NF III) 2 R 38.00 64. 72
|
||
2 VV 1 33.30 56.71
|
||
38.00 64.61 43 (PK NO. C = 0.27 (HYDROGEN LINES)
|
||
33.30 56.62
|
||
_LS II 1 -L 43.00 68.73 IDENT —AVE n CORR-I
|
||
4076 (S II J 40.00 40.00 63.65 63.65 3727 (O II ) i WB 12.00 14.45
|
||
4101 H I R 52.00 33.60 81.42 52.61 4340 HI 1 WB 43.00 43.00 46.71 46.71
|
||
VV 1 15.20 33.60 23.80 52.61 —43.63 in LU! 1 as 3,-36 3,36 3.64 3,64_
|
||
4340 H I 1 R 3 5.00 29.60 47.54 40.21 4471 HE I 1 8.00 8.00 8.52 8.52
|
||
1 VV 1 24.20 29.60 32.87 40.21 4861 H I I 100.00 100.00 100.00 100.00
|
||
43-6.3 LQ III) J S 14.00 13.05 IS.JJ- 17.49 -5007 LQ LI I ) 1_ 567.00 567.00 551.0? 551 .07
|
||
12. 10 13.05 16.22 17.49
|
||
4861 100.00 100.00 100.00 100.00 43 (PK NO.
|
||
VV 1 100.00 100.00 100.00 100.00
|
||
200.00 246.96 190.49 235.21
|
||
VV l 293.90 246.95 279.93 235.21
|
||
VV 1 545. 50 545.50 507.Q4_ 507.04 rfgtn ns 44 (PK-NO. 0+0 1) -0.94-LHYDROGEN 1 I MRS )
|
||
6300 (O I ) VV 1 57.60 79.47
|
||
6563 H I VV 1 939.40 438.30 WAVE IDENT N RG REF OBS AVE O CORR I AVE C
|
||
6563 LN I_I L_ VV 1 -939.40 4-38.30-- -3727 LO L-L 1 1- WB 35. 66.77
|
||
4340 I 1 WB 35.00 35.00 46.68 46.68
|
||
( PK NO. 45-2 1 ) 4363 III) 1 WB 7.14 7.14 9.40 9.40
|
||
4861.- _J 1 WB 100.00 1 00.00 _ 100.00 100.00 .
|
||
5007 (0 III) 1 WB 933.00 933.00 871.04 871.04
|
||
CPK NO. 107-13 1) 0.30 (HYDROGEN LINESL -END NS 44 (PK NO. 0+01)
|
||
WAVE IDENT N PG REF OBS I AVE G CORR I AVE C
|
||
4861 -ii I 1 CLZ2 1QQ.QQ I 00.QQ 1QQ.QQ IQO.QO
|
||
4991 (O II!) 1 CLZ 2 1000.00 1000.00 980.80 980.80 47 (PK NO. = 0.35 (ESTIMATE)
|
||
5876 HF I i CLZ2 40.00 40.00 34.49 34.49
|
||
6563 H I I CL 2-2 360. 00 360.00 286.40 286.40 -WAVE IDENT N RG REF Q-B-S- I -AVE-Q CQRR 1 AVE C
|
||
3727 (O II ) l WB 36.00 45.79
|
||
(PK NO. 107-13 1) 4861 HI l WB 100.00 100.00 100.00 100.00
|
||
_50Q7 LO III) 1 WB- 776.00 276.00 269.03 269.03-
|
||
47 (PK NO.
|
||
—2.9 (PK NO. 705+J 4 1J_ 0.50 (H-YDROGEN I INFS)
|
||
WAVE IDENT N RG REE OBS I CORR I AVE C
|
||
3727 ( C 11)1 LZ2 590.00 831.90 BEGIN NS 70 (PK NO. = 0.27 (HYDROGEN LINES)
|
||
4686 HE II 1 CLZ2 75. 00 75.00 79.05 79.05
|
||
4861 H I 1 CLZ2 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
-L ill -IQQ.QQ IQQ,00 10Q.QQ 1QQ.QQ _U2I LQ 11 ) l MB 63.QQ 75.84
|
||
4959 (0 III) LZ2 82.00 82.00 80.03 80.03 4340 HI l WB 43.00 43.00 46.71 46.71
|
||
4991 (P III ) 1 CLZ2 760.00 760.00 735.84 735.84 4861 HI 1 WB 100.00 100.00 100.00 100.00
|
||
. 500 7 (O I IT) I J-Z2_ 182.00 1-82-, 0 0 . 175.47 175,47 5007 (0 III) 1 WB 426.00 426.00 417.67 417.67
|
||
654 8 ( N 11)1 LZ2 500.00 500.00 342.48 342.48
|
||
6563 CLZ 2 320.00 420.00 218.56 286.89 70 (PK NO. 0+01)
|
||
LZ2 520.00 420.00 355. 19 286.89
|
||
6575 (N ) I CLZ 2 670.00 670.00 456.64 456.64
|
||
6584 (N ) 1 LZ2 1260.00 1260.00 857.33 857.33
|
||
6717 (S ) 1 LZ2 276.GO 276.00 183.75 183.75 REGIN NS —81 (PK NO. 0+0 1) C = 0.0 (HYDROGEN LINES)
|
||
6723 (S CLZ2 190.00 190.00 126.37 126.37
|
||
6730 (S LZ2 219*00 219.00 145.49 145.49 WAVE IDENT N RG REF OBS I AVE 0 CORR 1 AVE C
|
||
3727 (O II ) 1 WB 147.00 147.00
|
||
29 (PK NO. 205+14 1» 4340 HI l WB 49.00 49.00 49.00 49.00
|
||
4363 (0 III) 1 WB 8.75 8.75 8.75 8.75
|
||
-4471 HE I 1 MEL_ 11.10 11.10 11. IQ LI. IB
|
||
4861 I I 100.00 100.00 100.00 100.00
|
||
C = 0.35 (ESTIMATE) 5007 (0 III ) 1 513.00 513.00 513.00 513.00
|
||
WAVE IDENT OBS I CORR I AVE C 81 (PK NO.
|
||
3727 (O II ) I 29.00 36. 89
|
||
4861 100.00 100.00 100.00
|
||
5007 (0 III) I WB 831.00 831.00 810.01 810.01
|
||
87 (PK NO. 0+ 0 l) C = 0.36 (HYDROGEN LINES)
|
||
END NS 6 (PK NO. 0+0 1)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
3727 (O II ) 1 WB 41.00 52.51
|
||
5340 h I I *3 4 ..go 42f.0Q 46,99 56,9Q_
|
||
38 (PK NO. 0+ 0 l) C = 0.35 (ESTIMATE) 4861 H I 1 100.00 100.00 100.00 100.00
|
||
5007 (0 III) 1 562.00 562.00 547.40 547.40
|
||
WAVE IDENT N RG REF QBS I AVE Q CQRR I— AVE C
|
||
3727 (O II ) 1 WB 51.00 64.87 END 87 (PK NO.
|
||
4861 H I 1 WR 100.00 1 00.00 100.00 100.00
|
||
5QQ7 LQ III) I - —MB— 870.00 8.LQ, QQ ...848,02 848,02
|
||
38 (PK NO. BEGIN P 1 (PK NO. 0+ 0 l) 0.13 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I CORR I
|
||
3727 (O II I I WB 38.00 41. 55
|
||
—43.4Q ti I 1 MB 4B-,QQ 45,QQ 46.83 46,83
|
||
4861 H I I 100.00 100.00 100.00 100.00
|
||
5007 (0 III) l 740.00 740.00 733.00 733.00
|
||
|
||
|
||
634
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN P LPK NO*. _Q±_Q_LL_ Q,Q (HYDROGEN. LINES) _2_5 (PK NO.
|
||
WAVE IDENT DBS CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
—3127 _LQ II ) I WB 12Q.QQ 12Q.00 4686 HE II 1 WB 29.40 30.06
|
||
4340 H I 1 WB 50.00 50.00 50.00 50.00 4861 H I 100.00 100.00 100.00 100.00
|
||
4363 (0 IM) 1 WB 26.30 26.30 26.30 26.30 5007 (0 III) 1000.00 1000.00 984.76 984.76
|
||
4861 _H I_ WB 100.00 100.00 LOO, Qfl 100,00
|
||
5007 (0 III) 1 WB 890.00 890.00 890.00 890.00 END 2 5 ( PK NO. 0+0 1)
|
||
END P 7 ( PK NO. 0+ 0 1)
|
||
26 (PK NO. C = 0.76 (HYDROGEN LINES)
|
||
BEGIN P 8 (PK NO. 0+ 0 1) C = 0.36 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3727 (0 I I ) 1 WB 55.00 92.72
|
||
—WAVE IDENT N RG REF QBS AVE* 0 CORR I AVE C .43AQ- _üH IL 1 .MB 37.00 37.QQ 46.70 46.70
|
||
3727 (O II ) 1 WB 31.00 39.70 4861 WB 100.00 100.00 100.00 100.00
|
||
4340 HI 1 WB 42.00 42.00 46.90 46.90 5007 (0 I II ) 1 WB 933.00 933.00 882.57 882.57
|
||
4.861 H I 1 HB_ 100.00 100.00 100.00 100.00
|
||
5007 (0 III) 1 WB 758.00 758.00 738.31 738.31 26 (PK NO.
|
||
END E 8 (PK NO. 0+0 1)
|
||
29 (PK NO. 0+01) C = 0.0 (HYDROGEN LINES)
|
||
C = 0.0 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3727 (0 II WB 72.00 72.00
|
||
WAVE IDENT N RG REF DBS I_ AVE 0 CORR AVE C 4340 _H I_ MB 48.00 4B.QQ
|
||
3727 (0 WB 40.00 40.00 4363 (0 III) WB 16.00 16.00 16.00 16.00
|
||
4340 H WB 66.00 66.00 66.00 66.00 4686 HE II WB 25.00 25.00 25.00 25.00
|
||
4861 ti I— WB 1QQ.QQ_ 1QQ.QQ LQQ.OQ 100,00 4861 _hL _MB 100.00 100.00 100-00 100-00
|
||
5007 (0 III) 1 WB 850.00 850.00 850.00 850.00 5007 (0 III) 1380.00 1380.00 1380.00 1380.00
|
||
-END E 9 (PK NO. Qf Q 1) END P 29 (PK NQ. _Qf— Q. 1)
|
||
|
||
BEGIN P 17 (PK NO. 0+01) C = 0.76 (HYDROGEN LINES) 32 (PK NO. 0.25 (ESTIMATE)
|
||
A-VF- 0 CORR I AVE 0 CORR I
|
||
3727 (0 II ) 1 78.00 131.49 3727 (O II ) 1 WB 36.00 42.75
|
||
4340 H I 1 37.00 37.00 46.70 4861 HI 1 WB 100.00 100.00 100.00 100.00
|
||
4861 100.00 LûQ.^00— 5007 (JO III) I MB_ 590.00 590.00 579.31 579.31
|
||
5007 (0 III) 1 WB 955.00 955.00 903.39 903.39
|
||
32 (PK NO.
|
||
F NO B LI (PK NO. 0+01)
|
||
_33 (PK NO. _CUB (HYDROGEN I INFS)
|
||
18 (PK NO. 0.28 (HYDROGEN LINES)
|
||
AVE C
|
||
—LO II 1 1
|
||
3727 (O II ) 1 85.00 103.03 4340 8 1.00 81.00 81.00 81.00
|
||
4340 H I 1 43.00 43.00 46.85 46.85 4861 WB 100.00 100.00 100.00 100.00
|
||
-4.363 LO III ) 1 13.90 1 ^.on ? rt no 15.09 5007 WB 1510.00 1510.00 1510.00 1 510.00
|
||
4686 HE II 1 29.40 29.40 30.28 30.28
|
||
4861 H I 1 100.00 100.00 100.00 100.00 33 (PK NO. 0+ 0 1)
|
||
5QQ7 (_□ III 1 1 in?n.nn in?n.on
|
||
18 (PK NO.
|
||
35 (PK NO. 0+ 0 1) 0.0 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
BEGIN P _L2 (PK NQ. Q+ Q 1) 0.06 (HYDROGFN I INFS) 3727 LO II ) 1 MB 66.00 66.00
|
||
4340 HI 1 WB 63.00 63.00 63.00 63.00
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C 4363 (0 III) 1 WB 33. 10 33. 10 33. 10 33.10
|
||
3727 LO II 1 1 MB 56.00 56.36 4686 HE II 1 WB ■4-1. 7Q 41.70 41.7Q 41.70
|
||
4340 I 46.00 46.00 46.85 46.85 4861 WB 100.00 100.00 100.00 100.00
|
||
4861 H I 1 WB 100.00 100.00 100.00 100.00 5007 WB 775.00 775.00 775.00 775.00
|
||
5007 (0 III ) 1 WB 675.00 675,00. 672.05 672.05
|
||
35 (PK NO.
|
||
19 (PK NO.
|
||
38 (PK NO. C = 0.0 (HYDROGEN L INES)
|
||
BEGIN P _2_Q (PK NQ«_ 0+ 0 1) Q.o (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
WAVE IDENT N RG REF OBS I CORR I 3727 (O II ) 1 WB 74.00 74.00
|
||
3727 LO II ) 1 MB 138.QQ. 136.QQ 4340 HI 1 WB 68.00 68.00 68.00
|
||
4340 H I 1 WB 47.00 47.00 47.00 47.00 4861 I WB 100.00 100.00 100.00 100.00
|
||
4861 H I I WB 100.00 100.00 100.00 100.00 5007 III) WB 1450.00 1450.00 1450.00 1450.00
|
||
5QQ7 LQ HD 1 -MB 1Q5Q.QQ LD5Q,QQ 1Q5Q.0Q 1Q5Q.00
|
||
20 (PK NO.
|
||
BEGIN P 39 (PK NO. C = 0.0 (HYDROGEN LINES)
|
||
24 (PK NO. C = 0.0 (HYDROGEN LINES)
|
||
WAVE IDENT OBS I CORR I
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C 3727 (0 II ) 1 132.00 132.00
|
||
3127 LO II ) J1 MB 81,QQ 81, QQ 4340 H I 54, QQ 54« QQ 54.00
|
||
4340 48.00 48.00 48.00 48.00 4861 I 1 WB 100.00 100.00 100.00 -100.0054.QQ
|
||
4861 H I 1 100.00 100.00 100.00 100.00 5007 III ) 1 WB 1260.00 1260.00 1260.00 1260.00
|
||
5007 _L0 III ) 1 - MB 615.QQ 615.00 615, QQ 615.QQ
|
||
39 (PK NO.
|
||
24 (PK NO.
|
||
BEGIN P 42 (PK NO. 01) C = 0.06 (HYDROGEN LINES)
|
||
BEGIN P (PK NO. 0+0 1) C = Q«21 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3727 (O II ) l WB 78.00 81.28
|
||
3727 -LQ II ) 1 WB 51.QQ 58.92 —4340 H I 1 MB 46.00 —46.00 46.85
|
||
4340 H I 1 44.00 44.00 46.92 46.92 4363 (0 III) 1 WB 18.40 18.40 18.73 18.73
|
||
4363 (0 III) 1 27.50 27.50 29.25 29.25 4686 HE II 1 WB 25.00 2 5.00 25. 16 25.16
|
||
4861 HI 1 WB 100,00 100.00 100.00 100.00
|
||
25 (PK NO. 0+ 0 1) 5007 (0 III) 1 1320.00 1320.00 1314.22 1314.22
|
||
END P 42 (PK NO. 0+0 1)
|
||
635
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
GALACTIC DIFFUSE NEBULAE NGC 1976 ( 209.0 -19.41
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
BEG T N NGC 281 (123.2 1.66 (RADIO-H BETA1 3465.89 HE I I KAB 0.0 0.0 0.0 0.0
|
||
3471.86 HE I KAB 0.13 0. 13 0.20 0.20
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR 3478.90 HE I KAB 0.13 0.13 0.20 0.20
|
||
3726 <n ii ) i j53 47.00 168.93 3487.73 HE I KAB 0.18 0.18 0.28 0*28 .
|
||
SO 1.00* 3. 59* 3497.33 S III KAB 0.06 0.06 0.09 0.09
|
||
3729 II ) I SO 1.37* 4.91* 3498.62 HE I KAB 0.22 0.22 0.34 0.34
|
||
4861 _I i_ GEB 100.QQ .100« .00 100.00, 100.00 3512.60 KAB. 0.27 -0.41 0.41
|
||
1 J 53 100.00 ICO.00 100.00 100.00 3530.47 HE I KAB 0.34 0.52
|
||
I OSSH 100.00 100.00 100.00 100.00 3554.49 HE I KAB 0.41 0.62
|
||
_LC III) X- J 53 107.0.0 ■ ■107.00 93.40 9^.40 3554.49 HF T KAB ..0^41 -0.62
|
||
OSSH 107.00 107.00 93.40 93.40 3587.33 HE I KAB 0.59 0.59 0.88 0.88
|
||
GEB 575.00 1002.50 139.27 242.82 3613.65 HE T KAB 0.89 0.89 1.32 1.32
|
||
1430.00 lPQ2t.5Q 346*36 242.82 3634.27 HF I KAB 0.84 0.84 _ 1.23. 1-23
|
||
6584 (N II ) 1 J 53 314.00 314.00 74.97 74.97 3652.05 1 KAB 0. 13 0.13 0.19
|
||
6717 (S 11)1 J53 115.00 115.00 . 25.32 25.32 3654 0 KAB 0. 19 0. 19 0.28
|
||
3656.05 1 KAB PtO —QtP. . -0«.P. Q.Q
|
||
RFGION KEY (REGION.REFERENCE»EXPLANAT ION) 3656.68 KAB 0.15 0.15 0.22
|
||
l, SO , 1.8 ARCMIN S,4.1 ARCHIN E OF HD 5005 3657.32 KAB 0.12 0.12 0.18
|
||
3657.97 KAB 0.37 0.37 -0*.54_ 0.54
|
||
3658.68 H I KAB 0.42 0.42 0.61 0.61
|
||
3659.45 H I KAB 0.41 0.41 0.60 0.60
|
||
3660.30 _H I_ KAB 3.44 *..4-4- *64...
|
||
3661.24 KAB 0.49 0.49 0.71 0.71
|
||
BEGIN NGC 1499 (160.6 -12.0) 2.35 (HYDROGEN L INES) 3662.22 KAB 0.59 0.59 0.86 0.86
|
||
3663.4P KAB. Q>63 —Q. 63 _ Q.-9-2— Q .92
|
||
WAVE IDENT N RG REF OBS CORR I 3664.70 KAB 0.70 0.70 1.02 1.02
|
||
3727 (0 11)1 l J53 32. 160.87 3666.10 KAB 0. 70 0.70 1.02 1.02
|
||
1 3 J53 48. 241.31 3667.70 KAB 0.79 0.79 1.15 1-1..5-
|
||
100. co A 100.00 A 3669.49 KAB 0.89 0.8 9 1.30 1.30
|
||
l J 53 100. 00 100.00 100.00 100.00 3671.48 KAB 0.96 0.96 1.40 1.40
|
||
? J53 1 on. no ino.oo 1QQ..0Q 100.00 3673.75 _y i_ KAB -.L.Q6 -.QB- - 1.-5-4- 1.54
|
||
J 53 100. 00 100.00 100.00 100.00 3676.37 H I KAB 1. 18 1.18 1.71 1.71
|
||
J 53 100. 00 1 00.00 100.00 100.00 3682.80 H I KAB 1.4» 1.49 2- 16 2.16
|
||
_LD IH) 1 _±UJ 5_Qj QQ A 42.96 A 3686.83 -H I_ KAB 1.69 1.69 . 2.45 . 2.45—
|
||
6548 (N l 2 J 53 160. 00 27.02 3691.56 H I KAB 1.90 1.90 2.75 2.75
|
||
6563 1 13 CLM 1. 00* 0.17* 3694.15 NE II KAB 0. 10 0. 10 0. 14 0.14
|
||
J 1 J 53 1 7R0. 296.74 3697.16 K-AiL 2.11 -3^-05—
|
||
2 J 53 1670. 1752.50 278.41 292.16 3703.89 I KAB 2. 34 2.34 3. 37 3.37
|
||
3 J 53 1670. 1752.50 278.41 292.16 3705.00 HE I KAB 1.12 1.12 1.61 1.61
|
||
1752.50 -34-5^08 292.16 3709-4ft -NF II KAB n.io 0. 14
|
||
1 PA . 00* 0.17* 3709.46 S III KAB 0. 10 0. 14
|
||
11)113 CLM .71* 0. 12* 3711.99 H I KAB 2.85 2.85 4.09 4.09
|
||
1 1 J 5 3.- 90.86 3717.84 -S I 11 KAB >2.0- n, ?n n, 70 0.29-
|
||
1 2 J 53 450. 513.75 73.67 84.10 3721.92 KAB 4. 10 5.87
|
||
l 3 J53 480. 513.75 78.58 84.10 3721.92 III) KAB 4.10 5.87
|
||
1 4 J53 570. 513.75 93.31 84.10 3726 II ) AI 127.QQ 181.61
|
||
,48* 0.08* 1 1 CA 1.00* 1.43*
|
||
II ) l 1 J 53 180. 00 160. 00 26.60 23.64 1 61 CR 1.00* 1.43*
|
||
)— 7 .15 3 170, no i 60.no 25.1? 23.64 -J 4 D-M_ . I,>00* 1.43»
|
||
1 3 J 53 133. 160.00 19.65 23.64 l 3 DRS 1.00* 1.43
|
||
1 4 J 53 157. 160.00 23.20 23.64 l C GZ55 175.00 250.25
|
||
—LI 1—1 I J 5 3 150. 1 46.75 21 .46 _1 F G7 5 5 1 3 0-.00 ■ 185.90
|
||
1 2 J53 200. 146.75 29.24 21.46 GZ55 140.00 200.20
|
||
1 3 J 53 105. 146.75 15.35 21.46 1 l J53 171.OOX 244.53X
|
||
-J 4 J 5 3- 132. 146.75 19>30 24-. 66 —1 2 J 53 56>QQX.. 8Q.Q8X
|
||
3 J 53 34.OOX 48.62 X
|
||
REG ICN KEY (REGIDN,REFERENCf*EXPLANATI ON) 4 J53 82.OOX 117.26X
|
||
13* CL« , DIRECTION l.RING 3D, MAX OF 10 VALUES, SEE REF. IB MA57 1.00* 1.43*
|
||
l, J 53 , PA 3H 56.9M, NC. 33 IE MA57 1.00* 1.43*
|
||
2» J 53 , PA 3H 56.9M, NO.34 1 ME 67 66.30 96.79
|
||
3i. J 53 * ,RA 3H 56.9M, MC.3.5 ¿-HE6.7 139.40 203.50
|
||
J 53 RA 3H.57.4M 1 3 ME67 45.90 71.78
|
||
l 4 ME67 120.70 170.24
|
||
_ END NGC 1499 (160.6 -12.0) _1 5 ME67 164.9Q -2-47.44,
|
||
6 ME67 150.50 212.27
|
||
7 ME6 7 68.00 95.91
|
||
8 ME6 7 112.QQ 157.97
|
||
BEGIN NGC 1931 C = 0.0 (NO CALCULATION) 1 9 ME67 13.90 19.61
|
||
1 10 ME67 90.10 123.63
|
||
WAVE AVE Q CORR ( AVE C -J A.. Of L.QQ* 1.43*
|
||
6563 HI 1 A GEK I.00* I.00* 1 A OS55 1.00* 1.43*
|
||
6584 (N II ) I A GEK O. 32* 0.32* l 1 PC 85.00 113.47
|
||
6717 (S II ) 1 B GEK 1.05* 1.05* 1 2 PC 9-L. 10 154.72
|
||
(S II ) i B GEK PC 182.00 253.20
|
||
L 4 PC 131.00 164.38
|
||
PEGICN key (REGION.REFERENCE.EXPLANA!ION) 1 IK RF 21Q.QQX 3QQ.3QX.
|
||
A , GEK , REGIONS A AND B CN DIFFERENT SCALES 1 A SCH 1.00* 1.43*
|
||
l 1 SI 79.70 113.97
|
||
END NGC 1931 ( 173.9 0.3) _1 Z SI .32^P 119.26
|
||
1 3 SI 102.40 146.43
|
||
3728.76 (O II ) L KAB 127.00 181.44
|
||
I 1 CA 0.48» Q.69*
|
||
BEGIN NGC 1976 -19.4» **C = 0.52 (HYDROGEN LINES) I 61 CR 0. 59* 0.84*
|
||
1 4 DM 0.47* 0.67*
|
||
. WAY-E- IQ.E-NT N RG KEF oas-L- AY.E Q CQFR I -AVE C _J 3 DRS 0.47» Q. 67
|
||
3187.74 HE I L KAB 6.30 10.81 10.81 1 IB MA57 0.58* 0.82*
|
||
3286.21 (FF III) 1 KAB 0.0 0.0 0.0 1 IE MA57 0.58* 0.83*
|
||
3296.69 HE I 1 KAB 0.25 0.25 0.41 —Q*M 1 A OF 0.52* .0.74*
|
||
3323.98 S III KAR 0.0 0.0 0.0 I A 0S55 0.50* 0.71*
|
||
3324.96 S III KAP 0. I 8 0.29 0.29 I A SCH 0.97* 1.39»
|
||
3334-. S7 NE II KAR Q^?a 3732.88 HF I -J KAB —QL. 13 0- 19
|
||
3334.87 (FF III) 2 KAB 0.28 3734.30 H KAB 3.70 3.60 5.28 5.13
|
||
3342.92 (NE III) 2 KAB 0.28 AL 3.50 3.60 4.99 5.13
|
||
3342.92 (CL JIIJ- 2 KA-B— 0.28 3.747.9.8 S LLL KAB 0.0 Q.Q Q.Q 0.0
|
||
3353.34 (CL III) l KAB 0.08 0. 13 0.13 4.50 3.62 6.38 5.18
|
||
3354.6C HP I 1 KAB 0-3 5 0.56 0.56 4.40 3.62 6.24 5.18
|
||
335-6-. 69 (PE JILL 1 KAB Q.Q d>Q Q.Q 2.40 3.62 3.4L- ,5» l.B...
|
||
3360.47 NE I I 1 KAB 0.0 0.0 0.0 2 ME67 3.20 3.62 4.63 5.18
|
||
3370.39 S III l KAB 0.0 0.0 0.0 3756.21 HE I KAB 0.09 0.09 0. 13 0.13
|
||
3387.01 .5 LLL 1 KAB Q.2.7 Q-c.43 Q «43 _3J5fl K-A-B 0.06 . 0.08
|
||
3447.56 HP I KAB 0.61 0.95 0.95 KAB 5. 10 4.27 7. 19 6.07
|
||
3453.26 HE I KAB 0.0 0.0 0.0 AL 5.40 4.2 7 7.61 6.07
|
||
NGC 1976 (209.0 -19.4)
|
||
636
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 1976 ( 209. Q -19.41
|
||
WAVE I0ENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3770.61 H I 1 1 ME 67 3.20 4.27 4.60 6.07 3969.97 H I 2 W GZ55 10.00 13.18
|
||
1 2 ME67 3.40 4.27 4.89 6.07 1 1 ME 67 17.40 15.94 23.30 20.91
|
||
3777.05 NE l KAB 0.06 0.06 0.08 0.08 1 2 ME67 15.00 15.94 20.08 20.91
|
||
_3784.93 ti£_ _1 0. 09 0.09 Q.13- .13 -J 4-ME67 14. QQ 15.94 18.25 -20.31 .
|
||
3797.88 H I 1 KAB 6.00 4.49 8.38 6.25 ME67 13.00 15.94 16.95 20.91
|
||
l AL 7.80 4.49 10.89 6.25 7 ME67 15.60 15.94 20.34 20.91
|
||
1 1 ME 67 4. 10 4.49 5.84 6.25 _I 8-ME67 14.60 15.94 19j_Q4 20^91
|
||
l 2 ME67 5. 10 4.49 7.26 6.25 1 9 ME67 14.50 15.94 18.91 20.91
|
||
1 4 ME67 4.40 4.49 6.07 6.25 1 10 ME67 15.00 15.94 19. 15 20.91
|
||
6 ME67 ■ LQ- 4.49 4.27
|
||
4.69
|
||
6.25
|
||
6.25
|
||
0 KAB 0.02 0.02 0.03 0.03
|
||
l 7 ME67 3.40 4.49 3983.72 Ill KAB 0.07 0.07 0. 10 0.10
|
||
1 8 ME 6 7 3.60 4.49 4.96 6.25 3985.87 III KAB 0.07 0.07 0. 10 0.10
|
||
1 10 ME67. 2.90.- .49 3.90 6.25 --3333. -&.A& ■ Q.Q6 0.06 0.09 Q.-Q9-
|
||
3805.73 KAB 0. JO 0.10 0.14 .14 4009.27 HE I KAB 0.28 0.28 0.36 0.36
|
||
3806 KAB 0.08 0.08 0.11 0.11 4026.19 HE I KAB 2.62 1.84 3.39 2.39
|
||
3819.64 HE I KA.B. 1.88 . 2.60 2.60 Al 2.70 L..84 3..50 2.39
|
||
3829.80 NE II l KAB 0.05 0.05 0.07 0.07 1 B MA57 3. 10X 4. 01X
|
||
3831.79 S III 1 KAB 0.08 0.08 0. 11 0.11 1 E MA57 2.30X 2.98X
|
||
3833.58 HE I 2 KAB 0.13 0.18 1 1 ME 67 1.80 2.37
|
||
3833.58 HE II 2 KAB 0.13 0. 18 1 2 ME67 1.70 1.84 2.23 2.39
|
||
3835.36 H I 1 KAB 7.63 10.51 1 3 ME67 1.40 1.84 1.93 2.39
|
||
-AL- 1 0.90 15.0? 1 4 ME67 1.60 1.64 2.05 2.39
|
||
1 l ME 67 6. 30 6.26 8.84 8.68 ME6 7 1.50 1.92 2.39
|
||
1 2 ME67 6.60 6.26 9.26 8.68 ME67 1.60 1.84 2.05 2.39
|
||
_J 3 ME67- 5.00 6.26 -46 8.68 ME67 1.90 1.84 2.39
|
||
4 ME67 5. 30 6.26 7.21 8.68 l 10 ME67 1.60 1.84 2.01 2.39
|
||
l 6 ME67 5.90 6.26 8.03 8.68 4068.69 (S II) 1 KAB 1.49 2.09 1.90 2.67
|
||
1 7 ME67 5,70 6.26 7.76 8.68 1 AL 2. 70 2.09 3.45 2.67
|
||
1 8 ME67 5. 90 6.26 8.03 8.68 4069.76 O II 2 KAB 0. 11 0. 14
|
||
1 10 ME67 5. 50 6.26 7.30 8.68 4069.76 O II 2 KAB 0.11 0.14
|
||
_1 I EC 6.26 8.68 4072 CS II ) 1 1 ME 67 2.20 1*76 2.84 2.26
|
||
1 2 PC 5.62 6.26 9.03 8.68 2 ME67 1.40 1.76 1.81 2.26
|
||
l 3 PC 6. 17 6.26 8.29 8.68 1 4 ME67 1.90 1.76 2.40 2.26
|
||
_L L_SJ_ 5.82 .26 8.02 8.68 1 6 MF67 -1-. 70 1.76 ?-. 1 5
|
||
1 2 SI 5.85 6.26 8.06 8.68 1 7 ME67 1.90 1.76 2.40 2.26
|
||
1 3 SI 6.08 6.26 8. 38 8.68 1 1 PC 1.23 1.76 1.50 2.26
|
||
_1 4 SI 6. 08 . 6. ?6 -8.38 8.68 1 2 EC -L.JD 1.76 ? . 44 2^26
|
||
1 5 SI 6. 40 6.26 8.82 8.68 PC 2. 1.76 2.55 2.26
|
||
3837.79 S III l KAB 0. 10 0.10 0. 14 0.14 4072.11 0 KAB 0. 12 0.12 0. 15 0.15
|
||
.3838.35 N LI_ _2 KAB .._a..i3_ . 0. 18 4075.82 Q_ KAB Q.Ü Q.Q . Q*-Q 0.0
|
||
3838.35 S III 2 KAB 0.13 0. 18 4076.44 (S II KAB 0.69 0.69 0.88 0.88
|
||
3853.88 SI II 1 KAB 0.02 0.02 0.03 0.03 4077 KAB 0.03 0.03 0.04 0.04
|
||
.3856.14 SI.II J KAR 0.34- 0.34 - 0. 46 0.46 4087.12 0 II KAB 0-01 0.01 0.02 0-0?
|
||
3862.70 SI II l KAB 0. 19 0.19 0.26 0.26 4089.21 0 I I KAB 0.03 0.04
|
||
3867.73 HE I 1 KAB 0.0 0.0 0.0 0.0 4097.27 N I II KAB 0.06 0.08
|
||
.3868 INE Till J AJL_ 1 q.70 . 8.94 -26.82 -12.29 4097.27 n I 1 KAB
|
||
1 C GZ55 8.00 8.94 10.89 12.29 4097.27 Q II KAB 0.06 0.08
|
||
1 F GZ 55 4. 00 8.94 5.45 12.29 4099 KAB 0.05 0. 05 0.06 0.06
|
||
_1 lei GZ55_ 4.00 8.94 --5.45 1 ?.?Q 4101.64 id I KAB ?1 -33 26.-95
|
||
l. 1 ME 67 15.50 8.94 21.48 12.29 AL 25.00 21.33 31.56 26.95
|
||
l 2 ME67 7.50 8.94 10.39 12.29 C GZ55 19.00 21.33 23.99 26.95
|
||
_J 3.-ME 6-7- 8.94 - -1 0.8R 12.29 -G-Z-5-5— 1 a , nn 21.33 26.-95
|
||
1 4 ME67 6.40 8.94 8.61 12.29 1 W GZ55 17.00 21.46
|
||
1 6 ME67 4. 10 8.94 5.52 12.29 1 B MA57 34.60X 43.69 X
|
||
_1 7 ME67 11.60- 8.94 15.60 12.29 -J F MA57 36.90X 46.59 X
|
||
1 8 ME67 .70 8.94 11.70 12.29 1 ME 67 20.90 21.33 26.75 26.95
|
||
1 9 ME67 6.00 8.94 8.07 12.29 2 ME67 22. 40 21.33 28.66 26.95
|
||
1 10 ME67 10.50 8.94 13. 79 12.29 3 ME67 17.20 21.33 23.02 26.95
|
||
1 1 PC 13.20 8.94 16.93 12.29 4 ME 6 7 18.90 21.33 23.65 26.95
|
||
1 2 PC 12.60 8.94 19.89 12.29 5 ME67 23.90 21.33 31.14 26.95
|
||
1 3 PC 3.88 _8j.94 5. 16 12.29 6.ME67 19.90 2U33 24^9D 26.95
|
||
3871.76 HE I KAB 0. 16 0. 16 0.22 0.22 1 7 ME 6 7 20. 20 21.33 25.28 26.95
|
||
3882.49 O II I KAB 0.0 0.0 0.0 0.0 1 8 ME67 20.40 21.33 25.53 26.95
|
||
3888.92 H I _2 KAB 18.1,0 24.46 1 9 ME 6 7 2.Q.6Q
|
||
2 AL 18. 10 24.46 1 10 ME67 20. 30 21.33 24.95 26.95
|
||
C GZ 55 8.00 10.81 1 1 PC 22.90 21.33 27.65 26.95
|
||
_2 E GZ55 7,QQ 1 2 EC- 22.40 2L.33 - 3 i «-6.4 - 26.95
|
||
2 W GZ 55 7.00 9.46 PC 22.90 21.33 28.40 26.95
|
||
2 B MA57 22.30 X 30.14X PC 20.80 21.33 24. 12 26.95
|
||
_2 E MA57 ¿3.50 31.76 1 SI 22.30 21.33 .28^16 26.95.
|
||
1 ME 67 10.90 10.23 14.99 13.85 SI 22.40 21.33 28.28 26.95
|
||
1 2 ME67 10.20 10.23 14.03 13.85 SI 22. 50 21.33 28.41 26.95
|
||
_J 3.-MC6 7- 9.00 10.23 13. 12 13.85 _1 4 SI
|
||
1 4 ME67 9.30 10.23 12.42 13.85 SI 23.60 21.33 29.80 26.95
|
||
1 6 ME67 10. 10 10.23 13.49 13.85 SI 23.90 21.33 30. 18 26.95
|
||
7 MF67- 10.23 I 5. ?3 13.85 4104.96 Q U_ KAB 0.0
|
||
1 8 ME67 11.50 10.23 15.36 13.85 4104. II KAB 0.0 0.0 0.0 0.0
|
||
1 9 ME67 9.40 10.23 12.56 13.85 4110. II KAB 0.05 0.05 0.06 0.06
|
||
1 10 ME67 IQ. 30 10-23 13.45 13.85 4L19.24 Q_ II KAB O.Ofe
|
||
3888.92 HE I 2 KAB 18.10 24.45 4120. KAB 0. 30 0.3 0 0.38 0.38
|
||
2 AL 18. 10 24.45 4131 KAB 0.05 0.05 0.06 0.06
|
||
_2 C GZ55 ßtOQ 10*81 4132. KAB 0.06 0.06 0.07 0.07
|
||
2 E GZ55 7.00 9.46 4143. 69 HE KAB 0.45 0.45 0.56 0.56
|
||
2 W GZ55 7.00 9.46 4153. 27 0 KAB 0.08 0.08 0. 10 0.10
|
||
-2 B MA5 7 . ¿2.30X- 30.13X 4156. 34 0 KAB 0. 13 0.13 0. 16
|
||
E MA57 23.50X 31.75X 4169. 09 HE KAB 0.07 0.07 0.09 0.09
|
||
3918.94 C KAB 0. 13 0.13 0.17 0.17 4185. 46 0 KAB 0.01 0.01 0. 02 0.02
|
||
...3.9.20.66. C KAfi 0.26 0.85 ^189.71 Q Li_ KÄß 0.03 Q.-Q3 0. 04 0.04
|
||
3926.53 HE I KAB 0.22 0.22 0.29 0.29 4244. 09 (FE III ) KAB 0. 05 0.06
|
||
3928.53 S III KAB 0.06 0.06 0.08 0.08 4253, 73 0 I I KAR 0.06 0.07
|
||
3964.80 HF I . KAB. 1-35 .-35 1-78 1-78 4253. 23 CL U_ -KA-B-.
|
||
3967.47 (NE III ) 1 KAB 24.40 32. 18 4253. III KAB 0.06 0.07
|
||
AL 24.40 32.18 4267, II KAB 0.35 0.27 0.42 0.32
|
||
1-15, DEM, CUJ9.* n. 3A (L-2 7 -3.32-
|
||
2 C GZ55 13.00 17. 15 1 1 PC 0.26 0.27 0. 30 0.32
|
||
2 E GZ55 10.00 13. 19 l 2 PC 0.23 0.27 0.30 0.32
|
||
-2 W GZ5S- —13^-19 -L. 3 EC- . Qj-13 Q. 2 7 Q«-15 Q« 32
|
||
3969.97 H I 1 24.40 32.16 4276.95 (FE II ) KAB 0.03 0.03 0. 04 0.04
|
||
2 AL 24.40 32.16 4284.96 S III KAB 0.03 0.03 0.04 0.04
|
||
J—L5 DEM. 1.QQ*_ 1.32* 4287.53 (FE II ) KAR 0. 11
|
||
2 C GZ55 13.00 17. 13 4303.77 O II KAB 0.03 0.03 0.04 0.04
|
||
2 E GZ55 10.00 13. 18 4305.78 (FE II ) KAB 0.0 0.0 0.0 0.0
|
||
NGC 1976 (209.0 -19.4)
|
||
637
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
97 6ApJS ... 31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 1976 (209.Q -19.4) NGC 1976 Í2Q3.Q
|
||
W AVE I0ENT N RG REF OBS I AVE 0 CQRR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4317. _D LL_ _1 NAB- 0.06 0. 06 Q. 07 0.07 4471.43 HE I 1 10 ME67 3.40 3.86 3.79 *38
|
||
4319. 56 (FE II ) KAB 0.03 0.04 1 OP 4. 10 3.86 4.63 4.38
|
||
4319. 56 0 II KAB 0.03 0.04 1 1 PC 4.62 3.86 5.10 4.38
|
||
4326 KAB 0.06 Q.Q7 1 2 PC 4.27 3.86 5.11 _
|
||
4332, 57 S III KAB 0.03. 0.03 0.04 0.04 PC 3.23 3.86 3.61 4.38
|
||
4340. 27 H I KAB 41.00 40.17 48.08 47.12 4590.89 KAB 0.04 0.04 0.04 0.04
|
||
41.00 40.17 4a.QB_ 47.12 4607.06 KAB 0.06 0.06
|
||
1 A BO 40.80 40.17 47.84 47.12 4607.06 (FE III) KAB 0.06 0.06
|
||
1 B BO 41.70 40.17 48.90 47.12 4621.41 N II KAB 0.03 O.
|
||
_J C -BO 38.90 40.17 45.62- 47.12 4621.41 1C l L KAB P.
|
||
i o ao 43.60 40.17 51. 13 47.12 4630.60 N II KAB 0. 0.09 0.09 0.10
|
||
1 F BO 40.30 40.17 47.26 47.12 AW70 0. 10 0.09 0.11 0.10
|
||
_J F -BO 39.80 40.17 46.67- 47.12 4634.01 N III KAB 0.04 0.04 0.04 _<1*04
|
||
1 G BO 40.70 40. 1 7 47.73 47.12 4638.81 0 11 KAB 0.08 0.08 0.09 0.09
|
||
l H BO 45.70 40.17 53. 59 47.12 4640.73 N III KAB 0.08 0.08 0.09 0.09
|
||
_1 C -G255 41..QÛ- 40.17 46. Q8 47.12 AW7 0 0.23 0.25
|
||
1 E GZ 5 5 34.00 40. 17 39. 87 47.12 1 KAB 0.15 0. 16
|
||
i W GZ55 35.00 40*. 17 41.04 47.12 2 A W70 0.23 0.25
|
||
_2 JQ6Q 43.. Qd. 50.42 4649 _2 AW7Q- .26 SLl.
|
||
1 B MA57 57.50X bl.WX 4649.15 l KAB 0.25 0.27 0.27
|
||
1 E MA57 58.50X 68.60X AW70 0.26 0.28
|
||
1 PE MA62 35.90 4Q« 17 42. IQ 47.12 4650.85 0 LL_ _] KAB Q .08 Q. 08 Q.,oa Q.Q9
|
||
1 1 ME 67 40.80 40.17 8.28 47.12 4658.18 (FE III) KAB 0. 82 1.08 0.87 1.15
|
||
1 2 ME67 41.50 40.17 49.11 47.12 AL 1.20 1.08 1.28 1.15
|
||
_J 3 ^E67 32.ítQ- —40*. 17 —39.78. 47.12 AW7Q 1.22 -08 .30 1.15
|
||
1 4 ME67 40.10 40.17 46.74 47.12 0 II KAB 0.08 0.07 0.09 0.07
|
||
1 5 ME67 41. 10 40.17 49.24 47.12 A W70 0.05 0.07 0.06 0.07
|
||
_1 o ME67 36..LQ- 4.0.17 -42. 07. - 47.1? 4676.11 _D LI_ KAB Q. 06 0-06 0.06
|
||
1 7 ME67 36. 10 40.17 42.07 47.12 1 AW70 0.05 0.06 0.05
|
||
l 8 ME 67 36. 80 40.17 42. 89 47.12 4677 0 KAB 0.0 0.0 0.0
|
||
_J 9 -ME67 36.80. 40.17 42.89 47*12 4699.12 2 KAB 0.04 0.04
|
||
1 10 ME 67 36.90 40.17 42.48 47.12 4699.12 Q II KAB 0.G4 0.04
|
||
42. 50 40.17 49. 84 47.12 4701.69 ( FE III) KAB 0.24 0.32 0.25 0.34
|
||
33.90 40.17 38.55 47.12 AW70 Q*_40 0.32 Q. 42 Q. 34
|
||
I 2 PC 41. 70 40.17 52.79 47.12 4705.54 0 II KAB 0.04 0.04 0.04 0.04
|
||
1 3 PC 44. 70 40.17 51. 78 47.12 4711.48 (AR IV ) KAB 0. 17 0.64 0. 18 0.67
|
||
1 4 &£_ 41.70 AW 7Q_ 1.11 _ 0.6-4- 1.16 —0.67_
|
||
1 SI 42.60 40.17 49.95 47.12 4713.19 HF I KAB 1.05 0.52 1.10 0.55
|
||
l 2 SI 43.30 40.17 50.77 47.12 AL 1.10 1. 15
|
||
_J 3 SI AW 70 0*0 -0.52.- Q. 0 n-95
|
||
SI 43. 90 40. 17 51.48 47.12 4712 (AR IV ) AL i.10 1.15
|
||
5 SI 44. 50 40. 17 52. 18 47.12 4733.93 (FE III) KAB 0.09 0.12 0.09 0.12
|
||
6-SI 47. IQ 40. 17 55.23 47.12 A W70 -0.12- 0.16 0.12-
|
||
4342 KAB 0. 04 0.04 0.05 0.05 4740.28 (AR IV ) l KAB 0. 17 0.11 0. 18 0.12
|
||
4345. 49 0 KAB 0.11 0.11 0.13 0.13 1 AW 70 0.06 0.11 0.06 0.12
|
||
434A . 75 (Fc -KAB 4754.87 (FF TTT ) 1 KAB 0^11— 0.19 0.11 0.20
|
||
4347 II KAB 0.03 0.03 0.04 0.04 AW70 0.27 0.19 0.28 0.20
|
||
4349 II KAB 0.08 0.08 0.09 0.09 4769.61 (FF III) KAB 0.07 0.08 0.07 0.08
|
||
435 1.3? 0 L_L_ —KAB AW 70 O-Ofl O.Qfl 0.09 a.08-
|
||
4359. 45 (FF II ) KAB 0.09 0.09 0. 10 0.10 4774.4? (FE II ) KAB 0.0 0.0 0.0 0.0
|
||
4363, 18 (P III) KAB 1.65 1.15 1.92 1.35 4777.88 ( FE III) KAB 0.05 0.05 0.05 0.05
|
||
—AJ . 1..1 5 1 .35 4814.69- (FF II ) KAR 0.09. 0.10
|
||
1 8D0 1.00* 1. 16* AW70 0.09 0.09
|
||
2 BDO 1.00* 1. 16* 4815 (FE III) WYSE 0.80 A 0.81 A
|
||
3 RPC l.QQ* I. 16« 4 fl 1 5 (FF II ) WYSF- O.flO A 0.B1 A
|
||
BDO 1.00* 1. 16* 4848 WYSE 0.50 A 0.50
|
||
BDO 1.00* 1. 16* 4861.24 KAB 100.00 100.00 100.00 100.00
|
||
6 BDO 1.00* l. 16* AL 100.00 100.00 100.00 100.00
|
||
7 BDO 1.00* 1. 16* A BO 100.00 100.00 100.00 100.00
|
||
8 BDO 1.00* 1. 16* B BO 100.00 100.00 100.00 100.00
|
||
9 BDO l.oo* 1. 16* C. BO 100.00 100.00 100.00 100.00
|
||
BDO 1.00* 1. 16* D BO 100.00 100.00 100.00 100.00
|
||
BDO 1.00* 1. 16* E BO 100.00 100.00 100.00 100.00
|
||
1 12 .800 I. PD* 1. 16* F BO 100.00 100.00 IQQtQO 100.00
|
||
1 13 BDO 1.00* 1. 16* 100.00 100.00 100.00 100.00
|
||
2 JÛ6 0 43.00 50.08 1 H BO 100.00 100.00 100.00 100.00
|
||
1 28 MA57 1 » 0.0* 1.16« _1 F DMA— 100.00 100.00 100.00 100.00
|
||
1 2E MA57 1.00* 1. 16* 1 47 D02 100.00 100.00 100.00 100.00
|
||
1 1 PC 1. 10 1.15 1. 24 1.35 1 GEB 100.00 100.00 100.00 100.00
|
||
_L2 1,17 U15 1.47 1.35 1 GEK 100.00 100.00 100.00
|
||
PC 0.49 1.15 0. 56 1.35 1 GRA 100.00 1 00.00 100.00 100.00
|
||
1 SI 1.15 1.15 1. 33 1.35 1 C GZ55 100.00 ICO.00 100.00 100.00
|
||
2 SI 1.29 .1».3.5 1 E GZ 55 100.00 100.00 100.00 100.00
|
||
3 SI 0.98 1.15 1. 14 1.35 1 W GZ55 100.00 100.00 100.00 100.00
|
||
4366. KAB 0.06 0.06 0.07 0.07 1 GZ 56 100.00 100.00 100.00 100.00
|
||
4368 -KAB- Q.Q9 0-09 n. io o.in 1 1 J53 100.QQX 100.QQX
|
||
4387.93 HE I KAB 0.82 0.95 2 J53 100.OOX 100.OOX
|
||
AL 0.60 A 0.69 A 3 J53 100.OOX 100.OOX
|
||
—KAB— 0.C3 0.03 0.03 _ 0.03 _J 4 J53 100.QQX 100.QQX
|
||
4413. 91 (FE II KAB 0.08 0. 08 0.09 0.09 1 J06 0 100.00 100.00
|
||
4414. 98 C I I KAB 0.06 0.06 0.07 0.07 1 B MA 5 7 100.OOX 100.OOX
|
||
4416. ?9 ( FF II ._K AB 0- 06 __Q*. 1 E MA 5 7 100.OOX 100.OOX
|
||
4416. KAB 0.05 0.05 0.06 0.06 l PE MA62 100.00 100.00 100.00 100.00
|
||
4437. KAB 0. LO 0.10 0.11 0.11 1 PG MA62 100.00 LOO.00 100.00 100.00
|
||
4.446. -N L_L_ K AF n.n . ÍL.0 O.n 1 1 ME 67 100.00 100.00 100.00 100.00
|
||
4452 30 0 II KAB 0.06 0.07 l 2 ME67 100.00 100.00 100.00 100.00
|
||
4452, 30 (FE II ) KAB 0.06 0. 07 l 3 ME67 100.00 100.00 100.00 100.00
|
||
4458. 12 (FE II ) -KAB Q.Q5 . Q* 05 0-06 Q .06 1 4 ME67 100.00 LQQtOQ _ IQQtfl.Q 100.00
|
||
4471.43 HF I 6.04 3.86 5.69 4.38 5 ME67 100.00 100.00 100.00 100.00
|
||
4.60 3.86 5.20 4.38 ME67 100.00 100.00 100.00 100.00
|
||
5.00 3- Rft 5-6S 4.3B MF 6 7 IOQ.QQ 100.00 1 on-on IQQ.QQ—
|
||
B MA57 7. 65X 8.64X 1 8 ME67 100.00 100.00 100.00 100.00
|
||
E MA5 7 7.35X 8.30X 1 9 ME67 100.00 100.00 100.00 100.00
|
||
1 MF *7 1 IQ MF67 100.00 .. 100.00 100.00 1QQ.QQ-
|
||
L 2 ME67 3.60 3. 86 4.09 4.38 100.00 100.00 100.00 100.00
|
||
1 3 ME67 3.50 3.86 4.08 4.38 l l PC 100.00 1 00.00 100.00 100.00
|
||
_J 4_ME6 7 3.8Q 3.86 4*38 1 ? PC 1QQ-.QQ- 100.00 100.00 l.QQ. 00
|
||
5 ME67 3. 50 3.86 4.02 4.38 3 PC 100.00 100.00 100.00 100.00
|
||
6 ME67 3.20 3.86 3.60 4.38 4 PC 100.00 100.00 100.00 100.00
|
||
7 ME67 3.2Q -JL.86 3.60 4.38 .1 R 1 inn.nn LQQ.QQ- 10Q*HQ inn.nn
|
||
ME 6 7 3. 80 3. 86 4.27 4.38 100.00 100.00 100.00 100.00
|
||
ME67 3.30 3.86 3.71 4.38 100.00 100.00 100.00 100.00
|
||
|
||
|
||
638
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 1976 (209.0 -19,41 NGC 1976 (209.0 -19.41
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
4861.24 H I 1 4R 1 100.00 100.00 100.00 100.00 . 5QQ7,QQ .(Q LULL J 8Z_ME¿Z 289.50 251,60 279,13 242,09
|
||
5R 1 100.00 100.00 100.00 100.00 ME67 291.40 251.60 280.96 242.09
|
||
6R 1 100.00 100.00 100.00 100.00 1 9 ME67 246.30 251.60 237.48 242.09
|
||
7 R _L_ 100-00 1110,00— 100.00
|
||
100,00 100.00 1 IQ ME67 290.50 ¿51,60. 280.92 242.09
|
||
1 8 R 1 100.00 100.00 100.00 1 OP 326.00 251.60 313.87 242.09
|
||
1 9R l 100.00 100.00 100.00 100.00 1 1 PC 399.00 251.60 386.96 242.09
|
||
1 1K RE 100.OOX 100.OOX 1 ¿ E£_ 324. QQ 251.60 3(16,31 242.Q9
|
||
1 SI ICO. 00 100.00 100.00 100.00 1 3 PC 132.00 251.60 127.46 242.09
|
||
2 SI 100.00 100.00 100.00 100.00 1 4 PC 16.20 251.60 15.81 242.09
|
||
IQP.Qfl- 100.00 100.00 1QQU2Q -j 1 R 1 290. 00 251.60 279.?1 242.09
|
||
1 4 JU- SI 100.00 100.00 100.00 100.00 1 250.00 251.60 240.70 242.09
|
||
1 5 SI 100.00 100.00 100.00 100.00 3 R 1 240.00 251.60 231.07 242.09
|
||
1 6 SI 100.00 100.00 100.00 100.00 4R 1 260.QQ 251.60 250.32 242.09
|
||
WYSE 100.00 A 100.00 A 1 5 R 1 120.00 251.60 115.53 242.09
|
||
4864 KAB 0.08 0.08 0.08 0.08 l 6R 1 143.00 251.60 137.68 242.09
|
||
4881,14 (FE TU) _KAB_ -Q.41- ÍL_21 _J 7 R-l .156.QQ 251.60 15-0,19 242.09
|
||
AW70 0.52 0.52 1 170.00 251.60 163.67 242.09
|
||
WYSE 0.70 A 0.70 A l 9 R l 290.00 251.60 279.21 242.09
|
||
4882 (FE III) WYSE Q, 70, A. 0.70 A 1 1K RE -439.QQX 422.66X-
|
||
4896 WYSE 0.40 A 0.40 A 1 1 SI 328.50 251.60 316.27 242.09
|
||
4921.97 HE I KA8 1.36 1.55 1.34 1.53 1 2 SI 304.60 251.60 293.26 242.09
|
||
AL- 1,50— 1,55. 1.48 1.53 _J 3 SI 273.70 251.6Q 263.51 242.Q9
|
||
AW70 1.80 1.55 1.77 1.53 WYSE 430.00 414.00 A
|
||
WYSE 3.00 A 2.95 A 5007 (O II ) J 53 94.OOX 90.49X
|
||
4924 (.FE nn WYSE Q.O A— 0.0 Q.Q A— -OUi 5016,00 H£_J -KAfi. ,-24 —2.24_ 2.15 2 «_L5
|
||
4931.05 (O III) KAB 0.09 0.09 MORG 2.00 1.92 A
|
||
AW70 O. 12 O. 12 WYSE 3.00 A 2.88 A
|
||
WYSE 0.50 A 0.49 A -J012 (FE- III) WYSE 0.60 A 0.57 A
|
||
4931.05 (FE III) 2 KAB 0.09 0.09 5041.90 SI II MORG 0.0 A 0.17 0.0 A 0.16
|
||
3 WYSE 0.50 A 0.49 A AW 70 0.17 0. 17 0.16 0.16
|
||
(FF TU) 3 WVJSE 0.5a A 0.49 A WYSE 0.60 A 0-57 A
|
||
4958.90 (O III) KAB 113.00 85.60 110.18 83.42 5047.30 HF I MORG 0.40 A 0.38 A
|
||
MORG 0.0 85.60 0.0 83.42 AW 70 0.32 0.26 0.30 0.25
|
||
_Ai— 113.nn RS.Afl 11n.i » A3.4? _GRA -Q.2a Q.26 D.-19 Q «25
|
||
1 1 J53 184.OOX 179.40X WYSE 0.70 A 0.67 A
|
||
1 2 J 53 59.OOX 57.53X 5056.40 SI II MORG 0.40 A 0.38 A
|
||
-J 3 .153- 34.QQX 33-. 1 5X AW70 0-35 0- 33
|
||
1 J060 107.00 104.33 GRA 0.20 0.19
|
||
1 2B MA57 66.50* 64.84* 5056 (FE III) WYSE 0.80 A 0.76 A
|
||
1 -2F MA57- 56.not 54.60* _505.6 SI II WYSE -0.80 A 0.76 A
|
||
1 l ME 67 117.10 85.60 114.01 83.42 5112 1 WYSF 0.60 A 0.56
|
||
1 2 ME67 103.70 85.60 100.96 83.42 5119 (N I ) 1 1 PC 0. 34 0.39 0.32 0.36
|
||
-J 3 MF67 1Q5. 60— ..-107-..3) -1 2 BC 0.2-6 0-39 0.24 O T 36
|
||
1 4 ME67 76. 80 85.60 74.95 83.42 PC 0.56 0.53 0.36
|
||
i 5 ME67 46. 10 85.60 44.80 83.42 5146 WYSE 0.60 0.55
|
||
-J 6 MF67 49.90- 48.70 -5158 (FF VIT 1 AU70 . 34 0.13
|
||
1 7 ME67 97.90 85.60 95.55 83.42 1 GRA 0.20 0.17 0. 18 0.16
|
||
1 8 ME67 89.10 85.60 86.96 83.42 5145 FF VI l AW70 0.06 0.06 0.06 0.06
|
||
1 9 ME67 80.5a. 85.60 78.57 -83.-42 -51 59 (FF IL.) J WYSF 0.70 A 0.64
|
||
1 10 ME67 97. 00 85.60 94.85 83.42 5191.40 (AR III) 1 MORG 0. 20 0. 18
|
||
1 1 PC 117.00 85.60 114.63 83.42 AW7 0 0. 13 0. il 0.15
|
||
_1 2 ££ 102.00 85.60 - 98^.25 GRA 0- 20 0.18 0.15
|
||
' PC 43.70 85.60 42.69 83.42 5192 WYSE 0.70 0.64
|
||
1 R l 104.00 85.60 101.40 83.42 5198.30 (N I ) MORG 0.60 0. 55
|
||
-2- 80.00- 8-5.60 - —7a.00 83.42 AW7Q Q « 46 _Q,53 - Q..42
|
||
3 1 80.00 85.60 78.00 83.42 GRA 0.60 0.55
|
||
4 l 80. 00 85.60 78.00 83.42 WYSE 0.90 0. 82
|
||
5R 1 40. 00 85.60 39.00 83.42 5200.60 (N I ) MORG 0.40 0.36
|
||
6R 1 48.00 85.60 46.80 83.42 5212 WYSE 0.60 0. 54
|
||
7 R 1 52.00 85.60 50.70 83.42 5221 WYSE 0.60 0. 54
|
||
_i a_fi__L- 50. QQ 85.60 . 48.75 83.42 S 2 3.6 WYSE Q.60-. (U-54
|
||
104.00 85.60 101.40 83.42 5243 WYSE 0.60 A 0.54 A
|
||
1 SI 108.10 85.60 105.40 83.42 5262 (FE II ) WYSE 0.60 A 0. 54 A
|
||
2 SI LOI, 20— as.6Q - 98j-6.I. _83.42 5262 MDRG 0.40 A 0.36 A
|
||
l 3 SI 90. 10 87.85 5270.80 FE III 1 MORG 1. 20 1.07
|
||
l WYSE 120.00 A 117.00 A AW70 0.62 0.61 0.55 0.55
|
||
_4959.. _LQ II ) _1 4 J53- . 35.OOX 34.12X GRA 0.60 0.61 0.54
|
||
4986 (FE III) WYSE 0.70 A 0.68 A WYSF 1.00 A 0.89
|
||
4991 (0 ITT) 1 C GZ55 378.00 309.33 365.51 299.11 5271 (FE II WYSF 1.00 A 0. 89
|
||
1 E GZ55 240.00 309.33 232.07 299.11 5299 AW7Q 0.06 0.Q6 Q.Q5
|
||
l W GZ55 310.00 299.76 5302 MORG 0.60 A 0.53 A
|
||
4994 N II 1 WYSE .0.60 A 0.58 A 5321.80 (CL TV ) MORG 0.0 A 0.0 A
|
||
5007.00 (Q III ) J. KAB- 251.6Q - 329.27 242.Q9 5487 MORG 0.34
|
||
1 MORG 0.0 A 251.60 0.0 A 242.09 5513.00 C I MORG 0.40 A 0.34 A
|
||
1 AL 342.00 251.60 329.27 242.09 GRA 0. 10 0.08
|
||
-1 1 BDQ 2.7.1,00*- -26Q.-91* 5518.4Q (CL III) MQ£G 1Q.QQ A 8.40 A
|
||
1 2 BDO 264.00* 254.18* AW70 0.84 0.77 0.71 0.65
|
||
1 3 BDO 116.00* 111.68* GRA 0. 70 0.77 0. 59 0.65
|
||
-I 4 BDO 269.00* 258.99* WY-S-E 1.50 A 1-26 A
|
||
l 5 BDO 221.00* 212.78* 5538.20 (CL III) l MORG 10.00 A 8. 35
|
||
1 6 BDO 147.00* 141.53* 1 AW70 1.13 1.06 0.94 0.89
|
||
1 7 BDO 134.QQ* 129.01* 1 GRA 1.00 1.06 0.84 0.89
|
||
1 8 BDO 78.00* 75.10* WYSE 2.00 1.67
|
||
1 9 BDO 298.00* 286.91* 5555.50 O I MORG 0. 0 0.10 0.0 0.08
|
||
1 10 BDO 247.QQ* 237. 81 ♦ -GRA— Q. 10 JL. 1Q Q.Q8 Q.QB
|
||
1 11 BDO 245.00* 235.88* 5557 A W 70 0.05 0.04
|
||
1 12 BDO 201.00* 193.52* WYSE 0. 70 0.58 A
|
||
1 13 BDQ 13Q.QQ* 125. 16* -5571.60 LQ ! L MORG 15.00 12.40 A
|
||
1 F DMA 55. 90 251.60 53.82 242.09 GRA 0. 50 20.25 0. 41 16.74
|
||
1 47 D02 316.00 251.60 304.24 242.09 GZ56 40.00 20.25 33.07 16.74
|
||
A OEK. 303.00 . 2 5.1., 6 Q . -291 .-72 242.09 WYSE 1.50 1.24 A
|
||
1 J 53 470.OOX 452.51X 5604 K VI AW 70 0.03 0.03
|
||
2 J 53 148.OOX 142.49X 5616 WYSE 0.70 A 0. 57
|
||
J 5 3-- 85.Q0X 81.84X 5666 N II A W 70 0.06 Q.Q6 Q. Q5 Q.Q5-.
|
||
1 J060 333.00 320.61 5674 N II 1 AW 7 0 0.06 0. 05
|
||
1 2B MA57 198.00* 190.63* 5678.00 N II 1 MORG 0.40 A 0. 32
|
||
1 MF67 36Q.QQ- 345.84 _1 WYSE Q.7Q A 0.57 A
|
||
1 2 ME 6 7 32 4.30 251.60 311.55 242.09 5679 N II GRA 0. 20 0. 16
|
||
1 3 ME67 329.00 251.60 313.77 242.09 5692 WYSE 0.70 0.56
|
||
-J 4 MF6.L 148.50 251.60 .. 143^18 247.09 5739 MORG 0.60 0.48 A_
|
||
5 ME67 148.50 251.60 142.25 242.09 5740 SI III AW70 0.06 0. 05
|
||
6 ME67 159.80 251.60 154.08 242.09 5754.00 (N II) MORG 15.00 11.92
|
||
(209.0 -19.4»
|
||
639
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
NC,C 1976 (209.0 . NGC 1976 (209.Q -19.4)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N PG REF OBS I AVE 0 CORR I AVE C
|
||
19,7 6Ap JS
|
||
|
||
|
||
|
||
|
||
5754.00 (N II ) 1 A W7 0 1.60 1.12 1.27 0.89 6548. 60 IN II ) 1 1 PC 38.90 23.33 .27.03 16.04—
|
||
F DMA 1.75 1.12 1.39 0.89 SI 23,50 23.33 15.85 16.04
|
||
GRA 2.00 1.12 1.59 0.89 2 SI 18.80 23.33 12.68 16.04
|
||
1 PC 0.91 _L*JL2_ 0.76 _Q.89_ 3 SI 22.60 23.33 15.25 16.04...
|
||
2 PC 0.98 1.12 0.70 0.89 WYSE 40.00 A 26.99 A
|
||
3 PC 1.02 1.12 0.82 0.89 6563.00 MORG 0.0 A 378.98 0.0 A 254.63
|
||
4 PC 0.69 1.12 0.59 0.89 AL 350.00 378.98 -235.5-0- 254.63
|
||
1 SI 1.02 1.12 0.81 0.89 11 BA 1.00* 0.67*
|
||
2 SI 0.47 1.12 0.38 0.89 A BO 398.00 378.98 267.80 254.63
|
||
2 WYSE
|
||
SI- 0.7.1- 1.12 0.57 -Q.B9 . B BO 402. 00 378.98 270.49 254.63-
|
||
4.00 A 3.18 A C BO 407.00 378.98 273.85 254.63
|
||
5759 MORG 0.40 A 0.32 A D BO 320.00 378.98 215.31 254.63
|
||
5765 WYSE 0.90 A 0.71 A E BQ 403.QQ 378.98 271. 16 .254.63.
|
||
5 776 WYSE 0.80 A 0.63 A F BO 388.00 378.98 261.07 254.63
|
||
5847 WYSE 0.90 A 0.70 A G BO 342.00 378.98 230.12 254.63
|
||
5876.00 MORG
|
||
AH X
|
||
0.0 A
|
||
20.00*
|
||
.L5..-92 0.0 A
|
||
15.47*
|
||
12.22 322.. QQ 318 ■98._ 217.33 254.63
|
||
M CO 1.00* 0.67*
|
||
AL 31.00 23.98 F DMA 345.00 232.14
|
||
1 J53 130.QQX 100.54X 1 DM! ■ QQ* 0-67»
|
||
J53 19.00 X 14.69X 24 002 1.00* 0.67*
|
||
B MA57 17.20X 13.30X FL 20.00* 13.46*
|
||
E MA57 . 19.20X 14.85X GEB 398.QQ 378.98 267.80 754.63
|
||
PE MA 6 2 16. 20 15.92 12.53 12.22 A GEK 1.00* 0.67*
|
||
PG MA62 20.60 15.92 15.93 12.22 GZ56 500.00 A 336.43 A
|
||
1 ME 67 12.00 15.92 9.14 12.22 1 J 53 132IL QQ* 888. 17X
|
||
2 ME67 11. 10 15.92 8.46 12.22 2 J 53 370.OOX 248.96X
|
||
3 ME67 17. 70 15.92 12.84 12.22 3 J53 500.OOX 336.43X
|
||
ME 67 15.40 15.9-2 12j-Q.3— 12.22 4 J53 59Q.QQX _396.9BX—
|
||
5 ME67 10.40 15.92 7.77 12.22 J 060 333.00 224.06
|
||
6 ME 6 7 13. 10 15.92 10.23 12.22 PE MA62 403.00 378.98 271. 16 254.63
|
||
7 ME67 14.30 1 5.9? 11.17 12.77 1 ME 6 7 346.60 378.98 227.94 254.63
|
||
ME67 12.50 15.92 9.76 12.22 2 ME67 375.30 378.98 246.82 254.63
|
||
i ME67 15.40 15.92 12.03 12.22 3 ME67 464.40 378.98 283.00 254.63
|
||
_Q£ 19.9.Q 15.92 15. 39 12.77 4-M-E-67.. 421.20 287. 76
|
||
1 PC 16.60 15.92 13.49 12.22 5 ME67 394.20 251.46
|
||
2 PC 16.20 15.92 11.07 12.22 6 ME67 432.00 295.14
|
||
3 PC 12.30 15.-92 9.. 70 JL2.22 7 ME 67 401.30 .274. 16
|
||
WYSE 30.00 A 23.20 A 8 ME67 441.70 301.76
|
||
5885 WYSE 3.00 A 2.32 A 9 ME67 437.40 298.83
|
||
5894 WYSE 3» QQ A 2.31 A CLP 364.00 244.9?
|
||
5931 II l GRA 0.05 0.05 0.04 0.04 1.00* 0.67*
|
||
5941 II 1 GRA 0.08 0.08 0.06 0.06 407.00 295.53 254.63
|
||
5954 L_ WYS.E - 1.00 A -0.76 A 398. 254.6.3—
|
||
5958 C I GRA 0.30 0.23 PC 371.00 378.98 257.35 254.63
|
||
5958.00 SI I I MORG 0.40 0.30 A PC 417.00 378.98 324.29 254.63
|
||
GRA Q.-3Q- Q.?3
|
||
5958.00 0 I MORG 0.40 0.30 A 1 SI 338.00 378.98 261.07 254.63
|
||
5979.00 SI II MORG 0. 40 0. 30 A 2 SI 383.00 378.98 257.70 254.63
|
||
GRA 0.30 0.30 0- 73 3 SL 380.00 378.98 255.69- 254.63
|
||
WYSF 1.50 1. 13 A SI 328. 00 378.98 220.70 254.63
|
||
6003 WYSE 0.90 0.68 A SI 351.00 378.98 236.17 254.63
|
||
6035 WYSE 0.80 0.60 A 1.00» 0.67*
|
||
MÜRG 0.70 A 0.52 A 1 WYSE 350.00 A 235.50
|
||
GRA 0. 30 0.22 6583.40 (N II 1 1 MORG 0.0 A 92.36 0. 0 63.59
|
||
6 049- WYSF.... 1.00 A 0.75 A _AJ 55.00 97.36 36.86 63.59 _
|
||
6066 WYSE 1.00 0.74 A 11 BA 0.50* 0. 34*
|
||
6084 WYSE 0. 80 0.59 A M CO 0. 13* 0. 09*
|
||
6087 GRA 0.20 0.20 0. 15 F DMA 161.00 107.89
|
||
6097 WYSE 0.80 0.59 A 1 DMI 0.40* 0.27*
|
||
6118 WYSE 0.80 0.59 A 24 D02 0. 58* 0.39*
|
||
6136 WYSE t8Q 0.59 A GEK 0.20*A 0.13.» A
|
||
6 161 WYSE 0.80 A 0.58 A 1 J 53 1160. OOX 777. 38 X
|
||
6185 WYSE 0.90 A 0.65 A 2 J 53 250.OOX 167.54X
|
||
_ _62.QQ WYSE Q. 80 A . &. 58 A 053 205.OOX 137.38X
|
||
6258 1 MORG 0.40 0.28 A J53 200.OOX 134.03X
|
||
6267 1 WYSE 1.00 0.71 A JQ60 333.00 223.16
|
||
6300.60 (01)1 MORG 10.00 7.06 A ME67 421.20 286.65
|
||
AHX 2.90* 2.05* 5 ME67 394.20 250.32
|
||
GRA 0. 80 1.20 0. 56 0.84 6 ME67 432.00 294.00
|
||
_i PC 1.29 1.20 .0,97 —Q.84_ 8 ME67 .4A1. 70 . 3QQ.6Q
|
||
1. 17 1.20 0. 70 0.84 437.40 297.67
|
||
1.55 1.20 1.12 0.84 0. 17* 0.11*
|
||
-2.. 82 A . I PC- 58.90 -92.36 - 42.63... 63.59
|
||
6312.40 (S I 11 ) 1 MORG 15.CO 10.57 A 2 PC 74. 10 92.36 40.97 63.59
|
||
FL 0. 12* 0.08* 3 PC 115.00 92.36 79.48 63.59
|
||
_££ 2. 57 jl94 ££_ 174.00- —92.36_ 134.97 63.59_
|
||
PC 2.66 2.42 1. 58 l .07 1 SI 69.90 92.36 ' 46.84 63.59
|
||
PC 2.04 2.42 1.48 1.67 2 SI 55. 70 92.36 37.33 63.59
|
||
WYSE 5.00 3.5? A 3 SI 67.60 92.36 45.30 63.53,
|
||
6312 (SI III) l GRA 0. 90 0.63 0.35* 0.23*
|
||
6347.30 SI II l MORG 0.60 0.42 A WYSE 70.00 A 46.91 A
|
||
J— WYSE 1.00 A Q, 70 A.. WYSE 1,00 A 0.67 A
|
||
6364.10 (O I ) 1 MORG 1.20 A 0.84 A 6638 WYSE 1.00 A 0.66 A
|
||
1 1 PC 0.38 0.51 0.28 0.37 6678 < 20 HE I MORG 15.00 A 9.89 A
|
||
1_ 3 ELC_ Q.65 0.51 Q.46 D.37 AHX 8. 00* 5 » 2 7 *_
|
||
WYSE 1.50 1.05 A F DMA 6.00 3.96
|
||
6371.50 MORG 0.40 0.28 A l J53 80.OOX 52.74X
|
||
6403 WYSE 1.00 0.69 A 1 PC 5.QL- 3.58
|
||
6501 WYSE 1.00 A 0.68 A PC 5.02 4.96 2.71 3.21
|
||
6548.60 II ) l MORG '0.0 A 23.33 0.0 A 16.04 PC 3.80 4.96 2. 59 3.21
|
||
L_ AL 18.00 23.33 12. 14 16.04 WYSE 12.QQ A 7.91 A
|
||
11 BA 0.17* 0. ll* 6716.70 ( S 11)1 MORG 10.00 A 6.55 A
|
||
M CO 0. 07* 0.05* 1 AHX 5.20* 3.41*
|
||
2 J53._ IQQiQQX 67.47X_ L_ 5Q DA -1.94*- 1.27*
|
||
17.88
|
||
4 J53 71.OOX 47.90X F DMA 49.60 27.30 32.49
|
||
J 060 333.00 224.66 GRA 5.00 27.30 3.28 17.88
|
||
4 ME 6 7 42..U ?aa.5o J 53 224.QQX 146.74X
|
||
5 ME67 394.20 252.23 2 J 53 48.OOX 31.45X
|
||
6 ME67 432.00 295.90 3 J 53 43.OOX 28.17X
|
||
8 ME67 441.7Q 3Q2.54 4 J53 41.QQX 26.86X—
|
||
437.40 299.60 WYSE 6.00 A 3.93 A
|
||
18.20 13.24 ( S 11)1 AL 14.00 9.16
|
||
(209.0 -19.4)
|
||
|
||
640
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 1976 Í2Q9.Q -19.*) NGC 1976 (209.0 -19.4)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
-6723 __Í_S II ) 1 JQ6Q 15« 3Q 13.81 1Q.Q1 .09 8399 H I 1 MORG 2.00*A 1 » 04*A
|
||
1 1 ME 67 4.90 13.81 3.13 9.09 8375 T 1 MORG 3.00*A 1.56*A
|
||
1 2 ME 67 10. 10 13.81 6.45 9.09 8392 I 1 MORG 3.00*A l.56*A
|
||
0.80 13.81 0.47 . 9.09 L_ AHX 1.80*
|
||
1 .3.4 ME61-
|
||
ME67 19.00 13.81 12.64 .09 MORG 2.00*A 0.93»
|
||
i.04*A
|
||
1 6 ME67 21.60 13.81 14.37 9.09 AHX 1.86* 0.96*
|
||
_11 87 ME67
|
||
ME67 21.60 13.81 14.37 9.09 8437 MORG 3«QQ*A _L«.55.*A
|
||
15.40 ► 13.81 10.24 9.09 8446.00 O I MORG 5.00*A 2. 58*A
|
||
1 9 ME 67 20.20 13.81 13.44 9.09 AHX 5.29* 2. 73*
|
||
1 1 PC 9.33 13.81 6.62 9.09 OF DA A .1.50* -0*71»
|
||
1 2 PC 8.70 13.81 4.64 9.09 ON DA A 4.30* 2.22*
|
||
1 3 PC 18.60 13.81 12.57 9.09 GRA 1.20 0.62
|
||
6731.10 (S II ) 1 MORG 10.00 A 6.54 A MORG 3.00*A 1.55*A
|
||
1 AHX 8.90* 5.82* AHX 2.18* 1. 12*
|
||
1 50 DA 1.00* 0.65* 8502 MORG 4.00*A 2.05*A
|
||
1 F DMA 41.40 27.06 AHX 2.74* 1.41»
|
||
1 GRA 9.00 5.88 8545 MORG 4.00*A 2•04*A
|
||
1 1 J53 300.OOX 196.07X AHX 2.86* 1.46*
|
||
-J53.. 3 5 PO X _ 22.88X OF DA A 2.00» 1.02*
|
||
3 J53 37.t COX 24.18 X ON DA A 2.00* 1.02*
|
||
4 J53 35.OOX 22.88X (CL II ) 1 CF DAA 0.21* 0.11*
|
||
WYSE 8.00 A 5.23 A L GRA 0.10 0.05 0.05
|
||
7001.00 O I MORG 0.70 A 0.44 A MORG 3.00*A 1.52*A
|
||
GRA 0.30 0. 19 0.19 AHX 4.29* 2. 18*
|
||
7065.00 HE I MORG IQtQO A 6.20 A OF DAA 2.Q0* 1.02*
|
||
1 AHX 16.00* 9.92* CN DAA 2.00* 1.02*
|
||
1 AL 30.00 15.72 18.60 9.60 (FE II > 1 OF DAA 0. 12* 0.06*
|
||
1 1 ME 67 11.30 15.72 6.82 9.60 L GRA 0.07 0.04
|
||
3 ME67 11.90 15.72 6.55 9.60 8665 MORG 1.00*A 0.50*A
|
||
4 ME67 12.70 15.72 8.02 9.60 AHX 4.37* 2.21*
|
||
1 9 ME67 12.70 15.72 8.02 9.. 60 8750 AHX 6.00* 3.00*
|
||
7135.00 (AR III) MORG 0.0 A 0.0 A III) l AL 72.00 35.02
|
||
AHX 36.70* 22.52* 1 FL 3.40* 1.65*
|
||
_AJ 3ÍL..Q0 -18.4J 1_ 1 ME 67 .49.50 -63.08 23. 10 30.20
|
||
1 1 ME 67 11.40 15.49 6. 80 9.40 2 ME 6 7 48. 10 63.08 22.44 30.20
|
||
1 2 MF67 16.00 15.49 9.55 9.40 3 ME67 74.20 63.08 30. 14 30.20
|
||
_1 3 ME67 16.80
|
||
15.00
|
||
15.49
|
||
15.49
|
||
9. 12
|
||
9.38
|
||
9.40
|
||
9.40
|
||
4 ME67 47.90 63.08 23.95 ■ 3.0.20
|
||
1 4 ME67 5 ME67 16. 50 63.08 7.28 30.20
|
||
1 5 ME67 6.60 15.49 3.79 9.40 6 ME67 58.80 63.08 29.40 30.20
|
||
_1 6 ME67 13.3Q 15.49 8.32 9.40 7 ME 67 97.40 63.08 -A8..71 30.20
|
||
1 7 ME67 17.80 15.49 11. 13 9.40 6 ME67 70. 60 63.08 35.30 30.20
|
||
1 8 ME67 12.30 15.49 7.69 9.40 9 ME67 95.20 63.08 47.61 30.20
|
||
_J 9 ME67 I 5. 70 15.49 9.8? 9.40 1 PC 69.10 63.08 38.61 30.20
|
||
7155.00 (FE II ) MORG 0.60 A 0.37 A 2 PC 64. 50 63.08 22. 18 30.20
|
||
GRA 0.90 0.55 0.55 3 PC 56.20 63.08 28.89 30.20
|
||
7231 .00 C T T MORG 0.40 A 0.24 A ÛJ— 5.80 5.69 2.J8
|
||
GRA 1.00 1.00 0.60 0.60 1 ME 67 4.70 5.69 2.16 2.68
|
||
7236.60 C II MORG 0. 0.42 70 2 ME 6 7 5. 00 5.69 2. 30 2.68
|
||
GRA 1. nn i .nn n, ¿»n o. ah 3 ME 67 6. 80 5.69 2. 71 2.68
|
||
7254.00' D I MORG 1.00 A 0.60 A ME67 4.50 5.69 2.22 2.
|
||
GRA 1.00 1.00 0.60 ME67 6.20 5.69 3.06 2.68
|
||
7281.20 HE I MQRG 7 MF67 . 6* 70 -.5 „6 9 3.31 2.68
|
||
GRA 3. 00 3.00 1.80 1.80 ME 67 5.40 5.o9 2.66 2.68
|
||
7320.10 (O II ) MORG 0.0 0.0 0.0 0.0 9 ME67 5.50 5.69 2.71 2.68
|
||
AI 1 7. 30 10.33 J El 5.88 5.69 3.25 2.68
|
||
7319 (O II ) AL 17.30 10.33 l PC 5.88 5.69 1.98 2.68
|
||
7325 (N II ) h PC 4. 78 4.78 3.44 3.44 l PC 5. 88 5.69 2.98 2.68
|
||
7325 (O II ) 1 ME67 10.30 14.58 5.96 8.50 ( S I II ) 1 AL 181.00 180.20 84.63 83.01
|
||
2 ME67 14.90 14.58 8.63 8.50 1 FL 4. 80* 2.24*
|
||
3 ME 67 17.60 14.58 9.22 8.50 l 1 ME 6 7 125. 00 180.20 55.94 83.01
|
||
4 ME67 1.6. QQ.. 14.58 9.73 3.50 L_ Z . N.E-6-7.. 190.00 -Iß. Qt 2 Q -gJ>...Q.2 -, 83. Q1
|
||
1 6 ME67 15. 90 14.58 9.67 8.50 3 ME67 82.20 180.20 31.78 83.01
|
||
1 7 ME67 15.00 14.58 9.13 8.50 4 ME67 99.50 180.20 47.90 83.01
|
||
_J 8 ME6.7 17-90 1 4.58 7.85 8.50 5 ME67 78.00 180.20 3JU.92. 83.01.
|
||
1 9 ME 67 15. 70 14.58 9. 55 3.50 6 ME67 133.30 180.20 64. 18 83.01
|
||
1 1 PC 11.70 14.58 7.71 8.50 7 ME67 236.00 180.20 113.62 83.01
|
||
1 2 EC- 1.7.« 80-, 14.58 8.28 8.5Q .ME67 19Q.30 18Ct? Q 91.62 83.01
|
||
1 3 PC 12.60 14.58 7. 82 .50 9 ME67 251. 30 180.20 120.99 83.01
|
||
7330.70 (O II ) 1 MQRG 0.0 A 0. 0.0 A 0.0 1 PC 263.00 180.20 142.33 83.01
|
||
J. AHX 17.30* 10.31* 269.00 -18 0.2 0 -3J.±27.. .83,01
|
||
AL 17.30 10.31 1 _2 PC PC- 244.00 180.20 120.96 83.01
|
||
7330 (0 I I ) AL 17.30 10.31 9545 I 1 AL 8.00 8.00 3.74 3.74
|
||
7378 (» T I ) GRA 0.50 0.30 10049 -I L_ AL 10. OQ 12. 15 4.51 5.35
|
||
7378 MORG 0.60 0.35 1 ME 67 10. 10 12.15 4.35 5.35
|
||
7387.00 (FE II ) MORG 0.0 0.0 0.0 0.0 2 ME67 10. 50 12.15 4.52 5.35
|
||
7412 (* II ) GRA 0.20 0.20 • 1? 0.12 3 ME67 16. 10 12.15 5.94 _5.?5
|
||
7452.00 FE I I ) MORG 0. 0 0.0 0.0 A 0.0 4 ME67 10. 50 12.15 4.88 5.35
|
||
7469 N I GRA 0.50 0.50 0.29 0.29 6 ME67 11. 10 12.15 5. 16 5.35
|
||
7500 MORG Q. 4Q... 0-23 A 7 ME 6 7 13.20 12.15 6. 13 5.35
|
||
7530.70 (CL IV ) MORG 0.40 A 0.23 8 MF67 11.30 12.16 5.25 5.35
|
||
7751.30 (AR III) MORG 5.00 A 2.80 A 9 ME67 11.90 12.15 5. 53 5.35
|
||
AHX 11.90* 6.67* 1 PC 13.80 12.15 7.25 . 5.35
|
||
7774.50 0 T MORG 0.20 A 0. 11 A 2 PC 14.10 12.15 4.33 5.35
|
||
7794 MORG 0.40 A 0.22 A 3 PC 13.20 12.15 6.32 5.35
|
||
7816.10 HE I MORG Q.4Q A_ .0-1 ¿Z A AL 70.00 104. 58 29.96 -fr.3-21 ,
|
||
GRA .0.40 0.22 1 ME 67 80.00 104.58 32.61 43.21
|
||
7837 MORG 0.40 0.22 2 ME 6 7 115.00 104.58 46.87 43.21
|
||
-8.046 LCL_ II ) GRA 0.3Q- . 16 3 ME67 17 5.00 . 104« 59 6Qt 59 43.21
|
||
8185 N GRA 0.40 0.40 0.21 0.21 4 ME 6 7 78.00 104.58 34.50 43.21
|
||
N GRA 0.50 0.50 0.27 0.27 5 ME67 45. 00 104.58 17. 18 43.21
|
||
8204 -GRA., 0.20 0.20 0.11 0.11 6 MF 6 7 70.00 104.58 30.96 43.21
|
||
8216 N I GRA 0.60 0.60 0.32 0.32 7 ME67 150.00 104.58 66.34 43.21
|
||
8223 N I GRA 0.80 0.80 0.42 0.42 8 ME67 120.00 104.58 53.07 43.21
|
||
.■8243 -W I- GRA . 0.4ÍL- Q.4Q- Q. 21 0.21 9 ME 6 7 ■ LQ4..QQ 104.58 45.99
|
||
8286 MORG 1.00*A 0.53*A 1 PC 144. 00 104.58 72.57 43.21
|
||
8292 MORG 0.0 *A 0.0 *A 2 PC 141.00 104.58 40. 14 43.21
|
||
82<?B MORG . !.00»A fi.5? *A 3 67.60 104.58 -.3.0 >89 .43.21
|
||
8306 H I MORG 1 •00*A 0,52*A AL 20.00 21.55 8.50 8.90
|
||
8314 H I MORG 1.00*A 0.52*A 1 ME67 17. 80 21.55 7.20 8.90
|
||
8324 _H 1— MQRG 1.QQ»A Q.52*A 2 ME67 2-L. 00 21.55 8.50
|
||
8334 MORG 1.00*A 0. 52 *A 3 ME67 33.40 21.55 11.46 8.90
|
||
8346 MORG 1.00*A 0.52 *A 4 ME67 20.40 21.55 8.96 8.90
|
||
|
||
641
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
WAVF lOENT N RG REF OBS I AVE 0 CORR I AVE C C = 0.50 FOR RG REF ME67 (HYDROGEN LINES!
|
||
10938 H I 1 5 ME67 15.00 8.90 C = 0.50 FOR RFF HE67 (HYDROGEN LINES)
|
||
1 6 ME6 7 20. 50 21.55 9.00 8.90 C = 0.50 FOR RG 9, REF ME67 (HYDROGEN LINES)
|
||
1 7 ME67 19.20 21.55 8.43 8.90 C = 0.46 FOR RG 10, REF HE67 (HYDROGEN LINES)
|
||
_J 8 M67 22.4Q 21.55 9.64 _a^ .C = £Ml2 FQR PQ 1 REF PC (HYDROGEN LINES)
|
||
ME67 22.00 21.55 9.66 3.90 C = 0.77 FOR RG 2 REF PC (HYDROGEN LINES)
|
||
1 PC 25. 10 21.55 12.58 8.90 C = 0.48 FOR RG 3 REF PC (HYDROGEN LINES)
|
||
_2 R£_ 21.90 21.55 6.17 3.9-Q_ C = Q.33 FQR RG 4 REF PC (HYDROGEN LINES)
|
||
(209.0 -19.4)
|
||
REGION KEY (REG I ON,REFERENCE,EXPLANA!ION)
|
||
11. BA . MAX (N ID OF 238 MEASURES. SEE REF.
|
||
i. Bon , 34 ARCSEC N OF CENTRAL STAR
|
||
21 BDQ i ARCSEC N OF CENTRAL STAR BEGIN NGC 1977 (208.5 -19.1) C = 0.0 (NO CALCULATION)
|
||
205 ARCSEC N OF CENTRAL STAR
|
||
4, BDO , 25 ARCSEC S OF CENTRAL STAR WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
5. BOO . 110 ARCSEC S OF CENTRAL STAR 6563 H I 1 1 PA l . Q-Q*_ -ItQQ*
|
||
6, BDO 195 ARCSEC S OF CENTRAL STAR 1 2 PA 1.00* 1.00*
|
||
7, BOO 280 ARCSEC S OF CENTRAL STAR ) 1 1 PA 0.28* 0.28*
|
||
8, BDO 365 ARCSEC S OF CENTRAL STAR 1 2 PA Q.42* Q.42»
|
||
9, BDO 120 ARCSEC W, 34 ARCSEC S OF CENTRAL STAR
|
||
10, BDO 120 ARCSEC E, 34 ARCSEC S OF CENTRAL STAR REGION KEY (REG I ON,REFERENCE,EX PLANATION)
|
||
11, BDO 120 ARCSEC E OF CENTRAL STAR 1* PA , RA 5H 32.7M, DEC -4DEG 52MIN
|
||
12, BDO 238 ARCSEC E OF CENTRAL STAR PA 5H 32.9M, DEC -4DEG 52MIN
|
||
13, BDO 357 ARCSEC E OF CENTRAL STAR
|
||
A, BC 0.7 min W, 0.1 MIN N OF THETA-1 CRI END NGC 1977 (208.5 -19.1)
|
||
B T BC 2.0 MIN E, 0.4 MIN S OF THETA-1 ORI C
|
||
C, BO 0.5 MIN W, 1.0 MIN N OF THETA-l ORI C
|
||
D. BO 3.7 MIN W. 0.9 MIN S OF THETA-1 ORI C
|
||
F , BO 0.5 MIN W, 1.1 MIN S OF THETA-1 CRI C BEGIN NGC 1999 (210.4 -19.7) C = 0.0 (NO CALCULATION)
|
||
F, BO 0.5 MIN E, 1.1 MIN S OF THETA-1 OPI C
|
||
1.1 min W, 3.7 “IN S ÜF THETA-1 QFI.C... WAVE IDENT N RG REF OBS I AVE 0 CQPR-L- AVE C
|
||
H0.v BO
|
||
BC
|
||
1.1 MTN W, 5.6 MIN S OF THETA-l ORI 6563 H I 1 GEK 1.00* 1.00*
|
||
1, CA MINIMUM OF 96 VALUES, SEE REF. 6584 (N II ) 1 GEK 0. 30* 0.30*
|
||
co MAXIMUM OF 10 REGIONS OBSERVED. SEE REF.
|
||
61, CR DIRECTION 6, REGION 1, MIN. OF 43 MEAS., SEE REF.
|
||
50, DA MAXIMUM OF 54 MEASURES, SEE REFERENCE
|
||
ON, DAA ON ENHANCED 01
|
||
OF, DAA OFF ENHANCED 01
|
||
15, DEM MAX. OF 23 VALUES. SEE REF. BEGIN NGC 2023 C = 0.0 (NO CALCULATION)
|
||
4* -ELM MINIMUM OF 20 MEASURES, SEE REFERENCE
|
||
DMA FILAMENT 14 ARCMIN S OF TRAPEZIUM WAVE IDFNT N RG REF OBS I CORR I
|
||
1, DMI MAX. FROM 2300 MEASUREMENTS. SFE REF. 6563 H I 1 A GEK 1.00* 1.00*
|
||
24. nn? MAXIMUM OP 91 UAIIIFS, 9 F F RFF. 6 5B4 (N ) 1 A GEK 0.22* 0.22*
|
||
D 02 MAXIMUM OF 91 VALUES, SFE REF. 6717 (S II ) GEK 1. 35* 1.35*
|
||
3, DRS , MINIMUM OF 14 MEASURES, SEE REFERENCE 6731 (S II ) 1 GEK 1.00* 1.00*
|
||
A. GEK . A ON D IFF E RF NT SCAt E
|
||
C, GZ 5 5, CENTRAL REGION REGION KEY (REG ION,REFERENCE,EX PLANATION)
|
||
E, GZ55, TO 12 MIN EAST OF CENTER A , GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
W. G755. S TO 15 M.IN WE.SJ-.-flEi.—CFNTFR
|
||
1, J 53 , PA 5H 30.4M, NC.45
|
||
2, J 53 , PA 5H 30.4M, NC.46
|
||
3, .153 . RA 5H 30.4M. NO.47
|
||
RA 5H 30.4M, NO.48
|
||
3, MA57, EAST OF THETA 1 CRI C BEGIN NGC 2024 -16.3) **C 1.00 (HYDROGEN LINES)
|
||
IB. M AS 7, SAME REGION AS ABUVF.Sr.AIF DIFFFRFNT FROM ?B BFIOW
|
||
?fl, MA57 , SAME REGION AS ABOVE,SCALE DIFFERENT FROM IB ABOVE WAVE IDENT OBS I AVE 0 CORR I AVE C
|
||
E, MAS 7, 0.4 MIN S CF THETA l ORI C 4861 H I HU 100.00 100.00
|
||
IE, MA5 7, SAME REGION AS ABOVE,SCALE DIFFERENT FROM 2E BELOW 1 LZ 100.00 100.00 100.00 100.00
|
||
2 E, MA57, SAME REGION AS ABOVE,SCALE DIFFERENT FROM IE ABOVE 2 LZ 100.00 100.00 100.00 100.00
|
||
PG, MA62, PHOTOGRAPHIC OBSERVATIONS 3 LZ 100.00 100.00 100.00 100.00
|
||
PE. mA62. PHOTOELECTRIC OBSERVAT IONS 4 LZ 100.00 100.00 100.00 100.00
|
||
1, ME67, 45 ARCSEC SOUTHWEST OF TRAPEZIUM 1 5 LZ 100.00 I 00.00 100.00 100.00
|
||
2, ME67, 68 ARCSEC WEST OF TRAPEZIUM 4991 (0 III ) 1 HU 33.00 30.94 A
|
||
3, ME6_7j 32 ARCSEC EAST OF TRAPEZIUM 5876 HE I 1 1 LZ 11.DQ 10.20 5.93 6.-59-,
|
||
4, MF67, 104 ARCSEC SOUTHEAST OF TRAPEZIUM 2 LZ 13.00 10.20 17 6.59
|
||
5, MF67, 151 ARCSEC EAST OF TRAPEZIUM 3 LZ 7.00 10.20 3.96 6.59
|
||
6, m E6 7, 105 ARCSEC EAST QF TRAPEZIUM _1 4 LZ 6. QÛ... 1 0.70 3.43 6.59
|
||
7, ME67, 87 ARCSEC SOUTH OF TRAPEZIUM 1 5 LZ 14.00 11.43
|
||
8, MF67, 100 ARCSEC NORTHWEST OF TRAPEZIUM 1 GEK 1.00* 0.47*
|
||
9, ME67. 115 ARCSEC NORTH OF TRAPEZIUM _J LÔ 1 « OQ* 0.47*
|
||
10, MF67, 55 ARCSEC SOUTH OF TRAPEZIUM 1 l LZ 750.00 620.00 289.21 287.43
|
||
MINIMUM OF 13 MEASURE'S, SEE REFERENCE 1 2 LZ 590.00 620.00 288.16 287.43
|
||
QS55, MINIMUM Qr 16 MEASURES. SFE PEFFRENCF _J 3 LZ 690« QQ 620. QQ 787. 1 5 7B7.A3
|
||
PC , 35 ARCSEC NORTH OF THETA-l ORI 4 LZ 680.00 620.00 287.34 287.43
|
||
2, 35 ARCSEC SOUTH OF THFTA-1 OP I 5 LZ 390.00 620.00 285.31 287.43
|
||
3. PC 35 ARCSEC NORTH OF HD 37047 6584 Q5K 0.45* Q,21*
|
||
4, PC 35 ARCSEC SOUTH OF HD 37061
|
||
1, R I 1 MIN SOUTHEAST OF TRAPEZIUM
|
||
2, R 1 2 MIN SOUTH OF TRAPEZIUM REGION KEY (REG ION,REFERENCF,EXPLANAT ION )
|
||
3, R 1 ? MIN NORTHWEST OF TRAPEZIUM 1, LZ MIN 10 SEC WEST, 1.98 MIN NORTH OF ZETA ORI
|
||
I MIN EAST OF POINT 1 LZ 1 MIN 27 SFC WEST 1.98 MIN NORTH OF ZETA ORI
|
||
..R 1 4 min EAST-SOUTHEAST QF TRAPEZIUM LZ 1 MIN 8 SEC WFST, 4.60 MIN NORTH QF ZETA ORI
|
||
R 1 MIN EAST-SOUTHEAST OF TRAPEZIUM 52 SEC WEST, 4.30 SEC NORTH OF ZETA CRI
|
||
6 MIN SOUTHEAST OF TRAPEZIUM I MIN 18 SEC WEST, 2.40 MIN NORTH QF ZETA ORI
|
||
8. R I 5 MTN SOUTH-SOUTHEAST OF TRAPEZIUM
|
||
R I I MIN NORTHEAST OF TRAPEZIUM C = 1.25 FOR RG REF LZ (HYDROGEN LINES)
|
||
IK, RE MAX. ABSOLUTE H BETA OF 89 OBS. POINTS, SEE REF. C = 0.94 FOR RG REF LZ (HYDROGEN LINES)
|
||
Ao-.SQH BRIGHTFST PART QF BRIGHT RIM C = 1.15 FQR RG RFF LZ (HYDROGEN LINES)
|
||
1, SI 0.6 ARCSEC W OF TRAPEZIUM C = 1.13 FOR RG REF LZ (HYDROGEN LINES)
|
||
2, SI 1.0 ARCSEC SE CF TRAPEZIUM C = 0.41 FOR RG REF LZ (HYDROGEN LINES)
|
||
it SI 1.5 ARCSEC SE OF TRAPEZIUM
|
||
4, SI 7.2 ARCSEC NW CF TRAPEZIUM
|
||
5, SI 4.2 ARCSEC SE CF TRAPEZIUM
|
||
6, SI 5.3 ARCSEC S QF TRAPEZIUM
|
||
2B , W MAXIMUM OF 7 OBSERVATIONS, SEE REF.
|
||
BEGIN NGC 2068 0.0 (NO CALCULATION)
|
||
C = 0.5 5 E-Qß RG L, RFF MF67 (HYDROGFN I INE9>
|
||
C = 0.55 FOR REF ME67 (HYDROGEN LINES) WAVE IDENT N RG REF OBS I CORR I
|
||
C = 0.65 FOR RG REF ME67 (HYDROGEN LINES) 6563 H I 1 A GEK 1.00* 1.00*
|
||
C = Q.5Q FOP. RG REF ME67 (HYDROGEN LINES) .6584 _LN LL J—1—A GFK D.73* 0.23*-
|
||
C = 0.59 FOR REF ME67 (HYDROGEN LINES) 6717 (S I ) 1 GEK 1.30* 1.30*
|
||
C = 0.50 FOR REF ME67 (HYDROGEN LINES) 673 I ( S II ) GEK 1. 00* 1.00*
|
||
|
||
|
||
642
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 2068 (205.4 -14,3) NfiC 7?44 -2.01
|
||
REGION KEY <REGION,REFERENCE,EXPLANA!ION) WAVE IPE NT N RG REF OBS I AVE 0 CORR I AVE C
|
||
A , GEK , REGIONS A AND B ON DIFFERENT SCALES 6563 H T 1 GFR 631.QO 631.QQ ¿87. 75 287.75
|
||
|
||
|
||
NGÇ 2175 ( 190,Q Pt.iL- 0.60 tHYDROGEN LINES) BEGIN NGC 2261 U3) C = 1.32 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I CORR WAVE N RG REF OBS I AVE 0 CORR I AVE C
|
||
37?7 _LQ U ) 1 J53 *49.00 74.00 3970 _1 GZ59 _Li_iQ_ _7..?Q .15,11 15.11
|
||
1 CGLZ 100.00 100.00 100.00 100.00 4101 1 GZ59 15.00 27.11
|
||
1 A CLZ2 100.00 100.00 100.00 100.00 4173 FE I I 2 DIB 18.00 30.67
|
||
_1 ££JK 100.00 10Q.0Q. 100.00 1QQ.Q0 4179 FF I I DIB 18.QQ _3.Q, 52
|
||
J 53 100.00 100.00 4233 FE II 1 DIB 16.00 26. 00
|
||
<0 111)2 CGLZ 160.00 155.39 4296 FE I I 2 DIB 16.00 24. 79
|
||
J53 41. QQ- .41.QQ 39.82 4303 FE II -Z DIB 16« QQ 24.65
|
||
4991 CO III) 1 A CLZ2 140.00 140.00 134.68 134.68 l DIB 30.00 31. 50 44.94 47.19
|
||
5007 (0 III) 2 CGLZ 160.00 153.13 1 GZ5 5 33.00 31.50 49.44 47.19
|
||
1 GEK 190.00 173.50 181.85 166.05 4385 FE II -J Q1B . 5..QQ 5.00 -L.2.4 . 7.24
|
||
l J 53 157.00 173.50 150.26 166.05 4417 FE II 1 DIB 12. 00 12.00 16.97 16.97
|
||
1 A CLZ2 450.00 1245.00 284.82 787.99 4489 FE II 1 DIB 12.00 12.00 16. 14 16.14
|
||
_I ¿53 2Q4Q.QQ 1745.00 1?91 . I 7 787.99 —4508 FE II —2 DIB 7 1-00 77.85
|
||
6584 CN II ) 1 J53 590.00 590.00 371.70 371.70 4515 II DIB 21.00 27.69
|
||
6717 (S II ) 1 J 53 147.00 147.00 90.22 90.22 4520 FE II DIB 25.00 32.83
|
||
6723 (S 11)1 A CLZ2 160.00 160.00 98.08 98.08 4573 FF II _2 DIR -Z5.00
|
||
C S 11)1 4549 FF II 1 DIB 29.00 29. GO 37. 18 37.18
|
||
4556 FE II I DIB 29.00 29.00 36.97 36.97
|
||
REGION KEY CP EG ION.PEFERFKCE.EXPLANATICN ) 4576 FE II _J DIB 15.QQ 15.QQ 18.81 18.81
|
||
CLZ2, BRIGHT KNOT 4584 FF II 1 DIB 32.00 39.87
|
||
4620 FE I I 2 DIB 30.00 36.31
|
||
0.5) 4679 FF I I _2 D.IB 3n. nn 36.05
|
||
4731 1 DIB 8.00 8.00 8.86 8.86
|
||
4861 l DIB 100.00 1 00.00 100.00 100.00
|
||
1 0.7 59 i on.no i on.no 100.00 -1 00.00
|
||
BEGIN NGC 2237 -2.1 ) C = 2.17 (HYDROGEN LINES) 100.00 100.00 ICO.00 100.00
|
||
4923 FF II DIR 25.00 25. 00 24.00 24.00
|
||
WAVE DBS AVE O CORR I AVE C 5018 _FE—I-L. _D-LB -41.00 _41.-QQ 36.92
|
||
3727 II ) 1 J53 88.00 390.93 5169 FE I I DIB 40.00 40.00 32.25 32.75
|
||
l J 53 0. 06« 0.26* 5197 FE I I DIB 25.00 25. 00 19. 76 19.76
|
||
1_ _J53_ 86-00 3B7.04 .5234 FF IT DIB
|
||
J53 59.00 262. 10 5275 FE I I DIB 26.00 26.00 19.51 19.51
|
||
J 53 0.27* 1.20* 5317 FE T I DIB 30.00 30.00 21.90 21.90
|
||
1 on. oo 100.00 .6563 _ü I G759 700.00 R34.5Q .255.90 305.07
|
||
J 53 100.00 100.00 100.00 100.00
|
||
J 53 100.00 100.00 100.00 100.00
|
||
JDöO 10Q.QQ ion.on 1QQ.Q0 100.00
|
||
<0 III ) 1 3 J 53 34.00 74.67 30.59 67.18
|
||
1 5 J53 20. 00 74.67 17.99 67.18
|
||
—L 1060 170.00 74—6.7.- 152.95 67.18
|
||
CO III ) 1 J53 120.00 162.3 3 102.40 139.52 BEGIN NGC 7264 C202.9 1.86 CHYDROGEN LINES)
|
||
1 J53 63.00 162.33 53. 76 138.52
|
||
1 .1060 304.00 162.33 759.40 138.5? DBS I
|
||
5876 HF I 1 3 J53 44.00 15.05 II ) l J 53 154.00 553.53
|
||
6548 CN II ) 3 J060 1780.00 344.50 1 J 53 94. 00 337.87
|
||
6563 _tí I I 1 J5l3 1140.00 218.00 d« , nn 316.30
|
||
J 53 1.00* 0. 19* l J53 38.CO 316.30
|
||
J 5 3 2000.00 1516.67 382.46 290.03 l RY 1.00* 3.59*
|
||
J53 1.00* 0. 19* 1 RY 1.00* 3.59*
|
||
J 53 1410.00 1516.67 269.63 290.03 1 RY 1.00* 3. 59*
|
||
J 53 1.00* 0. 19* l SCH 1.00* 3.59*
|
||
JQ60 1780.QQ -140-39 3779 _LQ H ) 1 SCH -LxZZ* 4.37*
|
||
l 1 PA 1.00* 0. 19* 1 A 1 GEK 100.00 1 CO.00 100.00 100.00
|
||
l 2 PA 1.00* 0.19* l PI GEK 100.00 100.00 100.00 100.00
|
||
6584 _LN II ) 1 1 J53 ¿5-Q.QQ 47.01 _! L J 53 1 OP,00 100.00 100,QQ 100.00
|
||
J 53 0.20* 0.04* J 53 1 JO.00 100.00 100.00 100.00
|
||
J 53 520.00 97.78 J 53 100.00 100.00 100.00 100.00
|
||
J 53 Q. H*_ 0^06* J 53 100.00 ICO.00 100.00 100.00
|
||
J 53 520.00 97. 78 III) 1 A1 GEK 33.00 A 28.80 A
|
||
J 53 0.64* 0. 12* 1 Bl GEK 31. CO 50. 33 2 7.06 43.93
|
||
JQ60 1780.00 334.72 1 2_ J 53 71.QQ 5Û.33 61.97 -4-3—93
|
||
1 1 0. 10* 0.02* J 53 49. CO 50.33 42. 77 43.93
|
||
l 2 PA 0. 17* 0.03* (N II ) 1 J 53 00.00 112.67 19.58 27.57
|
||
-6717 __LS_ II i 1 1 J53 284.00 48. 58 39.69 1 3 .1 5 3 162.QQ 112.67 39.64 _2-Zj_5Z-
|
||
J 53 0. 13* 0.02* J 53 96. 00 2 3.49
|
||
J 53 186.00 31.82 RY 0. 19* 0.05*
|
||
J53 0. 12» 0.02» RY Q.23* 0.06*
|
||
J 53 226.00 38.66 3 3 RY 0.59* 0.14*
|
||
J 53 0. 32* 0.05* 0 A 2 GEK 1.00* 0. 24*
|
||
6723 IS II ) 1 J060 128.00 12 8« QQ 21.8Q 21.80 1 B 2 GFK 1.00» Q . 74*
|
||
II ) 1 1 J 53 149.00 57.33 25.24 26.65 J 53 910.00 1197.50 220.41 290.05
|
||
1 2 J 53 0.08* 0.01* J 53 1540.00 1197. 50 373.00 290.05
|
||
_1 3_ J53 lZ(u Q.Q. 15 7.33. . --2-1 «.34 26.65 153 101Q.00 1197.50 244.63 790.05
|
||
J 53 0. 13* 0.02* J53 1330.00 322.14
|
||
J 53 197.00 33.37 RY 0.19* 0.05*
|
||
JLÏ O». 23» Q.Q6*
|
||
REGION KEY CREG ION,REFERENCE,EXPLANATION) 0.59* 0.14*
|
||
1» J53 , RA 6H 33.4M II ) l A2 GEK 0. 33* 0.03*
|
||
2. J 53 . RA 6H 39.3M 1 B2 GEK 0.35* -Q.Q8»
|
||
3, J53 , RA 6H 25.4M J 53 227. CO 250.00 54.20 59.69
|
||
4, J53 , RA 6H 34.3M J 53 215.00 250.00 51.33 59.69
|
||
5, J53 t RA 6H ¿8.4M .153 344.00 250.QQ 87.13 ■59.69
|
||
6, J53 , RA 6H 36.5M 214.00 51.09
|
||
1, PA , RA 6H 29.3M, DEC 4DEG 57MIN 0.19* 0.05*
|
||
2-, PA , RA 6H 2<Z.3M, DEC 4DFG 57MIN 0.23* 0.05»
|
||
3 3 RY 0.59* 0.14*
|
||
NGC 2237 C206.6 -2.1) 11)1 1 J 53 218.00 144. 50 47.99 31.81
|
||
-1 2_ J 53 123.00 144.5Q 27.Q8 31.81
|
||
1 J 53 152.00 144.50 33.46 31.81
|
||
l 4 J 53 85. 00 144.60 18. 71 31.81
|
||
BFGIN NGC 7244 C = 1 «03 IHYDRHGFN LINES) 6731 _LS II ) 1 L J 53 - 16-3.,QQ 95.50 35.58
|
||
J 53 77.00 95.50 16.81 20.85
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C J 53 94. CO 95.50 20.52 20.85
|
||
4861 H I -I GEB- 1QQ.QQ 100.00 1QQ.QQ 1QQ.QQ
|
||
2.2)
|
||
NGC 2244 C 206.4
|
||
643
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
NGC 2264 12Q.2.9- 2.ZJ- BEGIN NG.C- 3603 (291.6 -Q.5) C = 1.5Q (ESTIMATE!.
|
||
WAVE I DENT N RG REF OBS I AVE 0 CORR T AVE C WAVE IDENT N RG REF OBS I CORR !
|
||
6731 (S 11)1 4 J53 48.QQ 95.1-Q 20.85... 6548 (N II ) 3 JQ60 100.00» 32.14*
|
||
6563 I 3 J060 100.00* 31.87*
|
||
REGICN KEY (REG ION,REFERFNCEtEXPLANATI ON) 6584 (N II 1 3 J060 100.00* 31.50*
|
||
Al. GEK . Al. A2 ON DIFFERENT SCALES 6723 ( S II 1 1 J060 29.00* 6.53*
|
||
GEK , RG. B= SH 167, B1,B2 ON DIFF. SCALES
|
||
1, J53 , RA 6H 36.9M (291.6
|
||
2. J53 . RA 6H 33.3M
|
||
3, J53 , PA 6H 31.5M
|
||
4, J53 , PA 6H 38.2M
|
||
1. RY . FAST SIDE BEGIN NGC 6193 (336.7 -1.61 C = 1.48 (HYDROGEN LINES)
|
||
2, RY , WF ST SIDE
|
||
3, RY , NOT INDICATED WAVE IDENT N RG REF OBS I CORR
|
||
A, SCH . BRIGHTEST PART OF BRIGHT Rlfl. SLIT A 4363 H I _2 ¿P-frO ßOtOO 77.
|
||
4363 (0 III) 2 J060 50.00 77.14
|
||
4861 H I l J060 100.00 100.00 100.00 100.00
|
||
4959 LQ III 1.1 J_Q6Q 2.UPJ3 ¿1.QQ 19.54 19.54
|
||
5007 (0 III) J060 79.00 70.90
|
||
6548 ( N II J06 0 1060.00 345.83
|
||
BEGIN NGC 2359 (227.7 -Q.«3 1... C = 0.0 (NO CALCULATION) 6563 H I J060 1060.00 343.01
|
||
6584 ) 3 J06 0 1060.00 339.11
|
||
WAVE IDENT N RG REF PBS I AVE 0 COPR I AVE C 6723 ( S II ) 1 J060 103.00 30.80
|
||
4B61 _ü I _J GEK- 10Q.QQ , 1 QQ..QÍL- 1QQ.QQ 100.00
|
||
D LE 100.00 100.00 100.00 100.00 -1.6)
|
||
F LE 100.00 100.00 100.00 100.00
|
||
_LD 1 L.LJ—L. —D ..LE.. »020.OQ 1385.00.,, 1 020.00 1 385.00
|
||
F LE 1750.00 1385.00 1750.00 1385.00
|
||
5007 (0 III) I GEK 770.00 770.00 770.00 770.00 BEGIN NGC 6334
|
||
6548 (N II ) 1 _â_ Q.« 08* 0.08»
|
||
1 GEK 1.00* 1.00* WAVE N RG REF OBS I AVE 0 CORR I AVE C
|
||
1 LE 1.00* 1.00* 4861 1 l LZ 100.00 100.00 100.00 100.00
|
||
_LN LL 1 1 GEK.. 0. 20*A Qm 2Qf A. _J 2__LZ IPO,00 . 100.00 IQ-Qf-Q-G- _IQOtQQ—
|
||
LE 0.22* 0.22* 100.00 100.00 100.00 100.00
|
||
6717 (S II ) l GEK l.50*A 1.50*A LZ 100.00 100.00 100.00 100.00
|
||
6723 (S TI » 1 Q.30* Q^-301 5 LZ 1QQ.QQ LO-Q.OQ 100.00 _ IQQjilQ—
|
||
6731 (S II ) 1 B GEK 1 1 LZ 28.00 36.20 10.79 11.10
|
||
l 2 LZ 29. 00 36.20 8.94 11.10
|
||
REGION KEY (RFGION.FEFERFNCF.EX PLANAT ION) _J 3 LZ. 42.00 36.70 12.03 1 1 . 1 0. .
|
||
GEK , REGIONS A AND B CN DIFFERENT SCALES 1 4 LZ 35.00 36.20 9.59 11.10
|
||
LE , AVERAGE OF ALL REGIONS, SEE REF. 1 5 LZ 47. 00 36.20 14.14 11.10
|
||
D. LF . AVF. OF 8 DIFFUSE REGICN.S. SEE REF. 6563 _1 1 LZ 126Q« Q.Q - 18.12. QQ 289.33 291.Q3
|
||
P, LE , AVE. PF 10 FILAMENTARY REGIONS, SEE REF. 1 2 LZ 1790.00 1812.00 291.66 291.03
|
||
1 3 LZ 2000.00 1812.00 290.67 291.03
|
||
END NGC 7 3 59 (227.7 -0.3J _1 4 LZ 2150.00... ■ 18L2.00 2.91 >75 291.03
|
||
1 5 LZ 1860.00 1812.00
|
||
REGICN KPY (PEGIDN.REFERENCE.EXPLANATION)
|
||
BEGIN NGC 3576 .8) C = 0.84 (HYDROGEN LINES) 1, LZ 12 SEC WEST, .38 MIN NORTH OF SAO 208700
|
||
2, LZ 17 SEC WEST, 4.73 MIN NORTH OF SAO 208700
|
||
WAVE TDFNT N RG RFF PBS I AVF D CORK I 31 LZ 11 SEC EAST. 2.66 MIN SOUTH OF SAQ 2QB7QQ
|
||
II ) 1 DZ 77.62 138. 17 LZ 41 SEC WEST, 17.75 MIN SCUTH OF SAO 208700
|
||
1 DZ 166.00 295.50 LZ 20 SEC WEST, 18.24 MIN SOUTH OF SAO 208700
|
||
85. II 151.51
|
||
A DZ 11.48 13.06 18.67 21.23 C = 1.93 FOP RG REF LZ (HYDROGEN L INES)
|
||
B DZ 16.22 13.06 26. 37 21.23 C = 2.38 FOR RG REF LZ (HYDROGEN LINES)
|
||
r n? _LL. n. n* 1 ft. 67 21.23 . FOR RG -ftEF...L7 (HYDROGEN I INFS)
|
||
( S I I ) l A DZ 1.90 2.40 2.82 3.55 C = 2.62 FOR REF LZ (HYDROGEN L INES)
|
||
1 B DZ 3.47 2.40 5. 13 3.55 C = 2.43 FOR REF LZ (HYDROGEN L INES)
|
||
1 C DZ 1.82 2.40 2.69 3.55
|
||
H I l A DZ 15.84 18. 1 1 23.08 26.39
|
||
1 B DZ 21. 88 18.11 31.89 26.39
|
||
L_ C DZ 16.60 18.11 24. 19 26.39
|
||
I A DZ 33.83 3 7.02 43.82 47.88
|
||
B DZ 41.69 37.02 53.92 47.88 BEGIN NGC 6357 C = 2.52 (HYDROGEN L INES)
|
||
-C D.Z.. 35.48 3 7.Q2 45.89 4L.aa-
|
||
(0 I II ) l B DZ 1.95 1.60 2.49 2.05 WAV F IDFNT N RG REF OBS I CORP I
|
||
1 C DZ 1.26 1.60 1.61 2.05 3728 (0 II ) 1 1 DZ 15.15 85.46
|
||
4471 HF I 1 A PZ 4.57 -Jt*. .5^-56 5.Q5 .I 2 DZ 12.59 71.02
|
||
B DZ 4. 57 .15 5.56 5.05 HF I 1 DZ 10.96 7.17 47.11 30.83
|
||
C DZ 3.31 4.15 4.03 5.05 1 2 DZ 3.39 7.17 14.56 30.83
|
||
HF II -C D2_ Qm 25 Q.25 0,27 0.27- ( S II) 1 1 DZ 5. 89 3. 54 19.10 ■-U-,JLO_
|
||
DZ 100.00 100.00 100.00 100.00 2 DZ 1.20 3. 54 3.90 11.50
|
||
B DZ 100.00 100.00 100.00 100.00 4101 H I 2 DZ 8.31 8.31 25.73 25.73
|
||
C DZ 100.00 100.00 100.00 100.00 4340 H I_ 1 DZ 20.42 21.93 44. 18 47.45
|
||
(0 I II ) 1 A DZ 380.20 293.18 357.55 275.72 1 2 DZ 23.44 21.93 50.71 47.45
|
||
1 B DZ 144.54 293.18 135.93 275.72 4363 (0 III) 1 1 DZ 10.23 10.23 21.41 21.41
|
||
!_ C DZ 354.80 293.18 333.67 2.7 5-f-X2_ 44.7-L- —HE JL—QZ_ 1G.96 10.96 19.77 19.77
|
||
A DZ 26. 30 19. 79 17.36 13.07 4686 HF II 1 2 DZ 0.78 0.78 1.01 1.01
|
||
B DZ 14.45 19.79 9.54 13.07 4686 HE I 1 1 DZ 36.31 36.31 47.32 47.32
|
||
C DZ 18.62 19.79 12.29 13.07 4861 H I _1 1 DZ 1QQ.QQ ICO. 00 1Q.Q.0Q . 100.00
|
||
) 1 A DZ 2.09 1.68 1.17 0.94 2 DZ 100.00 100.00 100.00 100.00
|
||
1 B DZ 0. 87 1.68 0.49 0.94 1 DZ 195.00 331.35 162.19 275.60
|
||
L_ -C.-D.Z- 2.09 1.68 1.17 0. 2 DZ 467. 7Q - 331.35 389.01 275.60
|
||
DZ 691.80 583.13 364.76 307.46 1 J060 6.00* 4.99*
|
||
P DZ 426.60 583.13 224.93 307.46 1 I DZ 34.67 44. 18 9.98 12.71
|
||
C DZ 631.oa. 583.13 332.70 3Q7..46 2-02 53.70 44.18 15.45 12.71
|
||
I 1 A DZ 9.55 .87 4.51 1 1 DZ 17.38 14.98 3.04 2.62
|
||
1 C DZ 8. 13 4. 15 4.51 1 2 DZ 12. 59 14.98 2.20 2.62
|
||
6724 II ) 1 A DZ 54.9,8. 61.6-5_ 27.7Q 31.Q7 6548 _LN II ) -3 JQ6Q 100.00* 14.85*
|
||
B DZ 72.44 61.65 36.50 31.07 1 DZ 1950.00 2 069.00 285.84 303.28
|
||
C DZ 57. 54 61.65 28.99 31.07 2 DZ 2138.00 2069.00 320.72 303.28
|
||
01 16.98 11.33 7.85 5.24 _3 J060 IQQ.QQ* 14.66*
|
||
l B DZ 2.8 11.33 1.33 5.24 6584 (N II ) J060 100.00* 14.36*
|
||
1 C DZ 14. 13 11.33 6.53 5.24 6678 HF I l 1 DZ 33. 11 36.92 4.40 4.90
|
||
(P II ) 1 23.44 14.81 10.17 6.43 J 2 DZ 40.74 -16.92 5. 41 4.9Q .
|
||
B DZ 5.49 14.81 2.39 .43 6724 (S II) 1 1 DZ 158.50 l 13.05 20.28 14.46
|
||
C DZ 15.49 14. 6.72 .43 1 2 DZ 67.61 113.05 8.65 14.46
|
||
7065 HE I J 1 DZ 42.66 54.36 4.2-1 5.36
|
||
REGICN KEY (REG I ON,REFERENCE,EXPLAN AT ION) 1 2 DZ 66.07 54.36 6.52 5.36
|
||
A, DZ , POSITION NOT INDICATED. WITHIN 5000 MHZ CONTOURS 1 1 DZ 64. 57 52. 19 5.28 4.27
|
||
B, DZ . POSITION NOT INDICATED. WITHIN 5000 MHZ CONTOURS _1 2 DZ 39.81 32.19 3.26 4.23-,
|
||
C, DZ , POSITION NOT INDICATED. WITHIN 5000 MHZ CONTOURS
|
||
NGC 6357 (353.2
|
||
END NGC 3576 (291.2 -Û.8.)
|
||
|
||
644
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGC 6357 (353.2 Q.9) . NGC 6523 ( 6.L -1 ti-L.
|
||
REGION KEY (REG ION»REFERENCE,EXPLANAT ION) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
ItL-t DZ
|
||
LLÍ 1. RADIO
|
||
rcttUl U—rn ¿ Tw ■ I
|
||
SOURCE G353.1+0-7 4340 H I I 5 PC
|
||
l l PRK
|
||
39.90
|
||
40.00
|
||
41.1 7
|
||
41.17
|
||
46, 08
|
||
47.05
|
||
48.09
|
||
48.09
|
||
2» DZ , RADIO SOURCE G353.2+0.9
|
||
l 2 PRK 36.00 41.17 42.34 48.09
|
||
ND NGC 6357 (353.2 0.9) _LG III) J C GD l.OQ Q.7-L- 1.17 0.83
|
||
1 N GD 1. 0.71 1. 17 0.83
|
||
1 0D6 5 0.54 0.71 0.63 0.83
|
||
1 1 PC 0» 31 Q.7_L_ 0» 36 Qt 83
|
||
BEGIN NGC 6514 -0.2) 1.05 (HYDROGEN L INES) 4387 HE I l C GD 1.00 1.00 1. 16 1.16
|
||
4471 HE I 1 C GD 3.50 9.20 3.96 10.39
|
||
IDENT N RG REF AVE O CORR I ...AVS C 1 N GD 4. 50 5.09 10.39
|
||
4340 l MA62 28.20 28.20 38.90 38.90 1 1 30.20 9.20 34. 27 10.39
|
||
l C TH 53.00 A 73. 10 l 3 4.17 9.20 4.62 10.39
|
||
4861 _J DLL 100.00 100.00 100.00 100.00 1 4 3.63 9.20 4.00 10.39
|
||
1 19 D074 100.00 100.00 100.00 100.00 1 DI L 100.00 100.00 100.00 100.00
|
||
1 GEB 100.00 100.00 100.00 100.00 1 47 DD74 100.00 100.00 100.00 100.00
|
||
_1 GE* 100.00 LQQ^Q.Q- 100.QQ 100.00 _1 C.N GD
|
||
GD iflQ.QQ 100.00 --LQQ.QQ 1QQ.Q0
|
||
MA62 100.00 100.00 100.00 100.00 100.00 100.00
|
||
1 C TH 100.00 A 100.00 A 1 GER 100.00 1 00.00 100.00 100.00
|
||
_LQ LUI J. C_LH 47.00 A 44.66 A 1 GZ56 100.00 100.00 100.00 100.00
|
||
(C III) 1 DIL 80.00 94. 10 74.09 87.15 l J 53 100.00 ico.co 100.00 100.00
|
||
1 19 D074 108.20 94.10 100.21 87.15 1 MA62 100.00 100.00 100.00 100.00
|
||
GEK 11Q.QQ A 101.87 A _J Q.n,65 IQQtQQ 1Q0.0Q 100.00 100.00
|
||
1 C TH 160.00 A 148.18 A 1 1 PC 100.00 ICO.00 100.00 100.00
|
||
5876 HE I l MA62 15. 10 8.99 1 2 PC 100.00 100.00 100.00 100.00
|
||
6548 _LU II 1 3 —D.I.L- 490.00 221.15- 1-3 ELL— mQ.QÛ 100.QQ . 1QQ.QQ LQú.QQ
|
||
I DIL 490.00 220.07 l 4 PC 100.00 ico.oo 100.00 100.00
|
||
1 28 DO74 1.00* 0.45* 1 5 PC 100.00 1C0.00 ICO.00 100.00
|
||
GEB 43 7..QQ 196.27 1 á 1QQ.QQ 10Q.QQ 1QQ..QQ 10Q.QQ
|
||
1 GEK 1.00* 0.45* 1 PRK 100.00 1 C0.00 100.00 100.00
|
||
1 MA62 512.00 229.95 2 PRK 100.00 100.00 100.00 100.00
|
||
.) 3 DTI 490.CO 21 8.2.9. £ GD 4.00 4^0Q_ 3.94 3.94
|
||
1 28 DO74 0.64* 0.29* C GD 50.00 61.14 48. 73 59.68
|
||
1 A GEK O. 36* 0.16* N GD 65. 00 61.14 63. 34 59.68
|
||
-6-11.7 _LS_ n ) 1 6 GE_K 1.3Q*A 0.55*A 312 39.00 61.14 .38.01 .59.6B
|
||
6731 ( S I I ) 1 R GEK 0.42* PC 53.70 61.14 52. 31 59.68
|
||
PC 63.00 61.14 61.42 59.68
|
||
REGION KEY (REG I ON.RFFERFNCE.EXPLANAT IONJ 89.nn 61.1 4-. ■87.1.1 . 59.68
|
||
19» 0074» MAX. OF 31 REGIONS. SEE REF. l 4 PC 79. 50 61.14 77.93 59.68
|
||
28, D074, MAX. OF 31 REGIONS. SEE REF. 1 5 PC 66.20 61.14 64.70 59.6 8
|
||
-..G.FK » REGIONS A AND R. ON DIFFERENT SCALES 1. 1-P.RK -IX.-CO 61.14-- 65. 8S -5.9.68
|
||
C, TH , RIM C, SAMPLE CF 14 OBS.» SEE REF, NO ATM. CORR. PRK 49. 00 61.14 47. 75 59.68
|
||
4991 (0 III) GZ5o 120.00 120.00 115.96 115.96
|
||
END NGC 6514 ( 6.9 -0.2) 5007 _LQ III) Dll 16 Q. QO 201.14 1 53.9? 194.01
|
||
1 47 0074 292.00 201.14 280.90 194.01
|
||
l C GD 140.00 201.14 134.68 194.01
|
||
i M on I 90-nn —2jQ1.1 4— 1 82.78 194.01
|
||
REGIN NGC 6523 -1.3) **C = 0.53 (HYDROGEN LINES) 1 J53 145.00 201.14 139.49 194.01
|
||
1 0D65 195.00 201.14 187.59 194.01
|
||
1-1 162.00 -2.01.1 4— 155.73 194.01
|
||
(0 II ) 1 DIL 600.00 863.92 1 199.00 201.14 191.58 194.01
|
||
C GD 130.00 187. 18 l 3 218.00 201.14 211. 10 194.01
|
||
N GD iflo.nn 259. 1 8 . 41.7. GO 201.14- 404.69 194.01
|
||
GZ 5643.00 61.91 PC 182.00 201.14 175.85 194.01
|
||
21 MB 1.00* 1.44* PC 141.00 201.14 137.14 194.01
|
||
245.QQ
|
||
QD 6 5 352.7.Z PRK ?nn.nn ? 01 . I 4-- 192.40 194.01
|
||
PC 129.00 187.02 2 PRK 175.00 201.14 168.35 194.01
|
||
PC 148.00 211.64 5577 (0 GZ 56 60.00 60.00 49.42 49.42
|
||
PC 89.00 120.46 5755 (N C GD 4.00 1.91 3. 16 1.51
|
||
PC 126.00 167.05 N GD 1.00 1.91 0.79 1.51
|
||
PC 105.00 145.07 0. 72 1.91 0. 57 1.51
|
||
PC 112.QQ 145.4.6 5876 HE I 28.00 1.8. 45_ 21.55 14.41
|
||
A WO 1.00 1.44 N GD 25.00 18.45 19.24 14.41
|
||
(o u ) i 21 MB 0. 78* 1.12* J53 26. CO 18.45 20.01 14.41
|
||
L - A HQ 0.56 . 8-L 1 MA6 2 1 5, 90 18.45 12.24 14.41
|
||
3750 C GD 1.00 1.00 1.43 l .43 I 1 PC 14.40 18.45 11.03 14.41
|
||
3771 C GD 2.00 2. 00 2.84 2.84 1 2 PC 16.60 18.45 12.84 14.41
|
||
3797 C GD 3.00 4.00 4.22 5.6? 1 3 ££_ 16.6Q 18.45 13.36 .14^.1...
|
||
N GD 5. 00 4.00 7.03 5.62 13.80 18.45 11.27 14.41
|
||
3820 C GD 1.00 1.00 1.39 1 .39 17.80 13.45 14.11 14.41
|
||
3835 C. GD 7.QÛ 6.00 . 7.0 8.32 12.8Q 18.45_ 10.61 .14.41.
|
||
N GD 5. 00 6.00 6.93 8.32 1 PRK 16.00 18.45 12. 31 14.41
|
||
(NE III) 1 C GO 4.00 6.00 5.48 8.22 6300 (0 I ) GZ 56 20.00 20. 00 14.02 14.02
|
||
L —N-.O.D 8.00 6. QO IQ.96. 8.22 .6548 - _LN II ) DU 680.00 455.31
|
||
3889 GD 1 5. 00 20.38 GD 46. 00 78.00 30. 80 52.23
|
||
N GD 15.00 20.38 GD 43.00 78. 00 28.79 52.23
|
||
3889 C GD 15.00 -20,23- J 53 145.QQ 78.00 97.Q9 52.23.
|
||
N GD 15.00 20. 38 3 1 PRK 690.00 462.01
|
||
(NE III) 2 C GD 26.00 34.48 3 2 PRK 738.00 494.15
|
||
2_ N GD 20.00 26.52 6563 1 23 CLM l.QQ* ■ ■Q,67.*..
|
||
C GD 26. 00 34.45 3 DIL 680.00 453.98
|
||
GD 20.00 26.50 1 2 DO 1.00* 0.67*
|
||
12»
|
||
GZ 56_ QQ 12».QQ 15.90 15,9Q 1 25 DO 74 l.QQ* Q..6.7 *
|
||
4026 HE I 1 C GD 2.00 2.00 2. 60 2.60 1 C GD 370.CO 451.91 247.0? 309.86
|
||
4072 (S II ) 1 C GD 3.00 2.00 3. 84 2.56 l N GD 390.00 451.91 260.37 309.86
|
||
L_ N GD l.QQ -¿.QQ 1.28 2.56 _1 GEB 331.00 -A51.9L- 220.98 3Q9« 86
|
||
C GD 24.00 20.72 30.44 25.92 GZ56 600.00 A 400.57 A
|
||
N GD 23.00 20.72 29.17 25.92 J 53 910.00 451.91 607.53 309.86
|
||
22.00
|
||
GZ 56_ 2Q.72 ■¿7.9Q- 25.92 1 1 PC
|
||
MA6? 445.on -4.51.9 L. 797.09
|
||
457. 00 451.91 302.78 30.4.86
|
||
309.86
|
||
20. 60 20.72 26.24 25.92
|
||
19.90 20.72 25.13 25.92 1 2 PC 457.00 451.91 307.44 309.86
|
||
i PL- 21.80 20.72 26.55 25.92 1 3 EL- 416.00 451.91 297.45 309.86...
|
||
PC 21.40 20.72 25.72 25.92 407.00 451.91 297.75 309.86
|
||
5 PC 20.80 20.72 25.68 25.92 l 5 399.00 451.91 278.85 309.86
|
||
1 PRK 13» QQ 20.72 16» 4.9 ¿5,92 L__6— 389.QO -45L.9L- 291.17 309.
|
||
C GD 45.00 41.17 52.93 48.09 3 1 PRK 690.00 460.66
|
||
N GD 35. 00 41.17 41.17 48.09 3 2 PRK 738.00 492.70
|
||
GZ56- 48.00 41.17 56.46 48.09 -6584 1 23 CLH 0.48* 0. 3?»
|
||
MA62 32.30 41.17 37.99 48.09 3 DIL 680.00 452.12
|
||
0D65 50. 00 41.17 58.81 48.09 i 2 on 0. 54* 0. 36*
|
||
1 EG 40.70 41.17 48.02 48 »Q9 1 ¿5 DQ74 0.52* Q.35*
|
||
2 PC 42. 70 41.1 7 50.07 48.09 109.00 120. 34 72.47 81.62
|
||
3 PC 41. 70 41.1 7 47. 72 48.09 102.00 120.34 67.82 81.62
|
||
4 PC 4?. 70 41.17 48.41 -48.Q9
|
||
|
||
645
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NSC 6.1 -1.3) NGC. 6.619 ( 13.1
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
6584 (N II ) 1 J53 380.00 120.34 252.66 81.62 3727 (O II ) 1 4 PC 123.00 25^83_
|
||
1 1 PC 107.00 120.34 70.60 81.62 1 1 PC 13.20 13.53 27.76 25.92
|
||
l 2 PC 132.00 120.34 88.44 81.62 1 2 PC 11.20 13.53 23.98 25.92
|
||
1 3 P£_ 58.70 .1.20.3') 41.83 81.62 1 4 PC 16.20 13.53 26, Q4_
|
||
1 4 PC 83. 10 120.34 60.60 81.62 i GE 44.00 32.28 72.26 52.54
|
||
1 5 PC 58.90 120.34 41.01 81.62 1 006531.60 32.28 51.90 52.54
|
||
1 6 E£_ 52.40 120.34 39.11 81.62 -A E£ 3Q.2Q-- 50.21 57.54
|
||
PRK 690.00 458.77 1 2 PC 27.50 32.28 46.28 52.54
|
||
3 2 PRK 738.00 490.69 1 3 PC 25.70 32.28 46.55 52.54
|
||
6678 1 1 E£_ .90 3.18 2.90 1 4 PC 34.70 32.28 48.01 52.54
|
||
PC 3.80 4.22 2.67 2.90 1 0D65 0.45 0.66 0. 72 1.07
|
||
PC 3.96 4.22 2.85 2.90 1 1 PC 0.87 0.66 1.42 1.07
|
||
(S Till C GD 12.00 41.33 7. 80 26.85 4472 1 1 P£_ 2.14 2.14 3t 15— 3 » 15
|
||
1 N GD 12.00 41.33 7.80 26.85 DIL100.00 100.00 100.00 100.00
|
||
1 J53 100.00 41.3^ 64.97 26.85 GE 100.00 100.00 100.00 100.00
|
||
) 1 1 PC 22. 30 26. 73 14.35 18.48 GEB100.00 100.00 100.00 1QQ.0Q
|
||
1 3 19.90 26.73 13.90 18.48 100.00 100.00 100.00 100.00
|
||
GZ56
|
||
l 4 38.00 26.73 27.20 18.48 100.00 100.00 100.00 100.00
|
||
0D65
|
||
6731 _Ü I I L_1 Ç-GD 26.00 39.00 16. 85 25.28 1 1 100.00 LÛCL 00 10Q.QÛ-. 100.00
|
||
i N GD 35.00 39.00 22.68 25.28 1 2 PC 100.00 100.00 100.00 100.00
|
||
J 53 56. 00 39.00 36.30 25.28 1 3 PC 100.00 100.00 100.00 100.00
|
||
II ) 1-1 EI_ 7.75 7.75 4.53 4.53 1 4 E£_ 100.QQ 10Q.QQ 10Q. QQ-, 100.00
|
||
9069 (S 111)11 PC 42.70 42.70 20.20 20.20 100.00 100.00 100.00 100.00
|
||
9532 (S 111)11 PC 123.00 123.00 55. 85 55.85 GE 100.00 118.67 92.41 108.92
|
||
10049 _J 1_1 PjL_ 17.00 17.00 7.43 7.43 PC 115.00 118.67 1Q6.Q7., 1QB.92
|
||
1 3 PC 141.00 118.67 128.29 108.92
|
||
(O III) I 210.00 207.50 189.13 186.88
|
||
GZ 56
|
||
PEGICN KEY (REGION.REFERENCE.EXPLANATION) J 205.00 207.50 184.63 186.88
|
||
23. C L M DIRECTION 2,RING 3D, MAX OF 5 VALUES, SEE REF. (0 III ) DIL370.00 355. 86 328.68 315.63
|
||
2, DO MAXIMUM OF 10 VALUES OBSERVED, SEE REF. GE 280.00 355.86 248.73 315.63
|
||
25. 00741 MAX. OF 96 REGIONS. SEE REF. 275.QQ 355.66 Z4¿..2SL. . 115...63
|
||
QD65-.
|
||
47, D074, max. OF 96 REGIONS. SEE REF. PC 380.00 355.86 336.57 315.63
|
||
C, GD , CENTRAL CONDENSATIONS PC 398.00 355.86 351.49 315.63
|
||
N, GD . NEBULA SURRUUNCING CENTRAL CONDENSATIONS PC 355.R6
|
||
21, MB , MINIMUM OF 37 MEASURES, SEE REFERENCE 275.00 355.86 254.49 315.63
|
||
1, PC , 175 ARCSEC WEST, 90 ARCSEC SOUTH OF 9 SAG (0 I ) GE 82.00 101.00 45. 32 55.83
|
||
2. PC . 175 ARCSEC WFST. 30 ARCSFC SOUTH OF 9 SAG G756
|
||
120.00 101.00 66-33 SS-RI
|
||
3, PC 60 ARCSEC SOUTH OF 9 SAG 5755 (N II) PC 0.25 0.25 0. 12 0.12
|
||
4, PC 55 ARCSEC WEST, 50 ARCSEC NORTH CF 9 SAG 5876 HE I GE 8.00 26.16 3. 59 11.67
|
||
270 ARCSEC FAST, 40 ARCSFC SOUTH OF ) -SAT, 2 7.00- - 26.16 1l.flfl- 11.67
|
||
6, PC , 30 ARCSEC SOUTH OF HD 165052 l 2 28.20 26.16 12. 17 11.67
|
||
l, PRK , CENTRAL PART OF NEBULA 1 3 44. 70 26. 16 17.13 11.67
|
||
7 , PRK FOGF OF NFRIII A 22.90 2 á.Lá -13.56- 11 .AI-
|
||
MINIMUM OF 12 VALUES 6300 70.00
|
||
GZ 56 23.64
|
||
6548 IN II ) 3 DIL
|
||
1260.00 369.75
|
||
C = Q.5-4 E_Q£ RG 1 (HYDROGEN l INFS> _jG£ 930.00 272.91—
|
||
C = 3.52 FOP RG 2 REF PC (HYDROGEN LINES) DIL
|
||
1260.00 366.46
|
||
C = 0.44 FOP RG 3 REF PC (HYDROGEN LINES) GE 930.00 270.48
|
||
FOP RG 4 RFF PC ( HYDROGEN-J .IMF-S) GFB741.00 215. 51—
|
||
0.47 FOR REF PC (HYDROGEN LINES) 1 850.00 710.17 247.21 218.54
|
||
GZ56
|
||
0.38 FOR REF PC (HYDROGEN L INES) l l PC 871.00 710.17 245.71 218.54
|
||
1 2 EC 997-00 710.17 272.81_ 218.54
|
||
PC 126.00 710.17 28.71 218.54
|
||
PC 676.00 710.17 301.30 218.54
|
||
_LN 11)3 1260.00
|
||
Dll 362.11—
|
||
930.00 267.27
|
||
REOIN NGC 6559 .2) C = 0.0 (NC CALCULATION) PC 75.90 98.17 21. 15 32.86
|
||
PC 46. 80 98.17 12.65 32.86
|
||
WAVE I OF NT N RG REF OBS I AVE O CORR I AVE C PC 100.00 98.17 22.46 32.86
|
||
6563 HT 1 A GE K 1.00* 1.00* PC 170.00 98.17 75. 18 32.86
|
||
6584 (N II ) 1 A GE K 0. 50* 0. 50« GE 55.00 15.02
|
||
6717 (S ) l GE K 1.20* 1.20* 1 1 PC 11.50 9.21 3.04 3.00
|
||
6731 (S ) 1 GE K 1. 00* 1.00* 1 4 PC 6.92 9.21 2.96 3.00
|
||
3 GE 55. 00 14. 73
|
||
REGION KEY (REG I ON,REFERENCE,EXPLANAT I UN) l 1 PC 26.30 51.10 6.79 19.37
|
||
A , GFK , REGIONS A AND R CN DIFFERENT SCALES 1 4 PC 75.90 51.10 31.96 19.37
|
||
6730 LI L J3 &£_ 55. QQ. 14.62-
|
||
7325 (0 II) l 1 PC 6.92 6.92 1.33 1.33
|
||
9069 (S III ) 1 1 PC 263.00 263.00 26.34 26.34
|
||
9532 _LS III) _LJ EC— 105.00 423.QQ 9.21— 83.30
|
||
PC 741.00 423.00 157.33 83.30
|
||
RFGIN NGC 6611 C = 1.27 (HYDROGEN LINES) 10049 PC 83.20 83.20 6. 53 6.53
|
||
10830 363.00 363.00 24. 19 24.19
|
||
WAVE IDF MT N RG REF OBS I CORP I AVE C
|
||
3726 (O ti ) i pn 1.40* 3.35* REGION KEY (REGION,REFERENCF,EXPLANATION)
|
||
3729 _LC I 1 l.i EC 1.4Q* 3.35* 1, PC , 135 ARCSEC EAST, 15 ARCSEC NORTH OF BD-16 4818
|
||
4340 44.00 A 64. 92 A PC 100 ARCSEC EAST, 60 ARCSEC NORTH OF BD-16 4818
|
||
4861 DIL 100.00 100.00 100.00 100.00 PC 45 ARCSFC NORTH OF RD-16 4818
|
||
GEB -LQQ-. QQ 1 QQ. QQ 100-00 100.00 PC 305 ARCSEC EAST, 25 ARCSEC NORTH OF BD-16 4818
|
||
1 100.00 100.00
|
||
4959 III) 1 40.00 A 37.60 A C = 1.66 FOR PG 1 REF PC (HYDROGEN LINES)
|
||
5007 III) 1 130.00 130.00 118.47 118.47 C = L.7P REF PC (HYDROGEN LINES)
|
||
TH 140.00 127.59 1.94 FQR
|
||
FOP 8Ç
|
||
RG 2 REF PC (HYDROGEN LINES)
|
||
654R (N DIL 830.00 317.43 1.06 FOR RG REF PC (HYDROGEN LINES)
|
||
6563 Ü— DIL ■83Q.QQ 315.21
|
||
GER 759.00 288.25 288.25
|
||
( N 11)3 DIL 830.00 312.13
|
||
RFGICN KFY (REG I ON,R EFE RENCE,EXPLANATI ON)
|
||
A, TH , RIM A, SAMPLE CF 5 OBS., SEE RFF. NO ATM. CORR. BEGIN NGC 6820 0.0 (NO CALCULATION)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3726 (0 11)1 A SCH 1.00* 1.00*
|
||
3729 LC II ) 1 A-.SCH 1.1Q* I« IQ*
|
||
BEGIN NGC 6618 -0.8) **C = 1.62 (HYDROGEN LINES) REGION KEY (REG I ON,REFERENCE,EX PLANATION)
|
||
At SCH t BRI£HI PATCH IN ELEPHANT..J&tim, SLIT A
|
||
WAVE IDFNT N RG REF OBS I CORR I
|
||
3727 (O II ) 1 ÜD65 49.00 149.17
|
||
1 1 PC 39.90 124.85
|
||
1 2 36.30 116.75
|
||
l 3 30.20 114.55
|
||
|
||
|
||
646
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN NGC 6888 ( 7S«6 . 2.77 IHYDRnGFN t INFS1 NGC 6888 ( 75.6 2.4)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
-^12-6 _LQ U ). L I 37Q.Q0 2486.88 6583 (N II ) I B2 PR - Of 43* gLtQ.5*
|
||
2 J53 165.00 1109.02 I B3 PR 0. 52* 0.06*
|
||
A 1 PR I. 00* 6.72* I B4 PR 0.40* 0.05*
|
||
A? PPL. I. Q.O * 6.72* I B5 PR 0.59» 0.07*
|
||
A6 PR 00* 6.72* I B6 PR 0.54* 0.06*
|
||
A7 PR 00* 6.72* 3 1 RY 2.90* 0.34*
|
||
P? PB- 00» 6.72» 3 2 RY 2.30* -Pt27*
|
||
1 RY 00* 6.72* 3 RY 2. 10* 0. 25*
|
||
2 RY 00* 6.72* 5 RY 1.40* 0. 17*
|
||
3 RY 00» 6.72* (S II ) l 1 J53 955.00 100.26 60.89
|
||
1 5 RY .00* 6.72* 2 J53 205.00 580.00 21.52 60.89
|
||
(0 II ) 1 A1 PR • 32*A 8.82*A 6731 (S II ) 1 J 53 770.00 455.00 79.84 47.18
|
||
L_ AS .PB— ■ 20* 8.02*
|
||
8.36* 2 JS3 140.QQ _45.S« QQ 14.52 47.18
|
||
A6 PR 25*
|
||
A7 PR 04* 6.95* REGION KEY (REG ION,REFERENCE,EXPLANATI ON)
|
||
B2 PR Q7*_ 7.15* 11 J53 t RA 2OH OH
|
||
1 J53 100. 00 100.00 100.00 100.00 J53 , RA 2 OH 4M
|
||
2 J53 100. 00 100.00 100.00 100.00 PR » SLIT 1,7 REGIONS.RED,GREEN,BLUE CN DIFFERENT SCALES
|
||
41-P.B- 100« £0* 100.00» PR , SLIT 2,6 REGIONS.RED,GREEN.BLUE OF DIFFERENT SCALES
|
||
A2 PR 100, 00* 100.00* 1, RY , NORTH
|
||
A3 PR 100. 00*A 100.00*A 2, RY , WEST FDGE
|
||
A4 PR IQQi OQ*A . 100.00»A 3« RY «-CENTER
|
||
A5 PR 100. 00*A 100.00*A
|
||
A6 PR 100. 00*A 100.00*A
|
||
A7 PR ion. mi 100.00* ( 75,6 2.4)
|
||
B2 PR 100. 00* 100.00*
|
||
B3 PR 100. 00* 100.00*
|
||
B4 PR IQ.Qj 00* 100.00*
|
||
B5 PR 100. 00* 100.00* BEGIN NGC 7000 -1.0) 0.95 (HYDROGEN LINES)
|
||
B6 PR 100. 00* 100.00*
|
||
III) 1 2 J53 74. 64.66 WAVE IDENT
|
||
A1 PR 50. 00* 43.69* II ) 1 l DR S 1.00* 1.92*
|
||
A3 PR 38. 00* 33.20* 1 3 DR S 1.00* 1.92*
|
||
A 5 -P-R— 21. 00* 18. 3S.*_ L_ 4 DRS 1.00* 1.92*
|
||
A6 PR 26. 00* 22.72* 1 P I 54 157.00 301.77
|
||
A 7 PR 31. 00* 27.09* 2 P I 54 207.00 397.88
|
||
B2 PR Ill 00» 96.99* 3 PI 54 —L76.QQ
|
||
B3 PR 92. 00* 80.39* 1 4 P I 54 193.00 370.97
|
||
B4 PR 100. 00* 87.38* 1 1 SO 1.00* 1.92*
|
||
B 5 PR 1Q3. QQ*_ 90.00* II 1 1 1 DRS 1-47* 2^72*.
|
||
B6 PR ,00* 80.39* DRS 1.42* 2.72*
|
||
1 J53 340, ,00 227.00 277.67 185.39 DRS 1.37* 2. 63*
|
||
7 J 53 114, jm 227.00 93.10 185.39
|
||
A1 PR 157. 00* 128.22* 1 P I 54 23.00 19.67 35.21 30.11
|
||
A2 PR 139. 00* 113.52* 2 PI 54 14.00 19.67 21.43 30.11
|
||
A3 PR 128. QQ* I 04.54* 4 P I 54 22. QQ 19.67 33.68 ■30.11
|
||
A4 PR 83. 00* 67.78* GZ56 35.00 46.20 46.82 61.80
|
||
A5 PR 71. 00* 57.98* 1 PI 54 49.00 46.20 65.55 61.80
|
||
A6 PR 87-, 00* ■ 71.05* 2 PI 54 -56.QQ 46.20 -74.91 61.80
|
||
A 7 PR 93. 00* 75.95* 1 3 PI 54 39. 00 46.20 52.17 61.80
|
||
R2 PR 286. 00* 233.57* l 4 P I 54 52.00 46.20 69.56 61.80
|
||
B3 PR 763. nn* 214.79» _J 1 G_E_B 10Q.QQ 1QQ.00 100-00 100-00
|
||
B4 PR 286. 00* 233.57* GZ56 100.00 100.00 100.00 100.00
|
||
B5 PR 294. 00* 240.10* 1 J53 100.00 100.00 100.00 100.00
|
||
B6 PR 27Ü. on* 770-sn* 2 J53 1QQ.GO 1QQ.Q0 iQQ.on ion-on
|
||
l 1 RY 40* 0. 33* 1 P I 54 100.00 100.00 100.00 100.00
|
||
1 2 RY 10* 0.90* 2 P I 54 100.00 I CO. 00 100.00 100.00
|
||
(N II ) 1 A1 PR 57* 0.07* 3 PI 54 100.00 100.00 100.00 100.00
|
||
l A2 PR 53* 0.07* 4 P 154 100.00 100.00 100.00 100.00
|
||
1 A3 PR 43* 0.05* (D III) 1 J 53 38.00 32.33 36.28 30.87
|
||
L_ A4 PR 49* Q.Q6*„ 2 J 53 2Q,Q0 32.33 -19.10 3Q.87
|
||
A5 PR .65* 0.08* 1 P I 54 31.00 32.33 29.60 30.87
|
||
A6 PR .60* 0.07* 2 PI 54 35. 00 32.33 33.42 30.87
|
||
A7 PR . 59* Q.Q7*. 3 P I 54 -J?-Q, QQ 32.33 -23.64 30.87
|
||
B2 PR 15* 0.02* 4 PI 54 40.00 32.33 38.19 30.87
|
||
B3 PR 18*A 0.02*A 4991 (n i ii ) i GZ56 250.00 250.00 235.12 235.12
|
||
B4 PR 13*A 0.Q2*A 5007 _L£ TIT) 1 1 J53 65.00 89.00 6Q.64 83.03
|
||
B5 PR 18* 0.02* J 53 52.00 89.00 48.51 83.03
|
||
R6 PR 24* 0.03* 1 P I 54 108.00 89.00 100.75 83.03
|
||
RY 9Q* Q.36* 2 P I 54 104.00 . 89.QQ 97.02
|
||
2 RY 30* 0.28* 1 3 PI 54 100.00 89.00 93.29 83.03
|
||
3 RY 10* 0.26* 1 4 P I 54 10 5.00 89.00 97.96 83.03
|
||
5 RY . Qj 1.7.*— _JLQ L ) 1 GZ56 160.00 16Q.QQ 113.01 113.Q1
|
||
6563 1 J 53 4550, 2915.00 550.71 352.82 6300 (01)1 GZ56 50.00 50.00 26.46
|
||
2 J53 1280 00 2915.00 154.92 352.82 6563 HI 1 22 CLM 1.00* 0.48*
|
||
A1 PR L Ji£* 0.12* -1 &££ 6.46. QQ 85Q.5Q 313.12 412.24
|
||
A2 PR 00* 0. 12* GZ 56 450.00 850. 50 218.12 412.24
|
||
A3 PR 00* 0. 12* 1 J53 2220.00 850.50 1076.04 412.24
|
||
A4 PR
|
||
A5 PR
|
||
00*
|
||
00*
|
||
0.12*
|
||
0.12* 2 J53 2280.00 -35.0,5 Q ■1105.12 412.24
|
||
1 PI 54 302.00 850.50 146.38 412.24
|
||
A6 PR 00* 0. 12* 2 PI 54 310.00 850.50 150.26 412.24
|
||
A7 PP sm* 0. 12* 3 PI54 280.00 850.50 135.72 412.24
|
||
B1 PR 00* 0.12* 4 P I 54 316.00 153.17
|
||
B2 PR 00* 0. 12* II ) 1 22 CLM 0.39* 0. 19*
|
||
B3 PR . QQ* Q.12» L 1 J53 400.00 J7Q.QQ 192.46 178.Q3
|
||
B4 PR 00* 0.12* 2 J53 340.00 163.59
|
||
B 5 PR 00* 0.12* 1 PI54 16.00 7.47
|
||
B6 PR M* 0.12* 2 P I 54 35.00 -16.35
|
||
1 RY 90* 0. 35* 2 3 P I 54 35.00 16.35
|
||
2 RY 30* 0.28* 2 4 PI 54 32.00 14.95
|
||
3 RY IQ*. . 0. ?5* II ) 1 1 J53 155.00 -1.3-3,. 5 Q 71.55 61.63
|
||
3 5 RY 1. 40* 0.17* 2 J53 112.00 133.50 51.70
|
||
) l 1 J53 1730. 00 1020.00 205.16 120.96 II ) 2 l P I 54 16.00 7.37
|
||
L_ 2 J 53 31 Qj £0 1Q2Q.QQ 36.76 12Q.96 2. -.2 P I 54 —3 5« 16. 1 3
|
||
A1 PR 44* 0. 17* 2 3 P I 54 35.00 16.13
|
||
A2 PR 52* 0. 18* 2 4 P I 54 32. 00 14. 74
|
||
A3 PR 45.*— 0.17» 6731 _LS_ II ) 1 2 J53 105.QQ 48.26
|
||
A4 PR 50* 0. 18*
|
||
A5 PR 48* 0. 18* REGION KEY (REG I ON,REFERE NCE,EXPLANATI ON)
|
||
A6 P.B_ 38* 0. 16* 22, CLM . DIRECTION 2.RING 2G. MAX OF 3 VALUES. -SEE REF.
|
||
A7 PR .36* 0. 16* DRS , NORTHERN EDGE
|
||
B1 PR .42* 0.05* DRS , WEST EDGE
|
||
NGC ( 75.6 2.4) NGC 7000 -1.0)
|
||
647
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
NGJL. 76JL5 U12^2 0.2)
|
||
4, ORS , CENTER WAVE IDENT N RG REF OBS I CORR I
|
||
Lt J53 t RA 2QH 48. 6563 H I _2 IV l 377.40
|
||
2, J 53 , RA 2 OH 56.9M 6563 (N II VV 1 377.40 163.16
|
||
1» P 154 » NORTHERN REGION 6584 H I GEK 0.19* 0.08*
|
||
-2* PI^4t NORTH CENTRAI., REGION .6584 _LN UL_ -A_.DQR 130.00 55.73
|
||
3, PI 54 » SOUTH CENTRAL REGION 3 B DOR 853.00 365.65
|
||
4, PI54, SOUTHERN REGION 6717 <S II ) 1 1 GEK 1.00*A 0.41*A
|
||
1» SO . 1.7 ARCHIN N» 2.5 ARCHIN W OF HB 199799 6723 _LS II ) 1 -A. DQR 60.00 55.50 2-4. 46 22.61,
|
||
1 DOR 51.00 20.79
|
||
6731 ) 1 GEK 1.00* 0.41*
|
||
REGION KEY (PEG ION.REFER ENCE,EXPLANATION)
|
||
N. CLZ2, NORTHERN EDGE OF RING
|
||
BEGIN NGC 7380 (107.1 -0.9) C = 0.0 (NO CALCULATION) —BQR- j AVE.QF 9 PQINTS^CBS I CQRR.FQR A(V)=»2. IGNORE CORR I
|
||
DOR . INCLUDES SURROUNDING H II REGION
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
6563 H I _L GEK . UQQ* l.QQ*
|
||
6584 (N II ) 1 GEK 0.51*
|
||
-.END NÍ1C. .7380 11QX.1 -ÍL..9J
|
||
BEGIN NGC 7822 1.60 (HYDROGEN LINES)
|
||
REGIN NGC 7538 0.8) 1.65 (HYDROGEN L INES) WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I 1 GEB 100.00 100.00 100.00 100.00
|
||
_A.Vf.-Q CQRR I 6563 _H I _1 GEB 977.00 977.00 ft - 51 7flfl_51
|
||
3727 I I ) l l J53 0. 19*
|
||
4861 I 1 CGLZ 100. 100.00 100.00 100.00 (118.6
|
||
1 BS CLZ2 10Q, .ÛQ 100.00 1.QQ.» 00 1 QQ.QQ
|
||
1 GEK 100. 100.00 100.00
|
||
4959 111)2 CGLZ 350. 322.97 .
|
||
-4991 III) 1 BS CLZ2 450. 404. 50 4 04.50 BEGIN IC 405 (172.1 -2.3) C-= 2.55 (HYDROGEN LINES)
|
||
5007 (O I II ) 2 CGLZ 350. 310.23
|
||
l GEK 3. 2.93 A WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
6563 _hl I L BS..CLZ2 . 1QQQ, 284. 26 284.26 3727 _LQ II ) 1 L-J.53 77.00 444.13
|
||
1 A GEK 00* 0.28* 1 2 J 53 104.00 599.87
|
||
l 1 J 53 00* 0.28* 1 3 J53 120.00 692. 15
|
||
_J 2 J 5 3 QQ* 0.28» _JL 4 J53 .152.00 876.73
|
||
) 1 A GEK . 18*4 0.05*A GEK 100.00 100.00 100.00 100.00
|
||
1 1 J 53 .22* 0.06* 1 1 J 53 100.00 100.00 100.00 100.00
|
||
1 2 J53 .24* 0.071 —1 2. J53 1 QQ. QQ 1 QQ.QQ I QQ.QQ 100.00
|
||
(S II ) l GEK 20*A 0.31*A 3 J53 100.00 1 CO.00 100.00 100.00
|
||
J 53 13* 0.03* 1 4 J53 100.00 100.00 100.00 100.00
|
||
2. J 53 5QQ7 _LQ III) 1 GEK 30.80 109.90
|
||
6723 ( S II ) l BS CLZ2 19.53 1 3 J53 189.00 109.90 156.86 91.21
|
||
6731 ( S II ) l B GEK 0.26* 6548 (N ) 1 3 J53 250.00 250.00 36.29 36.29
|
||
I 1 -J 5 3 —Q.-Q3*. 6563 H_ 1 L2. CLP 1.00*
|
||
l A GEK 1.00* 0.14*
|
||
REGION KEY (REG I ON.REFERENCE,EX PL ANAT ION) 1 1 J53 1670.00 2042.50 239.04 292.35
|
||
BS. CL72. NEAR BRIGHTER EXCITING S T AR _1 2—J-53 1960.00 2042.50 —28Q« 55 292.35
|
||
GEK » REGIONS A AND CN DIFFERENT SCALES 1 3 J53 2270.00 2042.50 324.92 292.35
|
||
J53 , RA 23H 12.3M 1 4 J 53 2270.00 2042.50 324.92 292.35
|
||
J 53 » RA 2 3H ..07-^QH 6584 II .) 1 12 Cl ^
|
||
1 A GEK 0.45* 0.06*
|
||
l 1 J53 600.00 622.50 84.20 87.36
|
||
_1 2 J53 —73.Qj.QQ . 622.50 1Q2.45 87.36
|
||
3 J53 660.00 622.50 92.62 87.36
|
||
4 J53 500.00 622.50 70. 17 87.36
|
||
BEGIN NGC 7635 0.2) C = 1.10 (HYDROGEN LINES) ( S I I ) l 1 J53 167.00 241.25 20.97 30.29
|
||
2 J 53 320.00 241.25 40. 18 30.29
|
||
WAVE IDENT N RG REF OBS I CORR I 3 J53 184.00 241.25 23. 10 30.29
|
||
160.00 164.67 ■■3fr.?2
|
||
3727 (0 II) _L A DQR. -9.5.0-..QQ 181Q.1Q. 4 J53
|
||
l B DOR 173. 3b8.4l ( S 11)1 1 J 53 -¿g3.t-P.Q 241.25
|
||
19.86 —30.29
|
||
20.44
|
||
1 VV 1 54. 80 116.70 l 3 J 53 143.00 164.67 17.75 20.44
|
||
3869 (NE III) 3 VV 1 ,10 15.54 1 4. J.53 191.00 164.67 -23.. 71 20.44
|
||
3889 H I 3 VV 1 8. 10 15.31
|
||
3889 HE I 3 VV 1 8. 10 15. 31 REGION KEY (REG I ON,REFERENCE.EXPLANAT ION)
|
||
3970 (NE III) 2 VV 1 11.60 -20. 80, 12. CLM
|
||
3970 1 A DOR 19.00 34.06 GEK ,, DIRECTION
|
||
A QN DIFFERENT l.RINGSCALE
|
||
20. wAX QF 3 VALUES. SEE REF.
|
||
2 VV 1 11.60 20. 80 1, J53 , RA 5H 09.7M, NO.38
|
||
4101 1 A DOR . 27-. QQ 26.70 -4.4.21 .43.72 2. J53 , RA 5H 9.4M. NO.40
|
||
1 B DOR 36. 00 26.70 58.95 43.72 J53 , RA 5H 9.4M, NO.41
|
||
1 VV 1 17. 10 26.70 28.00 43.72 J 53 , RA 5H 09.7M, NC.42
|
||
_l A DOR -56. QQ 61.50 -Z-aj.43.- -86.13
|
||
1 B DOR 67. 00 93. 84 -2.3)
|
||
2 VV 1 64.50 90. 34
|
||
I 111 _2
|
||
_LQHF II VV—L. 64.5Q .89.03
|
||
4636 l VV 1 8. 10 8. 10 9.09 9.09
|
||
4861 I 1 N CLZ2 100.00 100.00 100.00 100.00 BEGIN IC 417 0.0 (NO CALCULATION)
|
||
1 A DOR 100.00 100.00 100.00 100.00
|
||
B DOR 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
GEB 100.00 100.00 100.00 100.00 4861 H I 1 GEK 18.50 18.50 18.50 18.50
|
||
_1 G.E*,. 100.00 . ..1 QQ.QQ 100.00 100.00 5007 (0 III) 1 GEK 18.5Q 18.50 18.50 18.5Q
|
||
1 VV 1 100.00 ICO.00 100.00 100.00 6563 H I 1 A GEK 1.00* 1.00*
|
||
l A DOR 56.00 56.00 53.08 53.08 6584 (N I I ) l A GEK 0. 59* 0.59*
|
||
_2 VV 1 141.90 134,50
|
||
4991 (0 III) l N CLZ2 260.00 251.00 242.16 233.78 REGION KEY (REG I ON,PEFERENCE,EXPLANATION)
|
||
l 6 DQR 242.00 251.00 225.40 233.78 A, GEK , A ON DIFFERENT SCALE
|
||
5007 (0 III) 1 A OQ.R . 159.00 158.00 -145. 79 145.79
|
||
1 GEK 120.00 A 110.73
|
||
2 VV 1 141.90 130.94
|
||
_1 N Cl 7? 30.on -J-7-^42.
|
||
1 54. 80 42.40 31.82 24.62
|
||
2 A DOR 18.00 8.61 C = 0.0 (NO CALCULATION)
|
||
_J W 1 8Q.7Q 80.7Q 38.62 38.62
|
||
6363 (0 1 ) 2 A DOR 18.00 8.41 WAVE IDENT N RG REF OBS I CORR I
|
||
6548 ( N II) 3 A DOR 43.00 18. 70 4861 •HI 1 HU 100.00 A 100.00 A
|
||
3 B DOR 853.00 371.Q2 4991 _LC III) 1 HU 1QQ.QQ A 100.00 A
|
||
1 N CLZ2 590.00 255.07
|
||
3 A DOR 372.00 160.83
|
||
3 R DDR 853.00 368.77
|
||
GEB 759.00 328.14
|
||
GEK 1.00* 0.43*
|
||
|
||
648
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
BEGIN IC 432 (206.1 -16.3) 0,0 (NO CALCULATION) _L£ 1284 ( II t7 -1.7)
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORK I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
6563 H I I A GEK 1,00» 1.00» 6584 IN II ) I GEK, - 0.36* Q.3&»
|
||
6584 (N lt ) I GEK 0. 26* 0.26*
|
||
6717 (S II ) I GEK 1.29* 1.29*
|
||
673.1 Li- II ) 1 GEK 1.00» ItOQ»-
|
||
REGION KEY CREG IQN,REFERENCE,EXPLANA!ION I
|
||
A , GEK t REGIONS A AND B ON DIFFERENT SCALES BEGIN IC 1318 3.6) C = 3.52 (RADI 0—H BETA)
|
||
432 (206.I WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
3727 (O II ) 1 GH 340.00 3819.33
|
||
GEB 100.00 ICO. 00 100.00 100.00
|
||
GH 100.00 ICO.00 100.00 100.00
|
||
BEGIN IC 434 *(206.9 -16.7) 0.0 (NO CALCULATION) 6563 891.00 -2 5.4 5. 5 Q 60.88 173.93
|
||
l GH 4200.00 2545.50 286.98
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3727 (0 11)1 1 RY 1.00» 1.00* END IC 1318 ( 78.8 3*6 )
|
||
1 2 RY 1.00* 1.00*
|
||
1 3 RY 1.00* 1.00*
|
||
1 UQQ* l.t.Q&j-
|
||
(N 11)3 1 RY 0.83* 0.83* BEGIN IC 1396 C = 2.70 (HYDROGEN LINES)
|
||
3 2 RY 0.83* 0.83*
|
||
3 3 RY 0.45» 0.45* N RG RFF -P-BS--L- -Jive 0 LQRR—I— AVE C
|
||
3 4 RY 0.56* 0.56* (0 II) J53 57. 00 365.11
|
||
l 21 CLM 1.00* 1.00* 1 A SCH 1. CO* 6.41*
|
||
1 2A GEK 1-00» l.,QQ*_ 1 B SCH QQ* 6« 4L*_
|
||
1 LS 1.00* 1.00* 1 C SCH 00* .41*
|
||
1 1 PA 1.00* 1.00* 1 D SCH 00* .41*
|
||
1 2 PA 1.QQ» 1 * QQ*- _l E SCH ■QQ* . 41*
|
||
1 0.83* 0.83* 1 F SCH 00* .41*
|
||
2 0.83* 0.83* l G SCH 00* .41*
|
||
3 R.Ï- 0.45* 0-45* _1 H SCH ££* .41*
|
||
3 4 RY 0.56* 0. 56* 1 I SCH 00* 41*
|
||
II ) 1 21 CLM 0. 56* 0.56* ) l A SCH 18* , 52*
|
||
1 ? A GEK. 0. 38.» 0. 38» 1 B. S CH . 35* 60*
|
||
l LS 1.40* 1.40* l C SCH .38* .79*
|
||
1 1 PA 0.67* 0.67* 1 D SCH .35* . 60*
|
||
1 2 PA 0.31* 0-31* _J E . SjCH- . 17» .46*-
|
||
3 1 RY 0.83* 0.83* 1 F SCH .99* 31*
|
||
3 2 RY 0.83* 0.83* l G SCH .90* 73*
|
||
_3 3 R.Ï— 0.45» 0.45* 1 H Sf.H . 84* 35*
|
||
3 4 RY 0.56* 0.56* 1 I SCH 0. 86* 5. 48*
|
||
(S II ) 1 1 GEK 1.40*A 1.40*A 4861 I 1 J 53 100. 00 100.00 100. 00
|
||
i 2B GEK- 1.42» 1.42» 5007 <n TIT) 1 X53—
|
||
GEK 1.08* 1.08* 1 11 CL« 00*
|
||
1 4 GEK 1.26* 1.26* 1 J 5 3 2280 00 2280.00
|
||
6731. _JLS_ II ) 1 1 GEK- l.QQ* l.QQ* IT 1 1 Cl M Û- 59»
|
||
1 2B GEK 1.00* 1.00* l J 53 300. 00 300.00 37. 37.51
|
||
1 3 GEK 1.00* 1.00* 6717 II ) l J53 145. 00 145.00 16. 16.12
|
||
1 4 GEK ■L.-Ofl* 1.00*
|
||
REGION KEY (REG I ON,R EFE RENCE»EXPLANAT ION)
|
||
REGION KEY (REG I ON,REFERENCE,EX PL ANAT ION) 11» CLM , DIRECTION 1, RI N'G 1G, MAX OF‘4 VALUES. SEE REF.
|
||
21. CLM . DIRECTION 2.RING 1G. MAX OF 10 VALUES. SEE REF. A. Sf.H . A THROUGH I AR F PffNTS flN SI IT ArprK«; BRIGHT RIM
|
||
GEK RA=5H35.7M DEC=-1D47M
|
||
GEK RA=5H3 7 DEC=-2DiOM REG. A.B CN DIFFERENT SCALES IC 1396
|
||
_GEK .. RA = 5JH38.3M DFC=-2D2SM..
|
||
GEK RA=5H38.5M DEC=-243M
|
||
LS MAX OF NUMEROUS POINTS, RESULTS PRESENTED IN GRAPH
|
||
PA RA 5H 37.6M, DEC -2DEG 37MIN BEGIN IC 1470 C = 1.27 (HYDROGEN LINES)
|
||
PA RA 5H 37.5M, DEC -IDEG 32MIN
|
||
RY NEAR HORSEHEAD NEBULA WAVE IDENT N RG REF ORS I CORR I
|
||
RY NEAR HOPSEHEAD NEBULA 3727 _LC M )...L. MAJ- -JQ9.QQ 260,88
|
||
RY , NORTHWEST EDGE VV 163.60X 391.56X
|
||
RY , WEST EDGE C 19.00 33. 58
|
||
VV 1 50.90X 89.95 X
|
||
(206.9 -16.7) C 34.00 50.16
|
||
VV 1 112.70X 166.28X
|
||
-4.363_- (0 III ) 2 VV 1 112.70X 163.51X
|
||
4471 HE I C 7.00 7.00 9.42 9.42
|
||
BEGIN IC 468 (227.6 0.0 (NO CALCULATION) 4861 I C 100.00 lCO.00 100.00 100.00
|
||
CGL2 .100,QQ . ICO.00 100.00 100.00
|
||
WAVE IDENT N RG REF □ BS l AVE Q CORR I AVE C CLZ2 100.00 100.00
|
||
4861 H I 1 GEK 100.00 100.00 100.00 100.00 GEK 100.00* 100.00*
|
||
5007 (0 III) 1 GEK 1100.00 11 00.00 1100.00 1100.00 MAT 100,00. 100.00 100.00 100.00
|
||
6563 H I 1 A GEK 1.00* 1.00* VV 1 100.oox 100.OOX
|
||
6584 (N II ) 1 A GEK 0.05* 0.05* 4921 HE I l c 3.00 3.00 2.89 2.89
|
||
4959 _LQ III) -1- -70.QQ . 70.00 ■65.80 65.80
|
||
REGICN KEY (REGION,REFERENCE,EXPL ANATION) CGLZ 280.00 263.21
|
||
A, GEK , A ON DIFFERENT SCALE MAT 211.00 198.34
|
||
VV 1 89.IPX 83.76X
|
||
4991 (0 I II ) l CLZ 2 190.00 175.03
|
||
5007 (0 III ) 2 CGLZ 280.00 255.17
|
||
L_ SEE _10..Q.t.C.O*A._ _£!.13*A
|
||
MAT 211.CO 192.29
|
||
BEGIN IC 1274 C = 0.0 (NO CALCULATION) VV 1 181.80X 165. 68X
|
||
-5876 HE I 4Q-..QG 21.35
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C CLZ2 40.00 21.35
|
||
6563 HI 1 A GEK 1.00* 1.00* VV 1 69.10X 3 6.88 X
|
||
6584 . _LN II ) 1 A GEK 0.42* . Q.-42*- 6563 .745,00 _8_5 9-t_6_7 . _2-82.93.. ... 326.48
|
||
6717 ( S II ) 1 GEK 1.50*A 1.50*A CLZ2 770.00 859.67 292.43 326.48
|
||
6731 ( S II ) GEK 1.00* 1.00* MAT 1064.CO 859.67 404.08 326.48
|
||
VV 1 8909.20 X 3383.SIX
|
||
REGION KEY (REG I ON,REFER ENCE,EXPLANATION) 6563 (N 11)2 VV 1 8909.20X 3383.51X
|
||
A , GEK , REGIONS A ANO B ON DIFFERENT SCALES 6584 (N II ) 1 C 175.00 284.00 65.81 106.80
|
||
MAT 393.00 284.00 147.79 106.80
|
||
6717 ( S 11)1 GEK 0. 54* 0. 19*
|
||
6723 (S II ) l CLZ2 110.00 39.04
|
||
6731 f S Till GEK 1. 0-35*
|
||
7135 (AR III) 1 CLZ2 25.00 A 7.58 A
|
||
BEGIN IC 1284 ( 11.7 -1.7) 0.0 (NO CALCULATION) 7324 (0 II ) 1 MAT 20.00 5.66
|
||
WAVE IDENT N RG REF OBS I CORR I IC 1470 (110.0
|
||
6563 H I 1 GEK 1.00* 1.00*
|
||
-1.7)
|
||
649
|
||
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN IC 2148 128^9 -30,7) 0.95 (HYDROGEN LINES) _L£ 5146 ( 9.4.4 -5.51
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C REGION KEY (REG ION,REFERENCE,EX PLANAT ION)
|
||
4363 H I 2 J060 52.50 67. 35 A , GEK « -REGIONS A AND B ON DIFFERENT SCALES
|
||
4363 (0 III ) 2 J060 52.50 67.35
|
||
4861 H T I J060 100.00 100.00 100.00 100.00 ( 94.4 -5.5)
|
||
4959 (0 I II) I J060 41.00 41.00 39.34 39.34
|
||
5007 (0 I II ) 1 J060 125.00 117.47
|
||
6548 (N II ) 3 J060 625.00 328.47
|
||
6563 H I 3 J06Q 625.00 326.94 BEG IN ..AN- 15 <119.4 -1.1) C = 1.5Q (ESTIMATE)
|
||
6584 < N II ) 3 J060 625.00 324.79
|
||
6723 < S 11)1 J060 69. 00 34.50 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
6563 _tl I I J53 1.00* Q, 32*
|
||
1 1 J 53 1.00* 0.32*
|
||
6584 II ) 1 l J53 0. 29* 0.09*
|
||
6717 I.I-.) 1 1 J53 0. 12* Q.Q4*
|
||
<S 11)1 1 J53 0. 14* 0.04*
|
||
BEGIN IC 2177 C = 2.23 (HYDROGEN LINES)
|
||
REGION KEY (REG ION.REFERENCE.EXPLANATION)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C J 53 DEC. = 61.5D
|
||
3727 (n II ) i J53 119.00 550.89
|
||
4861 W I 1 J53 100.00 100.00 100.00 END AN_ 15 <119.4 -1.1)
|
||
4959 <0 III) 1 J 53 47.00 47.00 42.16 42.16
|
||
5007 (0 III) 1 J 53 106.00 lC6.00 90.05 90.05
|
||
6563 H I 1 GEK 1.00* 0.18»
|
||
J 53 1590.00 290.46 290.46 BEGIN AN 529 <192.6 -11.6) C = 0.0 (NO CALCULATION)
|
||
GEK 0. 31* 0.06*
|
||
J5J.- 492.00 492.00 88. 34 88.34 wave ipent N RQ REF QP¿_I AVE Q CORR I AVE C
|
||
( S I I ) 1 B GEK 1.50*A 0 • 24*A 6563 I 1 HK GEK 1.00* 1.00*
|
||
1 J 53 238.00 238.00 38.77 6584 II ) 1 HK GEK 0.33*A 0.33*A
|
||
6731 ( S I I ) 1 B GEK 1.00* 0.16*
|
||
REGION KEY <REG ION,REFERENCE,EX PLANATION )
|
||
HK, GEK , NEB. ASSOC. WITH HK CRIONIS
|
||
REGION KFY (REG I ON.REFERENCE.EXPLANAT ION )
|
||
REGIONS A AND B ON DIFFERENT SCALES 529 <192.6 -11.6)
|
||
|
||
BEGIN AN 532 <213.2 C = 0.0 (NO CALCULATION)
|
||
BEGIN IC 4628 C = 1.50 (ESTIMATE) WAVE IDENT N RG REF OBS I AVE O CORR I
|
||
6564 HI 1 A GEK 1.00* 1.00*
|
||
WAVE IPENT N PG REf_ AVE Q CORR I.. 65.84 LN II ) 1 A GEK 0.29» 0.29»
|
||
4959 (0 I II ) l J060 6. 10* 5.67* 6717 (S II ) l GEK l.20*A 1.20*A
|
||
5007 <0 I II ) 1 J060 13.00* 11.65* 6731 <S II ) 1 GEK 1.00* 1.00*
|
||
6548 _LN II ) 3_ JÜ6ÍL 100.00» 32.14»
|
||
6563 J060 100.00* 31.87* REGION KEY (PEG ION,REFERENCE,EXPLANATION)
|
||
6584 (N J06G 100.00* 31.50* A , GEK , BARNARD'S LOOP, PEC.-9D49M, A,B DIFF.SCALES
|
||
. 6.72 3 ( -S -106-0 9. 70» 2.85*
|
||
-21.4)
|
||
|
||
BEGIN AN 543 (197.1 -10.3) C = 0.0 (NO CALCULATION)
|
||
BEGIN IC 4678 -1.81 0.0 (NO CAI CU1 ATI ON )
|
||
WAVE IDENT N RG REF OBS I CORR I
|
||
WAVE IDENT N PG REF OBS I CORR I 6563 HI 1 FU GEK 1.00* 1.00*
|
||
6563 _b I 1 A GEK 1.QQ» l.flO*- 6584 LN II ) 1 FU GEK 0-34*A 0.34»A
|
||
6584 (N I I ) 1 A GEK 0.34* 0. 34*
|
||
6717 ( S I I ) l B GEK 1.50*A 1.50*A REGION KEY (REG ION,REFERENCE,EXPLANATION)
|
||
6731 <S GEK 1.00* 1.00* FU, GEK . NEB. ASSOC. WITH FU ORIONIS
|
||
REGION KEY (REG ION,REFERENCE,EX PLANATI ON ) (197.1 -10.3)
|
||
A , GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
-1.8)
|
||
550 í 207.2 t!3.71 o.o (NO CAI OUI ATI ON)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
BEGIN IC 5-Q6J ( 84.4 0.4) _Q.ílQ.JLH.Y.DRQGEN LINES) 6563 H I_ i 1A GEK 1.00* .00*
|
||
6584 (N II ) 1 IA GEK 0.24* 0.24*
|
||
WAVE IDENT N RG REF OBS I CORR I 6717 ( S II ) 1 IB GEK 1.50*A 1.50*A
|
||
3726 (0 II) 1 DRS 1.00* 1. 51* 1 Z GEK 1.50»A 1,5Q»A
|
||
3729 11)1 DRS 1.35* 2.04* I I ) 1 IB GEK 1.00* 1.00*
|
||
4340 I 1 5 R154 30. 00 32.00 36. 05 38.45 1 2 GEK 1.00* 1.00*
|
||
1 5A P I 54 34.00 32.00 40. 86 38.45
|
||
4861 I 1 5 P154 100.00 100.00 100.00 100.00 REGICN KEY (REG ION,REFERENCE,EXPLANATION)
|
||
1 5A P I 54 100.00 100.00 100.00 100.00 1 , GEK , BARNARD'S LOOP,DEC=0D3OM, A,B DIFF. SCALES
|
||
4959 I IT ) 1 5 PI 54 25.00 24.50 24.28 23.79 2 , GEK , BARNARD'S LOOP. DEC. -ID
|
||
1 5A PI 54 24.00 24.50 23.31 23.79
|
||
I II ) l 5 PI 54 72.00 71.00 68.91 67.95 <207.2 -13.7)
|
||
1 5A PI 54 70.00 71.00 67.00 67.95
|
||
6563 l 5 PI 54 403.00 355.50 255.07 225.00
|
||
1 5A PI 54 308.00 355.50 194.94 225.00
|
||
6678 -HE,, X- _2 5 P15^ 54.00 33.39 BEGIN an 55J <211,1 -15.3) 0.0 <NC CALCULATION)
|
||
2 5A PI 54 41.00 25.35
|
||
) 2 5 PI 54 54.00 33. 10 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
2 5A PIB*- 41.00 ¿¿.13- 6563 H I 1 A GEK 1.00* 1,00*
|
||
6584 (N I I ) l A GEK 0.37*
|
||
REGICN KEY <REGIDN,REFERENCE,EXPLANATION)
|
||
5. P 154. CENTRAL REGION. REGION KEY (REG ION.RFFFRFNCE.EX PLANAT ION)
|
||
5A, P I 54, CENTRAL REGION A, GEK , BARNARD'S LOOP, DEC. -5D19M
|
||
END l£ 506 7 ( 84.4 0.4) -EtbLD At) 55J L211.1 -15.3)
|
||
|
||
BEGIN IC 5146 C = 0.0 (NO CALCULATION) BEGIN AN 1755 < 10.6 2.5) 1.50 (ESTIMATE)
|
||
AVE 0 CORR I AVE C -WAVE.. IPENT N RG REF AVE Q CORR I AVE C
|
||
6563 HI 1 A GEK 1.00* 1.00* 6563 HI l 1 J53 1.00* 0.32*
|
||
6584 ( N I I ) 1 A GEK 0.35* 0.35* 6584 <N 11)1 I J53 0.26* 0.08*
|
||
_LS I I ) 1 B_ CFK 1-40* 6717 _LS II ) 1 1 J53 0.35» 0. 10»
|
||
6731 (S I I ) 1 B GEK 1.00*
|
||
REGION KEY (REG ION,REFERENCE,EX PLANAT ION)
|
||
LC 5146 ( 94.4 -5.5) A. J 53 . DEC. = — 180.31M
|
||
|
||
|
||
650
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
(28B.1 (210.2
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
5007 (0 Hill A AFF 2H.00 183. 70 199.60 —179.2fr 4452.50 (FE II ) 1 BPS 0.0 0.0 0.0 0.0
|
||
B A FF 263.00 183.70 254.86 175.26 4458.30 (FE II ) l BPS 0.0 0.0 0.0 0.0
|
||
C AFF 274.00 183.70 255.80 175.26 4475 (FE II I 1 BOHH 4.00 2.00 4.89 2.45
|
||
D AFF 166.00 183.70 157.03 175.26 1 BPS -JM3 2.00 0.0 2.45
|
||
l E AFF 130.00 183.70 127.37 175.26 4493.60 (FE II ) 1 BPS 0.0 0.0 0.0 0.0
|
||
l F AFF 140.00 183.70 133.21 175.26 4571 MG I l BOHM 5.00 5.50 5.82 6.40
|
||
1 G AFF 83.00 183.70 82.21 175.26 1 BPS 6.00 5.50 6.98 6.40
|
||
1 H AFF 94.00 183.70 88.92 175.26 4581.00 (CR II ) 3 BPS 0.0 0.0 0.0 0.0
|
||
1 jn60 260.00 183.70 247.75 175.26 4581.00 (CR II ) 3 BPS 0.0 0.0 0.0 0.0
|
||
_lü II ) -JQ6G 1Q4Q.QQ 631.11 4581.00 (CR II ) 3 BPS 0.0 0.0 0.0 0.0
|
||
6563 I J 06 0 1040.00 628.81 (FE III) 1 BOHM 4.00 4.50 4.45 5.00
|
||
6584 ( N II ) J060 1040.00 625.61 1 BPS 5.00. 4.50 5.56 5.00
|
||
4685.30 HE II 1 BPS 0.0 0.0 0.0 0.0
|
||
REGION KEY ( R EG ION, R EFER ENC F t EXPL AN AT ION ), 4727.90 (FE II ) 1 BPS 0.0 0.0 0.0 0.0
|
||
1, AFF , BRIGHTEST PART OF NEBULA 4814.60 (FE II ) 3 BPS 0.0 0.0 0.0 0.0
|
||
A. AFF , FAST CENTRAL PART OF NORTHERN REGION 4814.60 (FF III) 2. flP.S_ Q.C Q. 0 Q.Q 0.0
|
||
AFF , CENTRAL PART OF NORTHERN REGION 4814.60 (FF III) BPS 0.0 0.0 .0 0.0
|
||
AFF , NORTHWESTERN PART OF NORTHERN REGION 4861 H I BOHM 100.00 l00.00 100.00 100.00
|
||
AFF , NORTHERN PART OF SOUTHERN REGION BPS 1QQ.QQ-- 1 no-QQ 1QQ.0Q 1Q0.QQ
|
||
AFF , CENTRAL PART OF SOUTHERN REGION 4889.70 (FE II ) BPS 0.0 0.0 0.0 0.0
|
||
AFP , EASTERN PART OF WESTERN REGION 4889.70 (FE II ) BPS 0.0 0.0 0.0 0.0
|
||
AFF , WESTERN PART CF WESTERN REGION 4905^£.0 (FE II ) RPS Q.g- 0.0 0.0 o.n
|
||
EASTERN PART OF SOUTHERN REGION l BOHM 15.00 14.50 14.38 13.90
|
||
1 BPS 14.00 14.50 13.42 13.90
|
||
Q ,76 EUE A_, R.Ef _AF.E (HYDROGEN LINES) _LQ III ) BOHM 43.00 46.00 40.37 43.19
|
||
C = 0.43 FOP REE AFF (HYDROGEN LINES) 1 BPS 49.00 46.00 46.00 43.19
|
||
C = 0.94 FOR REF AFF (HYDROGEN LINES) 5111.00 (FP II ) 1 BPS 0.0 0.0 0.0 0.0
|
||
C = 0.76 FOR AG- .REF AFF —( HYDPDGE N LINES) 5158.80 (FF II ) _2 BP.S_ 2U0Q- ie.3i
|
||
C = 0.28 FOR RG E, REF AFF (HYDROGEN LINES) 5158.80 (FE II ) BPS 21.00 8.31
|
||
C = 0.68 FOR RG F, REF AFF (HYDROGEN LINES) 5199 (N I ) 1 BOHM 9.00 7.70
|
||
0.13 Em E-G Gj REF AFF (HYDROGEN LINES) 2 22.QQ 18.82
|
||
C = 0.76 FOR RG (HYDROGEN LINES) 5199 ,50 (N I ) 2 BPS 22.00 18.82
|
||
5223 .50 (CR II ) 1 BPS 0.0 0.0 0.0
|
||
_E 1 (288.1 -1.0) 5262.40 (FF IT ) J B-PfL- 6.66
|
||
5272 70 (FF II ) 1 BPS 5.00 5.00 4. 14 4.14
|
||
5333 .90 (FE II ) 1 BPS 5.00 5.00 4.03 4.03
|
||
5377 .If) (FE II ) J BPS ■Z. 3fl. -2^-38
|
||
C = 1.50 (ESTIMATE) 5527 ,00 (FF II 2 BPS 7.00 5.20
|
||
5527 ,00 (FE II ? BPS 7.00 5.20
|
||
WAVE IDF NT N PG RFF DBS I 5577 . -LO I L1 BOHM Q.Q Q.Q Q.Q-
|
||
6548 II ) 3 J06C 100.00 32. 14 5755« 50 (TI I ) 3 BPS 4.00 2.72
|
||
6563 I 3 J060 100.00 31.87 5755. 50 (TI I ) 3 BPS 4.00 2.72
|
||
—LN 11)3 3) . 50 3-0 LN T I ) _3 BPS
|
||
6723 (S II ) l J060 16.00 5867.10 (Tl I ) 1 BPS 0.0 0.0 0.0 0.0
|
||
6234 I' BPS 0.0 0.0 0.0 0.0
|
||
END G 17 ( 263.0 L.2.1 6258.1 0 (CR I L -2 BPS- 0.0
|
||
6258. 10 ( TI I 2 BPS 0.0 0.0 0.0
|
||
6300 (0 I 2 BOHM 429.00 239.49
|
||
1 BPS 270.00 220.00 122.82
|
||
1 (210.2 -19.6) C = 0.87 (HYDROGEN LINES) 6363 (O I ) 2 BOHM 429.00 234.94
|
||
1 BPS 77.00 42. 17
|
||
—MAV.E... IDENT N RG REF AVE Q CQRR .1. 6541 LN II ) 3 BOHM 890-00 460.78
|
||
1 BOHM 116.00 80.00 211.04 145.55 BPS 84.00 84.00 43.49
|
||
l BPS 44.00 80.00 80.05 145.55 BOHM 890.00 458.53
|
||
_J aS5F— 1.00» 1.82» BPS 439.OP 439-00 226.17 226.17
|
||
3728.80 (O II ) BPS 34.00 61.76 BOHH 890.00 455.52
|
||
0S58 0. 56» 1.02» BPS 202.00 2C2.00 103.39 103.39
|
||
3750. I BPS 1.00 1,00 1.79 1.79 6716.40 (S II ) BPS 122.00 122.00 60.12 60.12
|
||
3754. I IT BPS 0. 0 0.0 0.0 0.0 6723 (S II ) BOHM 568.00 568.00 279.37 279.37
|
||
3770. I BPS 2.00 2.00 3.55 3.55 6730.90 (S II ) BPS 185.00 185. )0 90.79 90.79
|
||
3797. _I BPS 2*00 2.00 3.5Q 3.*5.Q_ 6830.00 (FF II ) 1 BPS Q.Q . 0.0 Q*J2 Qa.CL
|
||
3835 BOHM 5.00 4.50 8. 54 7.69 6863 1 BPS 0.0 0.0 0.0 0.0
|
||
BPS 4.00 4.50 6.84 7.69
|
||
—386-8 —< NE III) 6.00 5.5Q 10.05 9*21 END HH —1 (21Q.2 -19.6)
|
||
1 BPS 5.00 5.50 8. 38 9.21
|
||
3888 1 BOHM 7.00 6.50 11. 58 10.75
|
||
_1 BAS 6.00 6.50
|
||
3918 BPS 0.0 0.0 0.0 0.0 C = 2.74 (HYDROGEN LINES)
|
||
3933 1 BOHM 8.00 9.50 12.93 15.36
|
||
—1 BAS lltQO 9,i>Q 17,79 - 19.36 WAVE N RG RFF OBS I ■ AVE 0 CQRR I AVE C
|
||
III) 3 BOHM 18.00 28.59 4861 130.00 100.00 100.00 100.00
|
||
3 3DS 17.00 27.00 4959 (0 I II ) 1 PF 54.00 54.00 47.25 47.25
|
||
TI 1 2 BJDHM 18.OQ 28. 59 5876 HP I I PF 71.00 7UQQ IB. 32 18.32
|
||
BPS 17.00 27.00 6563 H I 1 2620.00 2620.00 324.45 324.45
|
||
3 BOHM 18.00 28. 58 6584 (N II ) 1 806.00 806.00 97. 72 97.72
|
||
BAS 17.QQ 26.99 7065 HF I L_ __AE 119.00 119.00 9,59 9.59
|
||
4009. 80 (FF I I ) BPS 0.0 0.0 0.0 0.0 7325 TI ) l 522.00 522.00 34.28 34.28
|
||
4047, 00 ( FE III) BPS 3.00 3.00 4. 57 4.57 9015 I l 239.00 239.00 5.49 5.49
|
||
4068. 50 ( S .11—L -BPS 37*.QQ 37.QQ 55.66 - 55.66 9069 (S II ) 1 4220.00 4220.00 94.61 94.61
|
||
4072 (S II ) 1 BOHM 43.00 43.00 64. 56 64.56 10049 H T 961.00 961.00 14.41 14.41
|
||
4076. 30 ( S I I ) 1 BPS 13.00 13.00 19.47 19.47 10830 HF I 20400.00 20400.00 233.31 233.31
|
||
„ 4.1Q1 A_ J J &DHM. 14.00 15.50 20.68 22.9Q
|
||
BPS 17.00 15.50 25. 11 22.90
|
||
4114. 40 (FE 11 ) BPS 4.00 4.00 5. 87 5.87
|
||
-A177 .LEE- II ) BOHM 2.QQ ... 2-*Q.Q..- 2.84 A. .8 4
|
||
( FE II ) 2 BOHM 6.00 8.22
|
||
2 BPS 6.00 8.22 -1.0) C = 2.78 (HYDROGEN LINES)
|
||
2 BOHM 6.00 .22
|
||
2 BPS 6.00 8.22 WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
4276« 6C (FE I I ) l BPS 2.00 2.00 2.69 2.69 3728 (O II ) 1 DZ 33.88 228.47
|
||
4287 L£F_ ■H ). 1 BOHM 8.00 6,50. 1Q...7¿_ 8.71 3889 HF I 1 DZ 5.75 5.75 28.75 28*75
|
||
1 BPS 5.00 6.50 6.70 8.71 4072 (S II ) 1 4.36 4.36 15.99 15.99
|
||
4319. II ) 1 BPS 0.0 0.0 0. 0 0.0 4101 6.61 6.61 22.98 22.98
|
||
4340 _I J BOHM. 34.00 3?.no 44.38 4340 ...02— 20.42 2Q.42 41.84 47.84
|
||
1 BPS 30.00 32.00 39. 16 41.77 4686 HE TI 1 DZ 6.92 6.92 9.27 9.27
|
||
1 BOHM 11.00 9.50 14.22 12.28 4861 HI I DZ 100.00 100.00 100.00 100.00
|
||
-J EB-S —8.00 - 12.28 5007 (0 III) 1 DZ 512.90 512.90 418.57 418^¿7_
|
||
4414 ( FE I I ) BOHM 7.00 8. 81 5876 HF I 1 DZ 72.44 72.44 18.33 18.33
|
||
BPS 14.00 17.62 6364 (C I ) 1 DZ 20.42 20.42 2.98 2.98
|
||
441 4 (FE .11 -L- BOHM 6562 H L_ J 02— 2344.QQ ¿344.QQ . 281.84 281.84
|
||
BPS 14.00 17.62 6678 HE I 1 43.65 43.65 4.71 4.71
|
||
BPS 0.0 0.0 6724 (S II ) 1 154.90 154.90 16.03 16.03
|
||
(710.2
|
||
652
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
RCH 38 (268,0 -1-0) BEGIN S 1Q6 ( -¿«50 (HYDROGEN LINES!
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE N RG REF OBS I AVE 0 CORR I AVE C
|
||
7065 HE I 1 DZ 93-33 93.33 7.25 7.25 4861, 1 N CLZ2 100.00 100.00 100.00 100.00
|
||
7324 (O II ) 1 DZ 138.00 138.00 1 GEK 100.00 100.00 100.00 100.00
|
||
4991 (0 III ) 1 N CLZ2 150.00 150.00 127.63 127.63
|
||
_END RCW 38 (268.0 -1«01 5007 _J_Q HI? 1 -117.00 117.00 -91.40- ■97.46
|
||
l N CLZ2 1930.00 1930.00 286.98
|
||
1 A GEK 1.00* 0.15*
|
||
6575 _LN_ II ) 1 N C_L¿¿ 1800.00 1800.00 ¿64.71 ¿64.71
|
||
17.2) C = 1.16 (HYDROGEN LINES) 6584 (N 11)1 A GEK 0. 59* 0.09*
|
||
6717 (S I I ) l B GEK 0.68* 0.09*
|
||
HAVE IPENT N PQ REF.. OBS I AVE Q COfiR I 6723 (S 11)1 N CLZ2 450.00 450.00 58.57 58.57
|
||
3727 (O II ) l CL 70.00 155.34 6731 ( S I I ) 1 B GEK 1.00* 0. 13*
|
||
4101 HI 1 CL 15.20 15.20 25.57 25.57 7135 (AR III) 1 N CLZ2 10.00 A 0.96 A
|
||
4340 HI 1 CL 32.50 32.50 46.36 46.36 7325 (0 LL_L_1 N CLZ2 60.00 A 5.00 A
|
||
4861 HI 1 CL 100.00 100.00 100.00 100.00
|
||
6548 (N II ) 1 CL 57.00 57.00 23.69 23.69 REGION KEY (PEG ION,REFERENCE,EXPLANAT ION )
|
||
6563 HI 1 CL 698.00 696.00 288.27 288.27 N, CLZ2. NORTHERN KNOT
|
||
1 GEK l. 00* 0.41* B ON DIFFERENT SCALES
|
||
(N II ) 1 CL 166.00 166.00 67.97
|
||
1 GEK 0,28* 0.11* END 10t» ( 7t».4 -0.6)
|
||
(S III) 1
|
||
A7.-?I
|
||
C = 0.15 (RELATED STARS)
|
||
WAVE IPENT N RQ. RfF AYE Q COBP I AVE C
|
||
C = 3.10 (HYDROGEN LINES) 1 2 J 53 1.00* 0. 89*
|
||
1 3 J53 1.00* 0.89*
|
||
WAVE IPENT N RG REF QBS I AVF n CORR .4-, J53 1.00* Q.89*
|
||
3727 (0 II ) 1 MAT 62.00 521.86 J 53 1.00* 0.89*
|
||
4861 I 1 MAT 100.00 100.00 100.00 100.00 6 J53 1.00* 0.89*
|
||
4959 (0 III ) 2 MAT_ 6 « QQ 5« 16 J 53 1.00*
|
||
5007 (0 III) 2 MAT 6.00 4.78 l 8 J 53 1.00* 0.89*
|
||
6563 H I 1 MAT 3012.00 3012.00 283.47 283.47 (N II ) l 2 J53 0. 15* 0. 13*
|
||
. .6584 LN II ) 1 MAI— 762« QQ 762.00 70,02 70.02 1 3 J 53 0.31* 0.28*
|
||
7324 (O II ) 1 MAT 1 4 J 53 0.39* 0.35*
|
||
1 5 J53 0.28* 0.25*
|
||
END S 61 ( 26.3 _I fc-J-5.3 0.34* Ql. 30*
|
||
7 J 53 0. 44* 0.39*
|
||
l 8 J 53 0.34* 0.30*
|
||
_LS 11 ). _J ¿ J53 0- 18* Q. 16*
|
||
C = 0.85 (HYDROGEN LINES) 4 J53 0. 17* 0. 15*
|
||
5 J 53 0.22* 0.19*
|
||
3727 (0 II ) l MAT 143.00 256.45 1 7 J53 0.22* 0. 19*
|
||
4861 H I 1 MAT 100.00 100.00 100.00 100.00 1 8 J53 0.33* 0.29*
|
||
4959 _L0 I II ) 2 MAT m3A.no 993.99 _J 4. .15 3 0. 14*
|
||
5007 (0 III) MAT 1036.00 973.58 6 J 53 0.45* 0.40*
|
||
6563 H I MAT 2365.00 2365.00 1237.12 1237.12 7 J53 0. 19* 0. 17*
|
||
_LN IT ) 1 598.00- ._5aa^QQ. 310.76 310.76-
|
||
7324 (O II ) 1 MAT 28.00 REGION KEY (PEG I ON PEFE RENC F,EXPLANAT ION)
|
||
2, J 53 . RA 22H f29.1M, NEPULA AROUND 10 LAC
|
||
END S U ( 36.0 -1.0) 3. J 53 . PA 22H 27.OM. NFBU1A AROUND 10 1 AC
|
||
4t J53 , RA 2 2H 26.9M, NEBULA AROUND 10 LAC
|
||
5t J 53 , RA ?2H 26.9M, NEBULA AROUND 10 LAC
|
||
6. .153 . RA M 30.AM. NFRIIIA ARHIIMn
|
||
90 ( 63.2 0.4) C = 1.90 (HYDROGEN LINES) J53 » RA 22 27.OM, NEPULA AROUND 10 LAC
|
||
J53 , RA 22H 33.5M, NIPULA AROUND 10 LAC
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I B CLZ2 100.00 100.00 100.00 100.00 ( 95.4 -16.8)
|
||
4991 (0 III) B CLZ 2 230.00 230.00 203.43 203.43
|
||
6563 _H L J S CLZ2- 1220-00 1220.00 286.67 286-62
|
||
6575 (N II ) l B CLZ2 650.00 650.00 151.43 151.43
|
||
6723 (S II ) 1 B CLZ2 180.00 180.00 38.22 38.22 0.70 (HYDROGEN LINES)
|
||
REGION KEY (REG ION,REFERENCE,EX PL ANAT I ON) WAVE N PG REF DBS I AVE C CORR I AVF C
|
||
B, CLZ2, BRIGHT PART,2.5 ARCMIN NNE OF STAR 4861 1 W CLZ2 100.00 1 CO.00 100.00 100.00
|
||
6563 1 W CLZ2 485. 00 485.00 284.44 284.44
|
||
6575 (N I I ) l W CLZ2 400.CO 400.00 233.86 233.86
|
||
6723 (S (1)1 W CLZ2 210.00 210.00 118.65 118.65
|
||
PEGICN KEY (PEGION,REFERENCE,EXPLANATION)
|
||
0.0 (NO CALCULATION) W, CLZ2, WESTERN EDGE
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I 1 CGLZ 100.00 100.00 100.00 100.00
|
||
4959 (0 111)2 CGLZ 800.00 800.00
|
||
5007 (O I 11 ) 2 CGLZ 800.00
|
||
-1.1 ) C = 1.70 ( HYDROGEN LINES)
|
||
END S 95 ( 65.9
|
||
WAVE IDENT N RG REF DBS I CORP I
|
||
3727 (O II ) l MAT 165.00 530.68
|
||
4861 H I 1 CGLZ 100.00 100.00
|
||
= 2.18 (HYDROGEN L INES) i CLZ2 100.00 100.00 100.00 100.00
|
||
1 MAT 100.00 100.00 100.00 100.00
|
||
-HAVE IPENT N RG REF QB.S I . AYE 0 CORR I AY£.C III) 2 CGLZ 30.00 27.62
|
||
3727 II )l MAT 71.00 317.58 2 MAT 18.00 16. 57
|
||
4861 I 1 F CLZ2 100.00 ICO.00 100.00 100.00 4991 (0 I I I ) 1 CLZ2 35. CO 31.36
|
||
(4AI 100.00 inn.on 100.00 100.00 5007 (P III) 7 CGLZ 30.00 26. 49
|
||
4959 (0 III )2 MAT 508.00 456.83 2 MAT 18.00 15. 90
|
||
4991 1 E CLZ2 125.00 125.00 108.58 108.58
|
||
(O I II ) 5876 HF I 1 CLZ 2 20. 00 20. 00 8.63 8.63
|
||
5QQ7 _LQ 1111 2 tlAI 508.00 433.16 6563 HI 1 CI 7 7 63 5. 00 1063.QQ 173.76 29Q.37
|
||
1 E CLZ 2 1470.00 1489.00 278.97 282.58 l MAT 149 1.00 1063.00 407.98 290.87
|
||
1 MAT 1508.00 1489.00 286.19 282.58 6575 1 CLZ2 450.00 450.00 122.21 122.21
|
||
II I I MAI 703.00 703.00 37-88 37.88 6584 MAT 498.QQ 498.00 134.49 134.49
|
||
6723 II ) 1 E CLZ2 170.00 170.00 28.72 28.72 6723 (S II ) 1 CLZ2 180.00 180.00 44. 99 44.99
|
||
7324 IT ) 1 MAT 18.00 18.00 2.06 2.06 7324 (0 II ) 1 MAT 13.00 13.00 2.40 2.40
|
||
REGION KEY (REG I ON,REFERENCE,EXPLANAT ION)
|
||
E, CLZ2, H-ALPHA CONDENSATION
|
||
|
||
|
||
|
||
653
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
< lQft.4 -^1,01 1-30 (HYDRnKFN I INFS! BEGIN S LB7 . (126.7 O^Q (NO CALCULATIDN)
|
||
WAVE TOENT N RG REF WAVE IDENT N RG REF OBS I CORR I
|
||
-4861 H I 1 CLZ2 -1QQ.QQ LQQ.QQ 1QQ.Q0 1QQ.QQ 6563 _L JL GEK l.QQ* l.QQ*
|
||
CLZ 2 770.00 285.82 6584 (N II ) 1 0.33*A 0.33*A
|
||
GEK I.00* 0.37*
|
||
IN Till CLZ2 -38Q.QQ 380.00 140.24 187 (126.7 -0.8)
|
||
6584 11)1 GEK 0.33*A 0.12*A
|
||
6723 II ) 1 CLZ 2 300.00 300.00 103.90 103.90
|
||
-1.0) 1.60 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF QBS I AVE □ CORR I
|
||
CGLZ 100.00 100.00 100.00 100.00
|
||
152 (108.7 -0.9) C = 2.10 (HYCI^OGEN LINES) l NO CLZ2 100.00 100.00 100.00 100.00
|
||
_UL nn 2 cGLz 450.00 ^16« 27 -
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 4991 (O I II ) i NO CLZ2 600.00 541.08 541.08
|
||
3727 (C II ) 1 MAT 124.00 524.98 5007 (0 III) 2 CGLZ 450.00 400.32
|
||
434Q _tí I J CLZ2 45.00 85.61 A 5876 HE I 1 NO CLZ2 60.00 60.00 27.21
|
||
1 CGLZ 100.00 100.00 100.00 100.00 6563 1 NO CLZ2 970.00 970.00 286.45 286.45
|
||
1 CLZ2 100.00 100.00 100.00 100.00 6575 ) 1 NO CLZ2 90.00 90.00 26.39 26.39
|
||
_I GEK -100« QQ 100.00 -LQ.Q. 00 - JL .00.00
|
||
MAT 100.00 100.00 REGION KEY (REG I ON,REFERENCE.EXPLANATION »
|
||
CGLZ 140.00 126.39 NO, CLZ2, NEAR 05 STAR
|
||
MAT 62.00 55.97
|
||
4991 (n ii CLZ 2 180.00 180.00 157.16
|
||
5007 (0 II CGLZ 140.00 120.08
|
||
_GEK_ -1QO.CO . -a¿..zz a
|
||
2 MAT 62.00 53. 18
|
||
5876 HE I 1 CLZ2 40. 00 40.00 14.17 14.17 BEGIN S 1.25 (HYDROGEN LINES)
|
||
6563 _tí I— _L CLZ2 -59Q.QQ 1474.50 119.Q1 297.42
|
||
l MAT 2359.00 1474.50 475.84 297.42 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
6575 (N ) 1 CLZ 2 350.CO 350.00 69.95 69.95 4861 H I l CLZ2 100.00 1 00.00 100.00 100.00
|
||
6584 IN ) 1 MAT 809.00 160.56 160.56 6563 H I _1 CLZ2 749.^0 740.00 -285,35 293,35
|
||
6723 ( S II ) 1 CLZ2 110.00 19.84 6723 (S II ) 1 CLZ 2 220.00 79.37
|
||
6678 HE I 1 CLZ 2 10.00 1.86 A
|
||
_ 713 5- (AR..1L10 1 CLZ2 30.QQ 4.17 A END S 2Ü3 (151.4 2.Q)
|
||
) 1 CLZ2 20.00 2.48 A
|
||
1 MAT 127.00 15.76
|
||
2.5) C = 2.10 (HYDROGEN LINES)
|
||
WAVE.. IDENT N RG REF QBS AVE C CORR I AVE C
|
||
4861 H I 1 CLZ 2 100.00 100.00 100.00 100.00
|
||
1.38 (HYDROGEN LINES) 6563 H I 1 CLZ2 1420.00 1420.00 286.43 286.43
|
||
6575 LN II ) I CLZ2- 1 nnn.nn ionn.no 199.85 199.85
|
||
WAVF IDENT N PG REF OBS I AVE C CORR I AVE C 6723 (S II ) 1 CLZ2 275.00 275.00
|
||
4861 HI 1 CLZ 100.00 100.00 100.00 100.00
|
||
] A Cl 7? -100.00 1 00.00 END S 2_Li U-5A.6 2.5)
|
||
GER 100.00 100.00
|
||
4959 III» 2 CLZ 130.00 121.55
|
||
-4.991 ■ 1LU 1 A CLZ2 140.00. 128.Q6
|
||
5007 (P 111)2 CLZ 130.00 117.52 C = 1.11 (RADIO-H BETA)
|
||
6563 H I 1 A CLZ2 800.00 825.50 279.38 288.29
|
||
-851.00 825.50 297. 19 288.29 N PG REF AVF r
|
||
l A GEK 1.00* 0. 35* 3727 ) 1 MAT 119.00 255. 16
|
||
6575 11)1 A CLZ2 440.00 152.73 4861 1 CLZ2 100.00 100.00 100.00 100.00
|
||
6584 M ) 1 A GO 0.37» Q.13* _L_ MAT 100.00 100.00 -IQQ.flfl LQQ.QQ
|
||
6717 (S II ) 1 B GEK 1•30*A 0.42*A 4959 III) MAT 276.00 261.48
|
||
6723 (S II ) 1 A CLZ2 150.00 48.67 4991 III) CLZ 2 320.00 297.86
|
||
6731 (s I I ) l B GEK 1.00* 0. 32* 5007 TIT) ? MAT 276.00 254.49
|
||
6563 I 1 CLZ2 610.00 820.50 261.72 352.03
|
||
REGION KEY (PEG I ON,REFERENCE,EX PL ANAT ION ) 1 MAT 1031.00 820.50 442.34 352.03
|
||
A, CLZ2, BRIGHT KNOT 6575 (N II ) 1 CLZ2 85.00 85.00 36.29 36,29
|
||
GEK , REGIONS A AND B CN DIFFERENT SCALES 6584 (N II ) 1 MAT 64.00 64.00 27.22 27.22
|
||
6723 (S II ) l CLZ2 50.00 50.00 20.22 20.22
|
||
_ JND S 157 (111.3 -0.7) 7324 (O II ) 1 MAT 25.00 25.00 8. 30 3.30
|
||
|
||
1.10 (HYDROGEN L INES)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I C = 2.20 (HYDROGEN LINES)
|
||
4861 I l CLZ2 100.00 100.00 100.00 100.00
|
||
499 1 III) CLZ2 75.,00 75.00 69.86 69.86 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
6563 CLZ2 660..0.Q 66Q.QQ 265.34 285.34 4861 __1 CLZ2 100.00 100.00 100.00 100.00
|
||
6575 (N ) 1 CLZ 2 350.00 350.00 150.58 150.58 6563 H I 1 CLZ 2 1530.CO 1530.00 285.97 285.97
|
||
6723 (S ) 1 CLZ2 150.00 150.00 61.16 61.16
|
||
END S 222 (165.3 ~9.Q)
|
||
|
||
BEGIN S 232 (173.5 3.2) C = 0.0 (NO CALCULATION)
|
||
C = 1.40 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE G CORK I AVE C
|
||
WAVE IDENT N RG REF DBS I AVE O CORR I AVE C 6563 GEK 1.00* 1.00*
|
||
4861 H I 1 CLZ2 100.00 100.00 100.00 100.00 6584 GEK 0.33*A 0.33*A
|
||
-6-56.3 tí I ] CLZ2 830.00 830.00 285.47 285.47
|
||
6575 (N I ) 1 CL Z 2 450.00 450.00 153.82 153.82 3.2)
|
||
6723 (S II ) 1 CL Z 2 250.00 250.00 79.81 79.81
|
||
BEGIN S 235 (173.6 C = 0.0 (NO CALCULATION)
|
||
WAVE IDENT N RG REF OBS I CORR I
|
||
BEGIN S C = 1.60 (HYDROGEN LINES) 6563 HI 1 A GEK 1.00* 1.00*
|
||
6584 (N II ) 1 A GEK 0.29» 0_t_29*_
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 6717 (S II ) 1 B GEK 1.30* 1.30*
|
||
4861 H I I CLZ2 100.00 lCO.00 100.00 100.00 6731 (S II ) 1 B GEK 1.00* 1.00*
|
||
4991 (_Q I IQ 1 ÇLL2-. 45.00 45.00 40.58 40.58
|
||
6563 H I 1 CLZ2 970.00 970.00 286.45 286.45 REGION KEY (REG I ON,REFERENCE,EX PL ANAT ION)
|
||
6575 (N II ) L CLZ2 570.00 570.00 167.14 167.14 A , GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
6723 LS II ) 1 CLZ2 220.QQ 22Q.ÛQ 59.66 59.66
|
||
|
||
|
||
|
||
654
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN S 0.0 (NO CALCULATION! S 2JL5 {192.6 Q.Q)
|
||
WAVE IOENT N RG REF OBS I AVE 0 CORR I AVE C CH 1.2 ARCMIN W OF CENTRAL STAR, .15 ARCMIN S OF RG J
|
||
6563 H I 1 A GEK 1.00» 1.00» GEK MAXIMUM VALUE FOR 5007
|
||
6584 (N II I 1 A GEK 0.32» 0.32* GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
6717 (S II ) 1 B GEK 1.25» 1.25*
|
||
6731 (S II I 1 B GEK 1.00* 1.00* S 255 tlQ?.6 Q.Q)
|
||
REGION KEY (REG ION,REFERENCE,EXPLANAT ION)
|
||
A , GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
C = 1.28 (RADIO-H BETA)
|
||
254 (192.5
|
||
WAVE IDFNT N RG REF oes I -AVE Q CORR I AVE C
|
||
3727 (0 MAT 100.00 240.99
|
||
4861 A CH 100.00 100.00 100.00 100.00
|
||
255 (192.6 1.54 (RAD 10—H BETA) B CH 100.00 100.00 100.00 100.00
|
||
C CH 100.00 100.00 100.00 100.00
|
||
WAVE IDENT N RG REF OBS I CORR I D CH 100.00 100.00 100.00 100.00
|
||
3727 (0 II ) 1 MAT 112.00 322.. 71 CH 100.00 100.00 100.00 100.00
|
||
CGLZ 100.00 100.00 100.00 100.00 F CH 100.00 100.00 100.00 100.00
|
||
CH 100.00 100.00 100.00 100.00 CLZ 2 100.00 100.00 100.00 100.00
|
||
_£H 100.00 100.00 ioa^Q.0- IQQ.QQ MAT 100.00 100.00 100.00 100.00
|
||
C CH 100.00 100.00 100.00 100.00 4959 (0 III ) 2 MAT 16.00 15.03
|
||
D CH 100.00 100.00 100.00 100.00 5007 (O I II ) 2 MAT 16.00 14. 57
|
||
1 no-no I no.QQ ino-oo 1 no.on -6548 -LU ¡I ) 1 A CH I5.aQQ 96.67 28.47 . —36.69—
|
||
CH 100.00 100.00 100.00 100.00 1 D CH 130.00 96.67 49.34 36.69
|
||
G CH 100.00 100.00 100.00 100.00 l E CH 85.00 96.67 32.26 36.69
|
||
,H CH IfliJuuQfl IQQ.QQ 100.00 100.00 -6563 -I L_ A CH 660.00 733.63 248.75 -276.SO..
|
||
I I CH 100.00 100.00 100.00 100.00 B CH 715.00 733.63 269.48 276.50
|
||
1 J CH 100.00 100.00 100.00 100.00 C CH 670.00 733.63 252.52 276.50
|
||
_1 K CH -LQQ.Qfl IQQ.QQ 100-00 IQQ.QQ D CH 685.00 733.63 258. 17 276.50
|
||
CLZ2 100.00 100.00 100.00 100.00 E CH 605.00 733.63 228.02 276.50
|
||
GEK 100.00 100.00 100.00 100.00 F CH 665.00 733.63 250.63 276.50
|
||
MAT 1QQ.QQ- ico.oo IQQ.QQ 100.00 CLZ2 685.00 733.63 258.17 .276.50
|
||
III ) 2 CGLZ 40.00 37. 11 1 GEK 1.00» 0. 38*
|
||
H CH 15.00 13.92 1 MAT 1184.00 733.63 446.24 276.50
|
||
MAT 25, QQ_ 23. 19 II 1 1 CLZ 2 480.00 480.00 —L79.89 179.89
|
||
4991 (0 III ) 1 CLZ2 45.00 40.74 (N II ) 1 A CH 235.00 283.33 87.70 105.73
|
||
5007 (0 III ) 2 CGLZ 40.00 35. 74 C CH 200.00 283.33 74.64 105.73
|
||
40.00 35.74 0 CH 375.00 283.33 139.94 - 105.73
|
||
1 C GEK 40.00 35.74 E CH 250.00 283.33 93.29 105.73
|
||
2 MAT 25.00 22.34 F CH 260.CO 283.33 97.03 105.73
|
||
_LN 11)1 A CH 130.00 130.00 40.53 A GFK Q.36»A Q-.13*A_
|
||
CH 160.00 130.00 49.88 40.53 MAT 380.00 141.81
|
||
C CH 145.00 130.00 45. 21 40.53 ( S 11)2 A CH 265.00 93.52
|
||
£ CH- 135.00 1 30.00 42.09 40.53 195^00 —68.8?
|
||
G CH 80.00 130.00 24.94 40.53 270.00 95.29
|
||
A CH 945.00 768.33 292. 13 237.51 210.00 74.11
|
||
1 R CH 890.QQ 768.33 275. 12 237.51 280.00 -98.82 -
|
||
C CH 960.00 768.33 296.76 237.51 2 CH 245.00 86. 46
|
||
D CH 435.00 768.33 134.47 237.51 1 GEK 1. 10*A 0.39*A
|
||
E CH 765.00 768.33 236.48 237.51 II ) 1 Cl /? 715.CO 75. AQ
|
||
F CH 1015.00 768.33 313.76 237.51 II ) 2 A CH 265.00 92.98
|
||
G CH 505.00 768.33 156.11 237.51 2 B CH 195.00 68.42
|
||
CLZ2_ 5Q5.Qfl_ 768.33 156.11 237.51 2_ C CH 210.00 —94.74 -
|
||
GEK 1.00* 0.31* D CH 210.00 73.69
|
||
1 MAT 895.00 768.33 276.67 237.51 E CH 280.00 98.25
|
||
6575 -LN_. _L_L_ ■■C-LZ2- 35Q.Q3 350.00 lQI«-46 1Q7 >46 F r.H 745.00 85.97
|
||
6584 II ) l CH 440.00 339.38 134.41 103.67 GEK 1.00* 0. 35*
|
||
l CH 470.00 339.38 143.57 103.67 ( C 11)1 MAT 6.00 1.68
|
||
1 CH 440.00 339.38 134.41 103.ö7
|
||
1 CH 240.00 339.38 73.31 103.67 REGION KEY (REG ION,RFFERENCE,EX PLANATI ON)
|
||
l CH 410.00 339.38 125.24 103.67 A, CH , 1.2 ARCMIN w OF CENTRAL STAR
|
||
L_ 305.00 339.38 . 93jt_1.7„ 10-3-1-67 8. CH , .4 ARCMIN W OF CENTRAL STAR
|
||
G CH 240.00 339.38 73.31 103.67 C, CH , 1.25 ARCMIN W CF CENTRAL STAR
|
||
A GEK 0.37* 0. 11* D, CH , .5 ARCMIN E OF CENTRAL STAR
|
||
MAT 17Q.CQ 3J3..23 5U93 1Q2_«.67 E, CH, 1.35 ARCMIN W OF CENTRAL STAR
|
||
A CH 345.00 98.54 CH 1.0 ARCMIN E OF CENTRAL STAR
|
||
B CH 300.00 85.69 GEK REGIONS A AND B ON DIFFERENT SCALES
|
||
C CH ¿15.OQ 6U41
|
||
D CH 220.00 62.84
|
||
E CH 140.00 39.99
|
||
F CH 185.00 52.84
|
||
G CH 155.00 44.27
|
||
H CH 120.00 34.27 1.00 (HYDROGEN L INES)
|
||
I CH 165.00 47. 13
|
||
CH 205.00 58.55 WAVE IDENT N RG REF OBS I CORR I
|
||
CH 235.00 67. 12 3727 (O II ) 1 CL 100.00 198.81
|
||
GEK .26». 0.36» 4101 H I 1 CJ- 12.10 18.95
|
||
6723 ( S II ) 1 CLZ2 120.00 34. 17 4340 CL 30. 30 30.30 41.16 41.16
|
||
6731 ( S II ) 2 CH 345.00 97. 86 4861 CL 100.00 ICO.OO 100.00 100.00
|
||
B CH 300.00 85.09 1 WS CLZ2 IQQ.QQ IQQ.QQ IQQ.QQ IQQ.QQ
|
||
C CH 215.00 60.98 6548 (N S CL 9.00* 4.22*
|
||
D CH 220.00 62.40 6563 H S CL 100.00* 46.66*
|
||
E CH 140.nn 39.71 WS CLZ2 400,00 400.00 186.63 186.63
|
||
F CH 185.00 52.47 1 A GEK 1.00* 0.47*
|
||
G CH 155.00 43. 97 6575 (N ) 1 WS CLZ2 200.00 200.00 92.90
|
||
- H CH 12Q.QQ. 34.04 6583 (N ) 1 S CL 35.00* 16.21*
|
||
I CH 165.00 46. 80 1 A GEK 0.28* 0.13*
|
||
J CH 205.00 58. 15 6717 (S ) l P GEK 1.60*A 0.71*A
|
||
K CH 235.QQ 66.66 6723 LS_ ) 1 IwS CLZ2 2Q.Q.QQ ZÜQ.QQ 88.47 88.47
|
||
GEK 1.00* 0. 28* 6731 (S I I ) 1 R GEK
|
||
(0 II ) 1 MAT 8.00 1.73
|
||
RFGICN KFY ( R FG I ON. R FFF R FNf. F . F X PI AN AT I ON )
|
||
REGION KEY (REG ION,REFERENCE,EXPLANATION) S, CL , SCALE DIFFERENT FROM BLUE
|
||
A, CH , 1.2 ARCMIN W OF CENTRAL STAR WS, CLZ2, 5 ARCMIN SOUTHWEST OF STAR
|
||
6, CH , -L.Q ARCMIN H QF CENTRAL STAR A . GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
CH , .50 ARCMIN W OF CENTRAL STAR
|
||
CH , 1.45 ARCMIN E OF CENTRAL STAR
|
||
CH . .65 ARCMIN W OF CENTRAL STAR
|
||
CH , .5 ARCMIN W OF CENTRAL STAR, .15 ARCMIN S OF RG C
|
||
CH , 1.1 ARCMIN E OF CENTRAL STAR
|
||
CH . .5 ARCMIN E OF CENTRAI STAR
|
||
CH 1.0 ARCMIN E OF CENTRAL STAR, 15 ARCMIN S OF RG G
|
||
CH 1.2 ARCMIN W OF CENTRAL STAR
|
||
|
||
655
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
264 { 195.1 . C = 1.64 (HYDROGEN LINES) 271 ( 197.8 -2..3 )
|
||
WAVE IDE NT N RG REF OBS I CORR I WAVE IDENT N RG REF OBS I CORR I
|
||
3 72 7 < 0 11)1 1 J53 78.00 240.73 6731 (S II I 1 B GEK 1.00» 1.00*
|
||
2 J 53 58.00 179.01
|
||
1 J 53 100.00 1 00.00 100.00 100.00 REGICN KEY IREG ION.REFERENCE» EX PLANATION I
|
||
2 J 53 100.00 100.00 1 Qfl »..QQ 1QQ.QQ A . GEK , REGIONS A AND B ON DIFFERENT SCALES
|
||
1 J 53 1020.00 1010.00 292.17 289.30
|
||
1 2 J 53 1000.00 1010.00 286.44 289.30
|
||
(N I I ) 1 1 J 53 214.00 l92.t0Q _60.t_£2 ÎH.30 .
|
||
I 2 J53 170.00 192.00 48.0 54.30
|
||
II ) 1 1 J 53 87. 00 93.50 22.91 24.62
|
||
L_ 2 J53 100.QQ 93.50 .-26.33_ 24.62 . BEOIN S 272 U97.8 -2.3) , Q.90 (HYDROGEN LINES!
|
||
1 J53 100.00 85.50 26. 14 22.35
|
||
2 J 53 71.00 85.50 18.56 22.35 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I 1 CLZ2 100.00 100.00 100.00 100.00
|
||
REGICN KEY (PEG IDN»REFE RENCE»EXPLANAT ION ) 6563 H I 1 CLZ 2 565.00 565.00 284.50 284.50
|
||
1, J53 , RA 5H 25.9M, NEBULA AROUND LAMBDA ORI 6575 (N II ) 1 CLZ2 340.00 340.00 170.52 170.52
|
||
21 J 53 t RA 5H 33.3M, NEBULA ARCUND LAMBDA ORI 6723 (S II ) 1 CLZ2 230.00 230.00 110.39 110.39
|
||
|
||
|
||
BEGIN S _263 t 196t4 -1.7) 1.65 (RADIQ-H,„ALTAI BEGIN S 280 (208.7 -2.6) .JLlQ (NO CALCULATION)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
-3-12 7 _LG II ) 1 MAT 154.00 478.-iZ_ 6563 H I 1 GEK 1.00* It.OQ*
|
||
CGLZ 100.00 100.00 100.00 100.00 6584 (N II ) l GEK 0.33*A
|
||
A CH 100.00 1 00.00 100.00 100.00
|
||
B CH 100.00 100.00 100.00 100.00 END S 280 (208.7 -2.6)
|
||
C CH 100.00 100.00 100.00 100.00
|
||
D CH 100.00 l00.00 100.00 100.00
|
||
E CH 100.00 1QQ.QQ 1Q0.QQ . 10.Q.QQ
|
||
CH 100.00 100.00 100.00 100.00 C = 0.0 (NO CALCULATION)
|
||
CLZ2 100.00 1 00.00 100.00 100.00
|
||
GEK 1QQ.QQ i CO. on -1QQ.Q0 -100.00 WAVE IPENT N_JiS—B.E.F. OBS I AVE Q CORR . I AVE C
|
||
MAT 100.00 100.00 100.00 100.00 6563 GEK 1.00* 1.00*
|
||
(O I II ) 2 CGLZ 40.00 36.91 6584 (N ) 1 GEK 0.33*A 0.33*A
|
||
CH 15.00 1 5. QQ 13.84 13.84 671 7 LS— ) 1 GEK 1.50»A. 1.50»A
|
||
MAT 56.00 51.68 6731 (S II ) 1 B GEK
|
||
4991 ( n 11 n i CL72 45.00 40.45
|
||
5007 (0 i n ) 2 CGL7 40.00 35.45 REGICN KEY (REG ION.REFEREMCE.EX PLANAT ION)
|
||
A CH 35.00 29.00 31.02 25.70 REGIONS A AND B ON DIFFERENT SCALES
|
||
B CH 30. 00 29.00 26. 59 25.70
|
||
E CH 25.QQ 29.00 22.16 25.70
|
||
GEK 26. 00 23.05
|
||
2 MAT 56. 00 49.64
|
||
II J L- A CH 7Q..QQ 20.08,
|
||
B CH 65.00 80.00 18.65 22.95 C = 1.50 (ESTIMATE)
|
||
F CH 75.00 80.00 21.51 22.95
|
||
F CH 1 IQ.00 80.00 3) . 56 22.95 N RG REF OBS I AVE Q CQRR I
|
||
CH 660.00 755.71 187.61 214.82 6563 1 J53 1.00* 0.32*
|
||
8 CH 600.00 755.71 170.56 214.82 6584 II ) 1 J53 0.21* 0.07*
|
||
C CH 655.00 755.71 1B6. 19 214.B2 671 7 Till .153 0.30* 0.09»
|
||
CH 600.00 755.71 170.56 214.82
|
||
CH 635.00 755.71 180.51 214.82
|
||
CLZ2 660.00 -7-55-. 71 187.61 ¿14.82
|
||
GEK l.CO* 0. 28*
|
||
MAT 1480.00 755.71 420.71 214.82
|
||
6575 (N CLZ2 325.00 325.00 91.71 91.71 BEGIN SE C = 1.50 (ESTIMATE)
|
||
6594 (N CH 255.00 254. 57 71. 57 71.45
|
||
CH
|
||
CH
|
||
200.00 254.57
|
||
210.00 254.57
|
||
56. 13
|
||
58.94
|
||
71.45 WAVE IDENT N RG REF □ BS I CORR I AVE C
|
||
71.45 6563 H I
|
||
D CH 270.00 254. 57 75. 78 71.45 6584 (N II ) _1l J53
|
||
J53 1»QQ*
|
||
0.23* Q« 32*
|
||
0.07*
|
||
E CH 195.00 254.57 54.73 71.45 6717 ( S II ) 1 J 53 0.12* 0.04*
|
||
F CH 315.00 ¿54.57 «-41 71.45 6731 II ) 1 J 53 0. 14* 0.04*
|
||
GEK 0. 43* 0. 12*
|
||
1 MAT 337.00 94. 58
|
||
( S 11)2 A CH 120.00 31.34
|
||
B CH 100.00 26. 12
|
||
C CH 1 85.00 48. 32
|
||
Q CH 285.00 74.43 C = 1.50 (ESTIMATE)
|
||
CH 115.00 30. 03
|
||
CH 22 5 .,00 58. 76 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
GEK 1.40*A - .QjJi7*A 6563 H I 1 1 J 53 1. 00* 0.32*
|
||
6723 ( S II ) 1 CLZ2 120.00 31.24 l 2 J 53 1.00* 0.32*
|
||
6731 ( S 11)2 A CH 120.00 31.11 1 3 J 53 1.00* 0.32*
|
||
2_ B CH 100.00 25.92 ) 1 1 J53 .Q*42*... Q. 13*
|
||
C CH 185.00 47.96 l 2 J 53 0.29* 0.09*
|
||
D CH 285.00 73. 88 l 3 J53 0.21* 0.07*
|
||
E JCH. .-115«.QQ 29. 81 (S II) 1 3 J53 0.25* 0.07*
|
||
2 CH 225.00 58. 33
|
||
1 GEK 1.00* 0. 26* REGICN KEY (REGION,REFERENCE,EXPLANATION)
|
||
...132.4- 11)1 MAT 17.QQ 3. 30 3.3Q 1, J53 , RA 21H 57. 1M
|
||
2, J53 , RA 22H 06.6
|
||
REGICN KEY (PEG IDN,REFERPNCE,EXPLANAT ION ) 3, J53 , RA 22H 00.5
|
||
_£H . .35 ARCMIN NE OF CENTRAL STAR
|
||
8, CH .50 ARCMIN NNE OF CENTRAL STAR (103.3
|
||
C, CH .45 ARCMIN W OF CENTRAL STAR
|
||
Dt CH 1.2 ARCMIN NE OF CENTRAL STAR
|
||
CM .40 ARCMIN NNE OF CENTRAL STAR
|
||
F , CH .45 ARCMIN W OF CENTRAL STAR, .10 ARCMIN S OF REGION C (204.4 -13.7) C = 0.0 (NO CALCULATION)
|
||
A . GEK REGIONS A AND B ON DIFFERENT SCALES
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
6563 HI l PA 1.00* 1.00*
|
||
6584 LU III 1 ELâ 0.23* 0.23*
|
||
P.FGIN R (197.8 -C = 0.0 í NO CA) rill ATTON)
|
||
WAVE IDENT N RG REF OBS I CORR I
|
||
6563 _h I 1 A G.E-K- 1.00* 1« QQ*
|
||
6584 (N II ) 1 A GEK 0 .42* 0.42*
|
||
6717 (S I I ) 1 P GEK I.50*A 1.50*A
|
||
|
||
656
|
||
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
EXTRAGALACTIC DIFFUSE NEBULAE (LHC
|
||
WAVE IDENT N RG REF □BS I AVE 0 CORK I AVE C
|
||
30 (LHC ..»♦C = Q,lfr (HYPROGEN LINES) 3889 HE I 2_ l ÂFF 13.80 ■ 15.1*
|
||
FE 26.00 28.52
|
||
WAVE IDENT N RG REF DBS I AVE 0 CORR I AVE C A J059 38.00 »1.69
|
||
3554 HE I 1 WA 0. 10 0.10 0.11 0.11 B J059 »8.00 52.66
|
||
3587 HE I WA 0.30 0.30 0.34 0.34 C J059 »2.00 »6.07
|
||
3614 HE I WA 0.30 0.30 0.34 0.34 D J059 38.00 41.69
|
||
3634 HE I WA 0.40 0t*0. 0.45 Qt»5 WA 16.50 18. 10
|
||
3674 I 0.13 0.13 0.15 0.15 (NE III) 1 1 AFF 7.90 8.07 8.60 8.78
|
||
3676 I 0.25 0.25 0.28 0.28 1 FE 11.00 8.07 11.98 8.78
|
||
3679 __H I_ 0.42 0.42 0.47 0.47 2 A J059 40.00 »3.56
|
||
3682 WA 0.51 0.51 0.57 0.57 B JO59 66.00 71.87
|
||
3686 WA 0.56 0.56 0.63 0.63 C J059 56.00 60.98
|
||
3691 0.81 0.81 0.91 0.91 D J059 50.00 5».»5
|
||
3697 H I WA 0.98 l. 10 WA 5.30 8.07 5.77 8.78
|
||
3704 H I WA 1.75 1.96 1 AFF 14.50 13.»3 15.79 14.62
|
||
3705 HE I 1.75 1.96 FE 16.00 13.43 17.42 14.62
|
||
3711 H I WA 1.35 1.51 A J059 40.00 43.55
|
||
3722 H I WA 3.85 4.30 B J059 66.00 71.85
|
||
3722 (S III) WA 3.85 *t3Q 2 C JP.59 ., 56.00 99*96
|
||
1 AC KB 93.00 103.82 D J059 50.00 54.43
|
||
1 l AFF 49.00 54.70 WA 9.80 13.43 10.67 14.62
|
||
1 A AFF lOUOO US* 49 »009 HE I WA 0.20 9*20 ■ _9.*22- 0*22
|
||
1 B AFF 111.00 141.21 HE I 1 1 AFF 1.50 3.46 1.62 3.75
|
||
1 C AFF 86.00 89.62 1 FE 3.00 3.46 3.25 3.75
|
||
_J D AFF 203.00 -2*6.11. _L A JQ59 10.00 3 *.*6. - 10.83 _3.J.I5.
|
||
1 E AFF 170.00 170.00 B J059 3.00 3. 3.25 3.75
|
||
1 F AFF 167.00 182.62 C J059 3.00 3.46 3.25 3.75
|
||
_J G_a,lf_ 183.90 199*71 -J P JQ59 2.00 3*46 - 2.17 3.75
|
||
H AFF 219.00 219.00 WA 1.73 3.46 1.87 3.75
|
||
FE 102.00 113.87 (S II ) 1 1 AFF 0.90 1.57 0.97 1.69
|
||
A FE 1.00* 1.12» _1 A JQ59 3.99 1.57 3.23 1.69
|
||
l B FE 1.00* 1.12* B J059 3.00 1.57 3.23 1.69
|
||
1 C FE 1.00* 1.12* C J059 1.00 1.57 1.08 1.69
|
||
I R1 FE -JL» 0.9* 1.12* ■D J.Q3.9- 1.99 1.57 1.08 1.69
|
||
1 R2 FE 1.00* 1.12* 2 1 PTP2 1.24 1.34
|
||
l R3 FE 1.00* 1.12* 1 WA 0.51 0.55
|
||
R4 FE 1.00* . 1.12» II ) 2 1 PTP2 1.24 1.34
|
||
1 A J059 211.00 235.55 WA 0.26 0.26 0.28 0.28
|
||
1 B J059 113.00 126.15 AFF 22.80 29.33 24.50 31.51
|
||
_1 C JP59 .135.00 150.71 _E£ 30. QQ 29.33 32.73 31.51
|
||
1 D J059 163.00 181.96 A J059 34.00 29.33 36.53 31. 51
|
||
2 1 PTP2 64.00 71.45 B J059 38.00 29.33 40.83 31.51
|
||
_2 2 PTP2 1120.QQ 1250.30 C JQ59 43.00 29.33 46-20 31.51
|
||
2 3 PTP2 170.00 189.78 D J059 37.00 29.33 39.75 31.51
|
||
2 4 PTP2 170.00 189.78 MA65 24.00 29.33 25.79 31.51
|
||
_1 kLA 58.00 A 64.75 A 1 PTP2 ..22.0.0— 29.33 23.64 31.51
|
||
1 1 AFF 52.00 53.03 2 PTP2 23.00 29.33 24.71 31.51
|
||
l FE 98.00 109.37 WA 19.50 29.33 20.95 31.51
|
||
A FE 0.95* 1.06* WA 0^15- 0.15 Q. 16 0-16
|
||
1 B FE 1.26* 1.41* 4143 HE I 1 0.18 0.18 0.19 0.19
|
||
1 C FE 1.05* 1. 17* 4267 C II 1 0.07 0.07 0.07 0.07
|
||
1 R1 FE Q-9a*A .1. Q9*A 4340 _H I L_ 42.30 48.89 44.42 51.29
|
||
1 R2 FE 0.71* 0.79* 1 AFF 42.00 48.89 44.11 51.29
|
||
1 R3 FE 1.15* 1.2 8* A AFF 42.00 48.89 46.75 51.29
|
||
1 R4 FE 1.35*A 1.51*A B AFF 42.00 4B.89 46.75 51.29
|
||
1 PTP2 64.00 71.42 AFF 46.00 48.89 46.85 51.29
|
||
2 PTP2 120.00 133.92 AFF 43.00 48.89 46.85 51.29
|
||
3 PTP2 170.00 189.72 AFF 48.00 48.89 48.00 51.29
|
||
4 PTP2 170.00 189.72 AFF 45.00 48.89 46.83 51.29
|
||
WA 60.00 66.96 AFF 46.00 48.89 46.85 51.29
|
||
WA 2.11 2. 11 2.35. 2.35 AFF 47.00 48.89 471 QQ 51*.29_
|
||
3750 2.80 2.80 3.12 3.12 FE 56.00 48.89 58.81 51.29
|
||
2.81 2.80 3.13 3.12 J059 61.00 48.89 64.06 51.29
|
||
. 3770 1_J AFF 3.00 2.22 3.33 2.47 J059 61.00 48.89 64.Q6 51.29
|
||
B 1 J059 2.00 2.22 2.22 2.47 C J059 62.00 48.89 65.11 51.29
|
||
C 1 J 05 9 1.00 2.22 l.ll 2.47 D J059 68.00 48.89 71.41 51.29
|
||
D 1 J059 2-00 2.22 2.22 2.47 HA 65 44.00 48.89 -4_6_._2_L_ 51.29
|
||
WA 3.10 2.22 3.44 2.47 1 PTP2 42.00 48.89 44.11 51.29
|
||
1 AFF 3.90 4.08 4.32 4.53 2 PTP2 43.00 48.89 45.16 51.29
|
||
A J059 B .00 4.08 8.87 4.53 48.70 48.89 51.15 51.29
|
||
l B J059 2.00 4.08 2.22 4.53 (0 III) 1 AC KB 2.80 3.21 2.93 3.37
|
||
1 C J 059 2*00 4.08 2.22 4. 53 1 1 AFF 3.70 3.21 3.88 3.37
|
||
1 D J 059
|
||
WA
|
||
4.00 *08 * 53 L_ FE i t 5_Q_ 3.21 ■3*£I_. « 3.7
|
||
.60 4.08 5.10 4.53 1 PTP2 3.26 3.21 3.42 3.37
|
||
l AFF 0.70 0.82 0.77 0.91 2 PTP2 3.01 3.21 3.15 3.37
|
||
0.95 C . 82 1.05 0.91 WA 3.00 3.21 3*1.4 .
|
||
1 AC KB 5.50 8.51 6.07 9.40 4388 HE I l WA 0.40 0.40 0.42 0.42
|
||
1 1 AFF 5.50 8.51 6.07 9.40 4471 HE I 1 1 AFF 3.60 4.78 3.74 4.96
|
||
_i A J059 9.00 8.51 9.93 -9 ..40 FE 4.00 **79 *96
|
||
1 B J059 12.00 8.51 13.24 9.40 B JO59 6.00 4.78 6.23 4.96
|
||
l C J059 9.00 8.51 9.93 9.40 C J059 7.00 4.78 7.27 4.96
|
||
_L D J059 -11.00 B. 51 12.14 9.40 _1 P—0059 6 * O.Q— 4*2? 4.96
|
||
l WA 7.60 8.51 8.39 9.40 L PTP2 4.09 4.78 4.25 4.96
|
||
(NE III) 1 AC KB 25.00 40.79 27.49 44.85 2 PTP2 3.95 4.78 4.10 4.96
|
||
_l I AFE 26.70 -40.79 ¿9.36 44.85 _WA 3.60 4.78 3.74 4.96
|
||
1 FE 33.00 40.79 36.29 44.85 4529 WA 0.09 A 0.09 A
|
||
1 A JO59 47.00 40 • 79 51.68 44.85 4562 WA 0.09 0.09 0.09 0.09
|
||
_l B J059 77.00 40.79 64.67 44.85 4657 HA 0.40 0.40 0*41 0*4.1 -
|
||
I C J059 60.00 40.79 65.97 44.85 4713 0.60 0.61
|
||
1 D J059 49.00 40.79 53.88 44.85 4779 0.60 0.60
|
||
_1 1 PTP2 27.70 40.79 . -3.0^46 44.85 4B61 -1QQ.QQ . 100.00
|
||
27.00 40.79 29.69 44.85 1 AFF 100.00 100.00 100.00 100.00
|
||
35.50 40.79 39.03 44.85 A AFF 100.00 100.00 100.00 100.00
|
||
3889 _H L ACKB 14.00 15.36 100.QQ 1QQ.QQ 100.00
|
||
2 1 AFF 13.80 15.14 C AFF 100.00 100.00 100.00 100.00
|
||
2 FE 26.00 28. 52 D AFF 100.00 100.00 100.00 100.00
|
||
_2 A JQ59 38.00 41.69 _1 E AFF 100.00 100.QQ 100.00 100.QQ
|
||
2 B J059 48.00 52.66 AFF 100.00 IOC.00 100.00 100.00
|
||
2 C J059 42.00 46.07 G AFF 100.00 100.00 100.00 100.00
|
||
2 D J059 -3a. QQ 41 ^0.9 H AFF. . 1QQ-.QQ 100.00 100.QQ 100.00
|
||
16.50 18.10 100.00 100.00 100.00 100.00
|
||
ACKB 14.00 15.36 A J059 100.00 100.00 100.00 100.00
|
||
(LHC (LHC
|
||
658
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
(LHC _äfl LLHC_
|
||
WAVE IDENT N RG REF OBS I AVE □ CORA AVE C E« AFF FAR EAST OF CENTER
|
||
4861 H l _J B JQ?^- 1M«QP 100.90- IQQi.QS) . -F, A£F . FAR SOUTHWEST OF CENTER
|
||
C J059 100.00 100.00 100.00 100.00 G. AFF FAR SOUTH OF CENTER
|
||
D J059 100.00 100.00 100.00 100.00 Hi AFF FAR SOUTHWEST OF CENTER*
|
||
MA 65 100 00 100.00 100.00 iQPïQP— A, FE NORTHEAST LOOP
|
||
1 PTP2 100.00 100.00 100.00 100.00 B, FE , NORTHEAST LOOP* EAST OF A
|
||
2 PTP2 100.00 100.00 100.00« 100.00 Rl* FE , CENTRAL *BRIGHT PART OF NEBULA
|
||
3 PTP2 100 00 100.00 ioo.oo 100.00 R2* FE . ON CENTRAL STAR
|
||
4 PTP2 100.00 100.00 100.00 100.00 R3, FE , TO SIDE OF CENTRAL STAR
|
||
100.00 100.00 100.00 100.00 R4* FE , OTHER SIDE OF CENTRAL STAR
|
||
4922 HE 1 1.50 1.50 1.49 1.49 AO* J059 * REGIONS A-D ARE 4 SECTIONS OF A NORTH-SOUTH SLIT
|
||
AC KB 164.00 149.06 162.73 147.89 1, PTP 50 ARCSEC N OF HD 38268
|
||
1 AFF 173.00 149.06 171.66 147.89 2* PTP 50 ARCSEC E, 65 ARCSEC N OF HD 38268
|
||
A AFF 174.00 149.06 171.06 14J*_8g- 3* PTP 155 ARCSEC W, 50 ARCSEC N OF HD 38268
|
||
l B AFF 163.00 149.06 160.25 147.89 105 ARCSEC W* 65 ARCSEC N OF HD 38268
|
||
1 C AFF 169.00 149.06 168.51 147.89
|
||
1 D AFF 131.00 149_._06_ 129.23 147.89 C = 0.35 FOR RG A, (HYDROGEN LINES)
|
||
E AFF 136.00 149.06 136.00 147.89 C = 0.35 FOR RG REF AFF (HYDROGEN LINES)
|
||
F AFF 133.00 149.06 132.16 147.89 C = 0.06 FOR RG REF AFF (HYDRUGEN LINËS)
|
||
1 G AFF 132.00 149.06 131.61 147.89 C = 0.28 FOR RG REF AFF (HYDROGEN LINES)
|
||
1 H AFF 116.00 149.06 116.00 147.89 C = 0.0 FOR RG REF AFF (HYDROGEN LINES)
|
||
1 FE 182.00 149.06 180.59 147.89 C = 0.13 FOR RG REF AFF (HYDROGEN LINES)
|
||
A J059 142.00 149.06 149«.?9 147t8-9 C = 0.06 FOR RG REF AFF (HYDROGEN LINES)
|
||
1 B J059 159.00 149.06 157.77 147.89 C = 0.0 FOR RG H,, REF AFF (HYDROGEN LINES)
|
||
1 C JO59 136.00 149.06 134.94 147.89
|
||
1 D JQ59 125*90 149.96- 124*Itt-. 147,89.. _EW LLM£ I
|
||
150.00 149.06 148.84 147.89
|
||
(0 III) AC KB 499.00 434.35 493.20 429.25
|
||
1 AFF 499.00 434.35 493.20 . 429.25
|
||
A AFF 498.00 434.35 485.42 429.25 C = 0.32 (HYDROGEN LINES)
|
||
B AFF 469.00 434.35 457.15 429.25
|
||
f. AFF 485.00 434.35- 482.88 429.25 -WAVE IDENT N RG REF -AV-E-Q CQ&fi-l. -AYE C-
|
||
AFF 376.00 434.35 368.38 429.25 3726 (0 II ) 2 A PTP2 110.00 137.08
|
||
AFF 390.00 434.35 390.00 429.25 3729 (0 II ) 2 A PTP2 110.00 137.00
|
||
AFF 382.00 434.35-. 378.39 429.25. 3868 (NE III) I A PTP2 23.00 - 23.00 27.81 27.81
|
||
1 G AFF 379.00 434.35 377.34 429.25 4068 ( S II) 2 A PTP2 0.53 0.62
|
||
1 H AFF 333.00 434.35 333.00 429.25 4076 (S II ) 2 A PTP2 0.53 0.62
|
||
-1 E£_ 141. 434.35 732.38 429.25 4102 —ti I 1 A- PLP2 - 21.00 —21-..QQ _ 24.24 24.24
|
||
1 A J059 383.00 434.35 378.55 429.25 4340 A PTP2 43.00 43.00 47.43 47.43
|
||
1 B JO59 280.00 434.35 276.74 429.25 4363 (0 III) 1 A PTP2 1.89 1.89 2.08 2.08
|
||
1 X JE59_ 256.0-0 . 434.35- 253.02 429.25 -4412 HE, L _L A PTP2 3.66 3.66 3.94 3.94
|
||
I D J059- 267.00 434.35 263.90 429.25 4861 I 1 A PTP2 100.00 100.00 100.00 100.00
|
||
1 L PTP2 510.00 434.35 504.07 429.25 5007 (0 III) 1 A PTP2 42C.00 420.00 410.29 410.29
|
||
_1 2 PTP2- 520.90 434.35- 513.96 429.25 5K7A HF I J A PTP? 13.00 13^00 - 11.10 11.IQ
|
||
3 PTP2 500.00 434.35 494.19 429.25 6300 (0 1 ) 1 A PTP2 1.59 1.59 1.28 1.28
|
||
1 4 PTP2 390.00 434.35 385.46 429.25 6311 (S III) 1 A PTP2 1.42 1.42 1.14 1.14
|
||
_l_ 539.99 43-4.35_ 523.84 429.25 6563 _hi L 1 A PTP? 340.00 .349.99 266.49 266.« 49—
|
||
5518 (CL III) 1 PTP2 1.02 1.02 0.97 0.97 6584 (N II ) 1 A PTP2 15.00 15.OC 11.72
|
||
5538 (CL III) 1 PTP2 1.21 1.21 1.14 1.14 6678 HE I 1 A PTP2 3.72 3. 72 2.88
|
||
5755 LN II i- ACKB— 9.25 9.25 0.23 0.23 _6.7 U _(_S II ) A- PT-P.2 -9.61 9 «El 7.41 7_«_41-
|
||
ACKB 13.80 14.50 12.75 13.40 6731 (S II ) 1 A PTP2 8.18 8. 18 6.30 6.30
|
||
MA65 17.20 14.50 15.89 13.40 7065 HE I 1 A PTP2 3.72 3.72 2.77 2.77
|
||
1 PTP2 14.90 14:.5Q- 17.94 13.49 —7.136 ( A& mi J A PT-P.2 14.00 14.00 10.36 10.36
|
||
1 2 PTP2 13.00 14.50 12.01 13.40 7320 (0 II ) A PTP2 4.88 3.55 3.55
|
||
(0 1 ) 1 ACKB 5.90 2.38 5.30 2.14 7330 (0 II ) A PTP2 4.88 3.55 3.55
|
||
J 1 PTP2— 0.58 2.38 Q «52 2.14
|
||
PTP2 0.66 2.38 .60 2. 14 REGION KEY (REGI ON,PEFERENCE,EXPLANATI ON)
|
||
(S II ) ACKB 2.20 1.79 1.98 1.61 A* PTP2, NGC 1714
|
||
PTP2 1.76 1.79 1.58 1.61
|
||
PTP2 1.42 1.79 1.27 1.61
|
||
6548 (N II ) ACKB 8.40 8.40 7.44 7.44
|
||
■..6563.- H I ACKB 405.00
|
||
319.00
|
||
36¿A67_
|
||
365.67
|
||
358.49
|
||
282.37
|
||
323t68,
|
||
323.68
|
||
1 MA 65 323.68
|
||
1 i PTP2 400.00 365.67 354.07 1.50 (HYDROGEN LINES)
|
||
1 2 PTP2 380.00 365.67 336.36 323.68
|
||
1 3 PTP2 360.00 365.67 318.66 323.68 WAVF IDENT N RG REF OBS I CÜRR I AVÈ C
|
||
1 4 PTP2 330.00 365.67 292.11 323.68 3727 (0 II ) 1 DAF 150.00 420.49
|
||
6584 JLN II L _1 A£KB_ 29.59 21.07 18.12 18.63 3868 (NE III) 1 DA F 10.00 24.34 24.34
|
||
1 1 PTP2 11.80 21.07 10.43 18.63 3969 HI 2 DAF 9.00 19.97
|
||
1 2 PTP2 20.00 21.07 17.68 18.63 3969 (NE III) 2 DAF 9.00 19.97
|
||
1 4 PTP2 32*00 21.07 28.29 18.63 4101 HI 1 DAF 21.00 41.14
|
||
1 ACKB 9.60 6.45 8.45 5.67 4340 DAF 11.00 11.00 17.41 17.41
|
||
1 1 PTP2 5.01 6.45 4.41 5.67 4861 DAF 100.00 100.00 100.00 iOO.OO
|
||
_1 2 ACKB PTP2- 4.73 *45_ 5.67 4991 DAF 150.00 150.00 136.15 136.15
|
||
(S II ) 1 14.20 17.46 12.47 15.33
|
||
1 PTP2 7.64 17.46 6.71 15.33
|
||
2 PTP2 16.00 17.46 14.05 15.33
|
||
1 3 PTP2 32.00 17.46 28.09
|
||
2 4 PTP2 43.00 37.75
|
||
(S II ) 1 ACKB 11.50 15.97 10-09 14.02 (LMÇ. C = 0.16 (C = 0.1Q6CSC 8)
|
||
1 1 PTP2 7.30 15.97 6.40 14.02
|
||
1 2 PTP2 13.10 15.97 11.49 14.02 WAVE IDENTN RG REF ’ OBS I CORR I
|
||
1 3 PTP2 32.00 15.97 28.07 14.02 - 372.7 LQ I LI1 1 PAF -2-09*09 223.24
|
||
2 4 PTP2 43.00 37.73 3868 (NE III)
|
||
1 1 DAF 25.00 27.49
|
||
7065 1 ACKB 4.60 4.09 3.97 3.53 3969 HI 21 DAF 14.00 15.24
|
||
_1 1 PTP2- .51 4.09 3.89 3.53- 3963 (NE III)
|
||
2 I DAF 14.QO 15.24
|
||
1 2 PTP2 3.15 4.09 2.72 3.53 4101 1 DAF 34.00 34.00 36.53 36.53
|
||
7135 1 ACKB 22.70 19.23 19.53 16.55 434C 1 DAF 50.00 50.00 52.51 52.51
|
||
1 1 PTP2 17*99 19.23 H*-63 16.5§_ -M6I— L -DAL. . 199-iP Q_ 109.99 190*99 190*09
|
||
1 3 PTP2 18.00 19.23 15.49 16.55 (0 III) 1 1 DAF
|
||
7136 (CL III) 1 2 PTP2 18.00 18.00 15.49 15.49
|
||
7320 (0 IT ) 7 1 PTP2 3.36 2.87 -REGION KEY tREGÍQN.1.FEFERENCEiEXPLANATION)
|
||
2 PTP2 4.89 4.17 I. DAF , NGC 1 73 6
|
||
7330 ACKB 6.00 5. 12
|
||
1 PTP2 3.3-6 2.87 -END N—
|
||
RFGION KEY ( REGI QN.REFER ENCE * EXPLANAT-IQN1
|
||
1* AFF BRIGHTEST PART OF NEBULA BEGIN N 9 ( LMC ) C = 0.16 (C = 0.10*CSC B)
|
||
AFF NORTHEAST OF CENTER
|
||
B. AFF * SOUTHWEST OF CENTER- -WAVE IDENT N RG REF OBS I AVE 0 CORK I AVÉ C
|
||
AFF SOUTHEAST OF CENTER 3727 II DAF 260.00 290.22
|
||
AFF NORTHWEST OF CENTER 4861 I DAF 100.00 100.00 100.00 100.00
|
||
(LMC
|
||
659
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
(LHC LI Í LHC
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
vm _LQ LLU 1 DAf . 21Q.QQ ■ 21Q.0Q -LQI.afl.jL- 207.84 4340 _tí I 1 OAF , flfla.QQ 38.00 57.63
|
||
4861 DAF 100.00 100.00 100.00 100.00
|
||
(LHC 4991 (0 IIII 1 OAF 195.00 195.00 178.60 17Ó.60
|
||
|
||
BEGIN N 11 (LHC C = 0.38 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVË C 0.68 (HYDROGEN LINES)
|
||
.-37¿7 (0 II) 1 AB DAF . 165.iM .214. ?_4 —
|
||
l CD DAF 220.00 285.65 WAVE IDENT N RG REF OBS I CORRI "avTc"
|
||
l E DAF 250.00 324.60 3727 (O II ) 1 A DAF 220.00 351.04
|
||
1 F DAF 300.00 389.52 3868 (NE III) 1 A DAF _4L*Û0_ 70.35
|
||
1 I DAF 360.00 467.42 3969 HI 2 A DAF 15.00 21.53
|
||
1 B DUF 118.00 153.21 3969 (NE III) 2 A DAF 15.00 21.53
|
||
3835 1 E DAF 23.00 29.07 17.94 4101 HI 1 A DAF 35.00 . ßflt.OQ 47,48 47.48
|
||
1 B DUF 5.40 14.20 6.82 17.94 4340 H I 1 A DAF 38.00 38.00 46.80 46.80
|
||
(NE III) l AB DAF 28.00 28.94 35.08 36.26 4861 H I 1 A DAF 100.00 100.00 100.00 100.00
|
||
1 CD....D4F, . ■29,94 47 « 61, ?6t 26 -4991 _ < o i.m i -A, .Q.A_F_ 270,00 -270,09.. . 2 5-9-,AO 2 §.9,4.0 -
|
||
l E DAF 55.00 28.94 68.90 36.26
|
||
1 F DAF 11.00 28.94 13.78 36.26 REGION KEY (REGIÜN,REFERENCEtEXPLANATI ON)
|
||
1. . P DUF. -L2jJL0 . ¿.9.t94 . 1 36.26 A. DAF . NGC 1829
|
||
3889 H I ? B DUF 12.70 15.82
|
||
3889 HE I 1 B DUF 12.70 12.70 15.82 END 23 (LHC
|
||
3969 H I_ 2 AB....DAF,. 12-t.cm. .14,69.
|
||
2 CD DAF 14.00 17.13
|
||
2 E DAF 11.00 13.46
|
||
_2 E—DAF_ .00 . 7,34- BEGIN N. 30 (LHC C = 0.21 1HYDRQGEN LINES)
|
||
2 B DUF 14.50 17.74
|
||
(NE III) 2 AB DAF 12.00 14.68 WAVE IDENT N RG REF OBS I CORR I
|
||
2 CD DAF 14. QQ 17.13, . 3727 (D II ) 1 B DAF 100.00 115.52
|
||
2 E DAF 11.00 13.46 3868 (NE III) 1 B DAF 16.00 16.00 18.12 18.12
|
||
2 F DAF 6.00 7.34 3969 HI 2 B DAF 6.00 .71
|
||
_2 6—DUF - 14,5.0 -17.14- 3969 (NE III) 2 B DAF 6.00 6.71
|
||
AB DAF 15.00 27.02 17.79 32.05 4101 B DAF 49.00 49.00 53.84 53.84
|
||
1 CD DAF 20.00 27.02 23.72 32.05 4340 1 B DAF 44.00 44.00 46.92 46.92
|
||
_1 E DAF 49. QQ 27.02 53.10 32.05 4471 H£. -I_ _J B DAF ¿5-^00- -25 ..00- 26.26 26.26-
|
||
2 F DAF 28.00 33.20 4861 I 1 B DAF 100.00 100.00 100.00 100.00
|
||
1 B DUF 24. 10 27.02 28.58 32.05 4991 III) 1 B DAF 80.00 80.00 78.92 78.92
|
||
.4340 1 . AB .DAF .41,00 ...43, 96 . ■ ■46, 06- 49.27
|
||
1 CD DAF 40.00 43.86 44.94 49.27
|
||
1 E DAF 53.00 43. 86 59.54 49.27
|
||
_2 F—DAF- 3,a,.op -42..6.9-
|
||
1 I DAF 44.00 43.86 49.43 49.27
|
||
1 B DUF 41.30 43.8o 46.40 49.27 C = 0.11 (HYDROGEN LINES)
|
||
—LD 111.). J B Dll F . L.5Q ■ -1, 5Q, 1.68
|
||
1 AB DAF 7.00 8.65 7.65 9.45 WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
1 CD DAF 6.00 8.65 6.56 9.45 3727 (0 II ) 1 B OAF 190.00 204.92
|
||
_J E DAF 17.00 . 8,65 18.58, 9. .4 5 _1 f. AC KB 190.^00 204.92
|
||
F DAF 2.00 2.19 C DAF 213.00 229.72
|
||
B DUF 4.60 8.65 5.03 9.45 D DAF 370.00 399.05
|
||
-1FE LIU . L . B—DJF . -0,10 0.70 0.73 Q.,73 -F.DAF . 34Q.-QQ 864.70
|
||
4712 HE I 2 B DUF 0.40 0.41 1 B DUF 136.00 146.6Ô
|
||
4712 (AR IV ) 2 B DUF 0.40 0.41 3771 H I l B DUF 2.20 2.20 2.37 2.37
|
||
4861 __ü_ AB—DAF 100.00 100.00 100.QO 8798 H L_ _J B DUF 3.80 ,4.QB
|
||
DAF . . 100,110.
|
||
100.00 100.00 100.00 100.00 C DAF
|
||
3j-8Q.
|
||
11.00 7.27 11.77 7.78
|
||
C DAF 100.00 100.00 100.00 100.00 D DAF 6.00 7.27 6.42 7.78
|
||
CD DAF 100.00 100.00 100.00 100.00 B DUF 4.80 7.27 5.14 7.78
|
||
E DAF 100.00 100.00 100.00 100.00 B DAF 16.00 32.83 17.08 35.05
|
||
F DAF 100.00 100.00 C AC KB 66.00 32.83 70.45 35.05
|
||
J—DA£_ 100,00 . 1-QQ-, 00- -100,0.0.- l.QQt.QQ _J C .DA F , ,4-L,QP... _3L«-fl2— +3,76 3.5,05.
|
||
1 B DUF 100.00 100.00 100.00 100.00 D DAF 12.00 32.83 12.81 35.05
|
||
4922 HE I 1 B DUF 1.30 1.30 1.29 1.29 F DAF 14.00 32.83 14.94 35.05
|
||
4959 _LQ LLU 1 B DAF 115.00 -LQ4.,. 3-3„ 112,89 l.Q.2_«_+2.. -B PUF 48.00 32.83 51.24 35.05
|
||
1 C DAF 86.00 104.33 84.42 102.42 3889 H I DUF 13.10 13.96
|
||
l B DUF 112.00 104.33 109.95 102.42 3889 HE I DUF 13.10 13.96
|
||
4991 _LQ LLLL 1. AB..PAF- 400.00 378.75 390.30 369.56 3969 _H I— _2 6 PAE ,QQ 9-,-Bfl
|
||
1 CD DAF 450.00 378.75 439.09 369.56 C DAF 13.00 13.78
|
||
I E DAF 400.00 378.75 390.30 369.56 D DAF 18.00 19.08
|
||
? . F_. QAF_ 210.00 204.91 2 F DAF 15. *00 15.90
|
||
1 I DAF 265.00 378.75 256.57 369.56 DUF 16.70 17.71
|
||
l B DAF 320f00 332.67 311.23 323.55 DAF 8.00 8.48
|
||
U C—D A.E— 320.00 332. 67 -Jl 1,2.3- ..322«-55.. 2 C DAF 13.00 13.78
|
||
l B DUF 358.00 332.67 348. 19 323.55 D OAF 18.00 19.08
|
||
5199 (N I 1 B DUF 0.60 0.60 0.56 0.56 F DAF 15.00 15.90
|
||
5876 HE I _1 B-PUF , 13.80 -1.3-, 90- 11.44 11.44 16.70 17.71
|
||
6312 (S III) 1 B DUF 2.40 1.86 4026 HE I C AC KB 2.10 2.10 2.22 2.22
|
||
6548 ( N II) l B DUF 3.00 2.25 A 4101 H I B DAF 24.00 22.40 25.21 23.53
|
||
6563 u_ i B DUF 327.00 -3-21,. 00.- .2* + , 76 2++,76 21.00 22.40 22.06 23.53
|
||
6583 (N II) 1 B DUF 11.30 11.30 .43 8.43 D DAF 28.00 22.40 29.42 23.53
|
||
6678 HE I 1 B DUF 3.80 3.80 2.80 2.80 F DAF 14.00 22.40 14.71 23.53
|
||
..6X16 _LS ID. 1 R DUF 13.00 .13,00 9.54 9:54 DUF _?Jt«.o,Q— 22.40 26,26 23.53
|
||
6731 ( S II ) l B DUF 9.20 9.20 6.74 6.74 B DAF 25.00 44.52 25.86 +6.0+
|
||
7065 HE I l 8 DUF 4.50 4.50 3.17 3.17 C DAF 50.00 44.52 51.71 46.0+
|
||
7136 (AR 11!) 1 B DUF 13.00 ..L3-.Q.Q.. -3U0 -J P DAE,, 50,00. . ++,52 5L, 71 _+6 ,.Q-+—
|
||
F DAF 50.00 44.52 51.71 46.04
|
||
REGION KEY (REGI ON,REFERENCE,EXPLANATI ON) DUF 43.10 44.52 44.58 46.04
|
||
B. DAF . IC 2115 + NGC 1763 _1 A WB. +9. «00 -++,52 . 5Q.,.6fl ..+6,0+.-
|
||
C, DAF , NGC 1769 4363 (0 III) DUF 6.47 6.68
|
||
E, DAF , NGC 1773 4471 HE I C ACKB 5.00 5.13
|
||
F. DAF . NGC 176Q -,C -DAF—. 5.00 ,. 5.13 5.13 5.27
|
||
IC 2115 + NGC 1763 1 D DAF .00 5.13 8.21 5.27
|
||
1 B DUF 2.40 5.13 2.46 5.27
|
||
END 4658 (FE 111) 1 B DUF . .fl-. QQ . . 5.QQ 5.07 5.07
|
||
4686 HE II 1 C ACKB 7.60 7.
|
||
4712 HE I 2 B DUF 2.20 2.22
|
||
-+712.. (AR IV ) _2 B DUF 2.20 2.22
|
||
BEGIN N 17 (LHC ) C = 1.36 (HYDROGEN LINES) 4740 (AP IV ) l C ACKB 2.00 2.02
|
||
4861 H I 1 B DAF 100.00 100.00 100.00 100.00
|
||
HAVE IDENT . N..P.G-PEF DBS I AVE Q CORR I AVÈ C _J C ACKB IDO.QQ 100.00 100.00 100.00
|
||
3727 IT ) 1 DAF 350.00 891. 14 C DAF 100.00 100.00 100.00 100.00
|
||
4101 I l DAF 14.00 25.76 D DAF 100.00 100.00 100.00 100.00
|
||
(LHC
|
||
660
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 8—Continued
|
||
_4á LLHC_ 55 (LHC
|
||
WAVE IOENT N RG REF OBS AVE 0 CORR I AVE C WAVE IOENT N RG REF OBS I AVE 0 CORR I AVÉ C
|
||
-45.61 H I 1 F PAF IQQtQ.Q. 100.00 100.00 100.00 —1136. (AR III) .1 A DUF 6.50 6.50 5.51 —5.91
|
||
i B DUF 100.00 100.00 100.00 100.00
|
||
1 A WB 100.00 100.00 100.00 100.00
|
||
4922 HE I 1 B OUF 1.20
|
||
1.20- 289.00 1.20 1.20
|
||
4959 (0 III) 1 B OUF 289.00 287.46 287.46
|
||
4991 (0 III) 1 B OAF 160.00 277.50 158.87 275.53
|
||
1 Ç PAF. 630.00 ¿77 ? 5Q . 625.54 275.53 57 (LHC 0.20 (HYDROGEN LINES)
|
||
1 D OAF 130.00 277.50 129.08 275.53
|
||
1 F DAF 190.00 277.50 188.65 275.53 WAVE IDENT N RG REF OBS I CORR I
|
||
(0 III) 1 C AC KB 631.00 698.33 625.95 692.74 3727 (O 11)1 A DAF 510.00 585. 14
|
||
1 B DUF 789.00 698.33 782.68 692.74 3969 l A DAF 41.00 41.00 45.60 45.60
|
||
1 A WB 675.00 698.33 669.59 692.74 4101 1 A DAF 45.00 45.00 49.22 49.22
|
||
1 C ACKB 20.40 15.95 19.32 15.11 4340 1 A DAF 44.00 44.00 46.78 46.78
|
||
1 B DUF 11.50 15.95 10.89 15.11 4471 HE I 1 A DAF 11.00 11.00 11.53 11. 53
|
||
6300 (0 I ) 1 C ACKB 9.10 9. 10 8.45 8.45 4861 HI 1 A DAF 100.00 100.00 100.00 100.00
|
||
6312 (S III) 1 Ç açkb 3.00 2. 10 2.79 1.95 4991 (0 III) 1 A DAF 160,00 160.00 157.95 157.95
|
||
1 B DUF 1.20 2.10 1.11
|
||
6548 (N ll ) 1 B DUF 2.00 1.84
|
||
.656? ti- X _BLLL_ 299.00 299.00 274.95
|
||
(N II ) 1 C ACKB 14.50 10.85 13.32 9.97
|
||
1 B DUF 7.20 10.85 6.62 9.97
|
||
6678 -HE I _L e PUF. 2.60 2.60 2.38 2.38 BEGIN N 59 (LHC . o«?7 (hyprogen LINE?)
|
||
6716 (S II ) 1 B DUF 10.80 10.80 9.88 9.88
|
||
6730 (AR lit) 1 C ACKB 17.80 17.80 16.27 16.27 WAVE IDENT N RG REF OBS I CORR I
|
||
6731 -LS LI ) J B DUF . 7..6Q- .60 6.95 6.95 3727 _LQ LL_L 1 à_P-A£_ -IMtOQ 1671 64-
|
||
7065 HE I B DUF 3.00 3.00 2.71 2.71 DAF 320.00 412.64
|
||
7136 (AR III) B DUF 16.70 16.70 15.06 15.06 1 A DUF 126.00 162.48
|
||
—3J5Q.. 1 A PDF ?tlQ . 2tlQ 2,69 .?,69_
|
||
REGION KEY {REGI ON,REFERENCE,EXPLANATION) 3771 I A DUF 2.20 2.20 2.81 2.81
|
||
B, DAF » NGC 1935 = IC 2126 3798 I A DUF 2.60 2.60 3.30 3.30
|
||
Ci QA£_ , NGC 1936 = IC 2127 -.3835 _t! L_ A DUF -3.50 _3.5Q- 4-, 40 -4.40-
|
||
DAF , PART OF IC 2128 (NE III) 1 DAF 28.00 26.73 34.87 33.29
|
||
DAF , NGC 1929 1 DAF 27.00 26.73 33.63 33.29
|
||
DUF . NGC 1935 = IC 2126 L_ A DUF 25.20 26.73 3L« 38 -IX. 2 9
|
||
3889 H I 2 A DUF 13.00 16. 10
|
||
44 (LHC 3889 HE I 2 A DUF 13.00 16.10
|
||
-3-969 _ _ü I_ -2 A DAF 15.0.QQ 182.59
|
||
2 B DAF 9.00 10.96
|
||
2 A DUF 18.30 22.28
|
||
BEGIN N (LHC 0.80 (HYDROGEN LINES) INE III) -Z A DAJ 150.QQ
|
||
B DAF 9.00 10.96
|
||
WAVE IDE NT N RG REF OBS I CORR I A DUF 18.30 22.28
|
||
3727 LD II ) 1 A DAF - 350.00 60K.4R HF I _J A. DU£
|
||
C DAF 370.00 641.14 4069 II ) A DUF 1.30 1.30 1.55 1.55
|
||
1 D DAF 210.00 363.89 4101 I A DAF 20.00 22.40 23.61 26.44
|
||
3868 INE III) 1 C DAF 25.QQ 4f). 1 fl _3 DAE 28. QQ 22.40 33.05 26.44
|
||
3969 HI 2 C DAF 15.00 22.95 A DUF 19.20 22.40 22.66 26.44
|
||
3969 INE III) 2 C DAF 15.00 22.95 A DAF 38.00 28.43 42.56 31.84
|
||
-41Q1 H I 1 A.. DAF 17. QQ 24.34 -B DAf 5.00 28.43 5.60 - 31.84 -
|
||
1 C DAF 31.00 24.00 44.38 34.36 A DUF 42.30 28.43 47.38 31.84
|
||
1 A DAF 38.00 38.00 48.55 48.55 436 3 (0 III) A DUF 2.99 2.99 3.33 3.33
|
||
1 C DAF 38. QQ 38.00 48.55 48.55 4471 HE.—I -A PAJE. 7.00
|
||
4471 HE I 1 C DAF 5.00 5.00 6.03 6.03 B DAF 12.00 7.43 13.09 8.11
|
||
4861 1 A DAF 100.00 l00.00 100.00 100.00 A DUF 3.30 7.43 3.60 8. 11
|
||
_1 C—DAF . 100.00 LQQ..Q.Q 100.00 1QQ.QQ A DUF 0- 30 0.31
|
||
D DAF 100.00 100.00 100.00 100.00 4712 (AR IV ) DUF 0.30 0.31
|
||
III) l A DAF 120.00 132.33 113.96 125.67 4861 H l DAF 100.00 100.00 100.00 100.00
|
||
1 C DAF 97.00 132.33 92.11 125.67 DAF 100.00 100.00 100.00 100.00
|
||
1 D DAF 180.00 132.33 170.93 125.67 DUF 100.00 100.00 103.00 100.00
|
||
4922 HE I DUF 0.80 0.80 0. 79 0.79
|
||
£ND.. _51 LLHC 4959 (0 III) DUF 188.00 188.00 184.64 184.64
|
||
1 A DAF 640.00 480.00 624.88 468.66
|
||
1 B DAF 320.00 480.00 312.44 468.66
|
||
_50-07 . _LQ III) 1 A DUF 547.00 5^7.00 532.40 532,40
|
||
55 (LHC C * C.12 (HYDROGEN LINES) 5518 (CL III) DUF 0.30 0.30 0.26 0.26
|
||
5538 (CL III) DUF 0.30 0.30 0.26 0.26
|
||
WAVE IDENT N RG REF AVE O CORR I AVE C 5876 -HE_L. DUF -IX-.-0.0 14.00 11,66 -IL, 66 .
|
||
3727 (0 II ) 1 DAF 320.00 347.51 6312 (S III) DUF 1.60 1.60 1.25 1.25
|
||
1 A DUF 173.00 187.87 6548 (N II ) DUF 3.00 3.00 2.27 2.27
|
||
3835 _L 1 A DUF 2.80 3.01 6563 H I DUF 348.00 348.00 262.47 262.47
|
||
3868 (NE III) 1 DAF 16.00 11.90 17. 18 12.78 6583 (N II } DUF 11.70 11.70 8. 80
|
||
1 A DUF 7.81 11.90 8.39 12.78 6678 HE I DUF 2.80 2.80 2.08 2.08
|
||
3889 _L 2 A DUF 10.10 10.83 6716 _LS il ) DUF . U-».2Q Uf2Q g,-2 9 8.29
|
||
3889 HE I 2 A DUF 10.10 10.83 6731 (S II) DUF 7.90 .90 5.84 5.84
|
||
3969 H I 2 DAF 15.00 15.99 7065 HE I DUF 2.50 2. 50 1.78 1.78
|
||
2 A OUF 11.40 12.15 7136 (AR III) DUF 14.60 14.60 10.31 10.31
|
||
(NE III) DAF 15.00 15.99
|
||
DUF 11.40 12.15 REGION KEY (REGI ON,REFERENCE,EXPLANATION)
|
||
DAF 22.50 ¿3_,95 23.74- 25^7 A, DAF , NGC 2032 * NGC 2035
|
||
A DUF 25.40 23.95 26.80 25.27 B, DAF , NGC 2040
|
||
DAF 39.00 40.75 40.46 42.28 A, DUF , NGC 2032 + NGC 2035
|
||
A DUF »2,50 40.75 44.09 »2^28
|
||
4363 (0 III) 1 A DUF 1.49 1.49 1.54 1 .54
|
||
4471 HE I 1 DAF 2.00 2.45 2.06 2.52
|
||
J A DUF ¿..90 .2,45 2.52
|
||
DAF 100.00 100.00 100.00 100.00
|
||
DUF 100.00 100.00 100.00 100.00 C = 0.68 (HYDROGEN LINES)
|
||
4922 HE I . _1 A DUF ,70 0,70 Q.7Q (L..70
|
||
4959 III) DUF 91.50 91.50 90.97 90.97 WAVF IDENT N RG REF OBS I CORR I AVE C
|
||
4991 III) DAF 200.00 200.00 198.46 198.46 3727 (O II ) 1 l DAF 310.00 494.65
|
||
5HQ.7. -LQ III) 1 K DUF. 277.00 277.QQ -XJ.4.&B- 274.58 3868 (NE III) 1 1 DAF... 28.QQ -28.QQ 41.91
|
||
5199 (N I ) DUF 0.50 0.50 û . 49 0.49 3969 I 2 1 DAF 30.00 43.06
|
||
5518 (CL III) DUF 0.40 0.40 0.38 0.38 3969 III) 2 1 DAF 30.00 43.06
|
||
5538 (CL III) A .DUF... «XQ- «XQ. Q.48 Q-.48 4101 —H I— -l 1 DAF— 56.QQ . 56.QQ 75.96
|
||
5876 HE I A DUF 12.50 12.50 11.78 .78 4340 I 1 DAF 38.00 38.00 46.80 46.80
|
||
6312 (S III) A DUF 0.80 0.80 0.74 .74 4471 HE I l DAF 10.00 10.00 11.73 11.73
|
||
654fl _LN IL.) A DUF 3 .QQ 2.74 A 4R61 1 DAF— 1QQ.QQ 100.00 IQQ^QQ 1QQ.QQ
|
||
6563 H I 1 A DUF 304.00 304.00 277.42 277.42 4991 (0 III) 1 1 DAF
|
||
6583 (N II ) 1 A DUF 11.50 11.50 10.49 10.49
|
||
6678 HE I A A DUF 1.50 1.36 L.36 REGION KFY (REGI ON.REFFRENCE.FXPLANATIQN)
|
||
6716 (S II ) A DUF 9.40 9.40 8.53 8.53
|
||
6731 ( S II ) A DUF 6.20 6.20 5.62 5.62
|
||
(LHC
|
||
|
||
661
|
||
|
||
|
||
|
||
American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN N _f>S LLM£_ C = 0.16 (C = 0.1Q»CSC B > -23. ( L^C
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE □ CORR I AVE C
|
||
3727 (0 II > I B DAF 419.00 457.65 5199 .IN I 1_J E_ PJF .80 0.80 0.75
|
||
3868 (NE III) I B DAF 11.00 12. 10 1 A1 PTP2 13.00 13.60 10.93 11.44
|
||
3969 HI 2 B DAF 15.00 16.33 1 A2 PTP2 13.00 13.60 10.93 11.44
|
||
3969 (NE III) 2 B DAF 15,00 16.33 _1 E_ DUF 14.80 13.60 12.45 11.44
|
||
4101 DAF 28.00 28.00 30.08 30.08 6548 (N II ) 1 E DUF 7.00 5.37
|
||
4340 1 B DAF 69.00 69.00 72.47 72.47 6563 I 1 A1 PTP2 360.00 337.00 275.69 258.08
|
||
4861 1 B DAF 100.00 100.00 100.00 100.00 PTP2 340.00 ??7tOQ
|
||
1 A2 DUF -258»09
|
||
4991 (0 III) 1 B DAF 311.00 337.00 238.17 258.08
|
||
II I 1 A1 PTP2 28.00 28.20 21.39 21.54
|
||
END N 68 (LMC L_ 1 A2 PTP2 34.00 28,20 25,97 21.54
|
||
1 E DUF 22.60 28.20 17.26 21.54
|
||
1 A1 PTP2 3.40 3.98 2.57 3.01
|
||
1 A2 PTP2 —3_i_55 3.98 2.68 3.01
|
||
BEGIN N 69 (LMC ) C = 0.28 (HYDRUGEN LINES) DUF 5.00 3.98 3.78 3.01
|
||
6716 ( S II ) 1 A1 PTP2 15.00 19.77 11.28 14.87
|
||
WAVE IDENT K RG REF OBS I AVE O CORR I AVE C 1 A2 PTP2 ?4.0.Q_ 19.77 18.05 14.87
|
||
3727 (O II ) 1 DAF 430.00 521.23 DUF 20.30 19.77 15.27 14.87
|
||
3368 (NE III) 1 DAF 21.00 21.00 24.79 ) l A1 PTP2 17.00 16.57 12.77 12.44
|
||
3969 H I 2 DAF 21.00 24.37 1 -P-LP.2. 19 j.Q.Q_ L6.57 14.27 12.44
|
||
3969 (NE III) 2 DAF 21.00 24.37 l E DUF 13.70 16.57 10.29 12.44
|
||
4101 H I 1 DAF 42.00 42.00 47.62 47.62 1 A1 PTP2 5.45 4.82 3.95 3.49
|
||
4340 HI 1 DAF
|
||
DAF
|
||
43.00 43.00 46.85 46,95 1 A2 PTP2 4,19 ,92 3.04 ?,49
|
||
4861 H I l 100.00 100.00 100.00 100.00 A1 PTP2 IS . 00 12.33 10.80 8.88
|
||
4991 (0 III) 1 DAF 140.00 140.00 137.49 137.49 1 A2 PTP2 13.00 12.33 9.36 8.88
|
||
_1 L. -OJIE- 9.QQ 12.33 6.48 8.88
|
||
7320 II ) 2 Ai PTP2 8.02 5.67
|
||
2 A2 PTP2 8.55 6.04
|
||
7330 _LQ_ II ) 2 Al PTP2 8.02... 5,66
|
||
C = 0.28 (HYDRUGEN LINES)
|
||
REGION KEY (REGIQN,REFERENCE,EXPLANATION)
|
||
WAVE IDFNT N RG REF OBS I AVE O CORR I AVE C PTP , BRIGHTEST H ALPHA REGION. SAME AS IC 2111
|
||
3727 (O II ) 1 DAF 405.00 490.93 PTP , 5 ARCSEC N OF REGION l. SAME AS IC 2111
|
||
4101 38.OQ 38.00 43.08 43.Q8
|
||
4340 H II 11 DAF
|
||
DAF 43.00 43.00 46.85 46.85 ( LMC
|
||
4961 H I l DAF 100.00 100.00 100.00 100.00
|
||
4991 (0 III) 1 DAF IñQ.Q.Q 1BQ.QQ 176.77 176.77
|
||
0.48 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I CORR I
|
||
3727 (0 II ) 1 1 DAF 220.00 305.97
|
||
C = 0.16 IC = Q.1Q»CSC B) 1 1 DAF 8.06
|
||
3868 (NE III) 1 1 DAF 19.00 25.26 25.26
|
||
WAVE IDFNT N RG REF OBS I AVE Ü CORR I AVE C 3969 H I 2 1 DAF 11.00 14.20
|
||
3727 _L0 LI ) 1 DAF 37.QQ 4J-.30 (NE III) 2 1 DAF 14.20
|
||
4861 I 1 DAF 4101 1 l DAF 21.00 21.00 26.04 26.04
|
||
4340 1 1 DAF 40.00 40.00 46.33 46.33
|
||
END _LZ (I MC L_ 4471 -J 1 DAF 7.00 7.00 7.83 7. 83
|
||
4861 H I 1 1 DAF 100.00 100.00 100.00 100.00
|
||
4991 (0 II I ) 1 1 DAF 410.00 410.00 397.48 397.48
|
||
C = 0.35 (HYDROGEN LINES) REGION KEY (REGION,REFERENCE,EXPLANATION)
|
||
1, DAF , NGC 1745 + NGC 1737
|
||
IDENT N RG REF OBS I ...AVE Q CURR .1. .AVE. C
|
||
(0 I I ) l DAF 230.00 292.60
|
||
1 N DAF 350.00 445.27
|
||
2 Al PTP2 180.00 228.99
|
||
2 A2 PTP2 250.00 318.05
|
||
1 E DUF 197.00 250.62 BEGIN N 0.13 (HYDROGEN LINES)
|
||
372° (O II ) 2 A1 PTP2 180.00 228.84
|
||
A2 PTP2 250.00 317.83 WAVE IDENT N RG REF OBS I CORR I
|
||
(NE III) 1 DAF 12.00 11.70 14. 77 14.40 3727 (O II ) 1 1 DAF 310.00 338.97
|
||
L N DAF 8.00 11.70 9.85 14.40 _1 A DUF 208.00 22T..±4..
|
||
A1 PTP2 18.00 11.70 22.15 14.40 3 83 5 HI 11 DAF 19.00 19.00 20. 58 20.58
|
||
A2 PTP2 8.80 11.70 10.83 14.40 3868 (NE III) 1 1 DAF 32.00 19.80 34.57 21.39
|
||
E DUF 10.40 12.73 1 A DUF 7.60 19.80 -ß-j-2_L _2_L_»_3_9
|
||
3889 HE I E DUF 10.40 12.73 3969 H I 21 DAF 14.00 15.00
|
||
3969 H I DAF 6.00 7.23 3969 (NE III) 2 1 DAF 14.00 15.00
|
||
N DAF 15.00 18.07 -A10.L- HI 1 1 DAF 28.00 29.68
|
||
E DUF 11.20 13.49 I 1 1 DAF 40.00 42.20 41.62 43.91
|
||
(NE III) 2 DAF 6,00 7.23 1 A DUF 44.40 42.20 46.20 43.91
|
||
2_ N DAF 15.00 18.07 III) 1 A DUF 0.98 0.98 1.02 1.02
|
||
E DUF 11.20 13.49 4471 1 1 DAF 7.00 7.00 7.22 7.22
|
||
DAF 25.00 20.34 29.25 23. 80 4861 1 1 DAF 100.00 100.00 100.00 100.00
|
||
N DAF 14.00 20.34 16,38 23.80 1 A DUF 100.00 100.00 100.00 100.00
|
||
Ai PTP2 24.00 20.34 28.08 23.80 4991 (0 III) 1 l DAF 220.00 220.00 218.16 218.16
|
||
A2 PTP2 22.00 20.34 25. 74 23. 80 5007 (0 III) 1 A DUF 266.00 266.00 263.48 263.48
|
||
E DUF 16.70 2C.34 19.54 23. 80 5976, HE I 1 A DUF 14.90 14.90 13.97 13,^7
|
||
DAF 38.00 36. 38 42.30 40.50
|
||
N DAF 19.00 36.38 21.15 40.50
|
||
A1 PTP2 43.00 36.38 47.87 40.50 REGION KEY (REGION,REFERENCE,EXPLANATION)
|
||
A2 PTP2 42.00 36.38 46.75 40.50 DAF , NGC 1770
|
||
E DUF 39.90 36.38 44.41 40.50 DUF , IC 2117
|
||
11II L Al PTP2 1.94 1.60 2.15 1.78
|
||
A2 PTP2 1.27 1.60 1.41 1.78
|
||
N DAF 5.00 4.11 5.43 4.46
|
||
Al PTP2 4.931 4.11 5.35 4.46
|
||
A2 PTP2 3.90 4.11 4.23 4.46
|
||
E DUF 2.60 4.11 2.82 4.46 C = 0.13 (HYDROGEN LINES)
|
||
DAE 1QQ.0Q 100.QQ 100.00 100.00
|
||
N DAF 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
Ai PTP2 100.00 100.00 100.00 100.00 3727 (O II ) 1 DAF 190.00 207.75
|
||
A2 PTP2 100.00 100.00 100.00 100.00 3869 (NE III) 1 DAF 40.00 40.00 43.21 43.21
|
||
1 E DUF 100.00 100.00 100.00 100.00 3969 H I 2 DAF 20.00 21.43
|
||
4922 HE I 1 E DUF 0.70 0.70 0.69 0.69 3969 (NE III) 2 DAF 20.00 21.43
|
||
4959 _LQ III) 1 E DUF 41.30 41.30 4Q.6Q 40.60 4101 _H I_ DAF 42.QQ 42. QQ 44.52 44.52.
|
||
(0 III ) 1 DAF 390.00 270.00 381.28 263.96 4340 I 1 DAF 45.00 45.00 46.83 46.83
|
||
1 N DAF 150.00 270.00 146.65 263.96 4861 H I I DAF 100.00 100.00 100.00 100.00
|
||
_LQ III) 1 Al PTP2 400.00 -251. QQ 389.89 244.66 4991 (n ITT) 1 DAF 22Q-..QQ 22Q.QQ -2.18. 16 218.16
|
||
A2 PTP2 220.00 251.00 214.44 244.66
|
||
E DUF 133.00 251.00 129.64 244.66 (LMC
|
||
|
||
662
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
BEGIN N 1Q3 (LHC 0.06 (HYDROGEN LINES» BE6IN N I2Q t LMC... 0.26 (HYDROGEN LINES)
|
||
WAVE IDENT RG REE OBS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I
|
||
4349 _I PAF 46.00 46.00 46.85 46.85 3727 _LQ LL_ I DAF 330.00 ..394.
|
||
4861 H I I OAF 3969 1 DAF 27.00 27.00 31.00 31.00
|
||
4101 1 DAF 24.00 24.00 26.97 26.97
|
||
_1NC N L03 LLM£ L_ 4340 _! l PAF, 43.00 46.56 46.56
|
||
4471 I DAF 3.50 3.50 3.72 3.72
|
||
4861 I DAF 100.00 100.00 100.00 100.00
|
||
4991 im DAF 120.00 120.00 118.00 118.00
|
||
105 (LHC C = 0.32 (HYDROGEN LINES)
|
||
AVE O CORR I AVE C
|
||
3727 (0 II ) 1 A DAF 280.00 348.87
|
||
1 A DU F 312.00 388.74
|
||
3835 H_ J 1 A OUF 4.30 5.24 C = 0.85 (HYDROGEN LINES)
|
||
3868 (NE III) 1 A DAF 16.00 19.34
|
||
3889 H I 2 A DUF 10.60 12.76 WAVE IDENT N RG REF OBS I CORK I aVe c
|
||
3889 HE I 2 A DUF 10.60 12.76 3727 (O II ) 1 1 DAF 230.00 412.48
|
||
2 A DAF 15.00 17.78 3868 (NE I II) 1 1 DAF 54.00 89.40
|
||
2 A DUF 11.00 13.04 3969 (NE III) 2 1 DAF 20.00 31.42
|
||
3969 CNE III) 2 A DAF 19,0.0. ■L7.T.78. _L9fr9 .. HI 21 DAF 20,00 31.»2
|
||
2 A DUF 11.00 13.04 4101 H I 1 DAF 29.50 29.50 43.19 43. 19
|
||
4069 (S II ) 1 A DUF 3.10 3.10 3.60 3.60 4340 H I 1 DAF 36.00 36.00 46.70 46.70
|
||
AIQ.1. H I 1 A OAF 21.00 21.60 24.24 24.93 .4.471 HE I 1 DAF 3.50 3,90 ^,27 4.27
|
||
1 A DUF 22.20 21.60 25.63 24.93 4861 1 DAF 100.00 100.00 100.00 100.00
|
||
4340 1 A DAF 35.00 38.40 38.60 42.35 4991 (0 III ) 1 1 DAF 490.00 490.00 4o3.82 463.82
|
||
1 A DUF 41.80 38.40 . 44,10... -42,39
|
||
4363 (0 III) l A DUF 1.58 1.58 1.74 1.74 REGION KEY (REGI ON,REFERENCE,EXPLANATION)
|
||
4471 HE I 1 A DAF 3.50 3.95 3.77 4.26 1, DAF , INCLUDES NGC 1962, 1965, AND 1970
|
||
1 A PUF 4,40 3,99 4.74 4,24
|
||
1 A DAF 100.00 100.00 100.00 100.00
|
||
l A DUF 100.00 100.00 100.00 100.00
|
||
4922 HE I _1 A DUF 0.70 Q.7Q_ -.0^69. . Q,69
|
||
4959 (0 III) l A DUF 96.10 96. 10 94.61, 94.61
|
||
4991 (0 III) 1 A DAF 290.00 290.00 284.07 284.07 C = 0.13 (HYDROGEN LINES)
|
||
5007 _LQ III) 1 A DUF 289.0.0- 289.00 282.32 282.32
|
||
5199 (N I ) 1 A DUF 0.80 0.80 0.76 0.76 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
5518 (CL III) 1 A DUF 0.60 C.60 0.54 0.54 3727 (0 11)1 C DAF 280.00 306.16
|
||
5538 (Cl HD J A-DUf.- 0.60 0.60 0.54 0.54 ,4101 ti I 1 C DAF 53.00 5-3.. 0.0 56.18 56J^L8_.
|
||
5876 HE I 1 A DUF 15.50 15.50 13.23 13.23 4340 HI 1C DAF 45.00 45.00 4o.83 46.83
|
||
6312 (S III) l A OUF 2.70 2.70 2. 18 2.18 4861 HI 1C DAF 100.00 100.00 100.00 100.00
|
||
6548 _U( II ) J A DUF 12.QQ 9.42 4991 ( 0 Till 1 C DA F 210.QQ ¿10. QQ 208.24 208.24
|
||
6563 l 1 A DUF 360.00 360.00 282'. 07 282.07
|
||
6583 (N II 1 A DUF 38.90 38.90 30.41 30.41
|
||
6618 HE I 1 A DUF 3.60 3.60 2_. 79 2.79
|
||
6716 (S II ) 1 A DUF 30.60 3C.60 23.59 23.59
|
||
6731 < S II) 1 A DUF 22.80 22.80 17.55 17.55
|
||
7065 HF I J A DUF 3.IQ— 3.10 2.31 2.31 BEGIN N 154 (LHC 1.00 (HYDROGEN LINES)
|
||
7136 (AR III) 1 A DUF 15.20 15. 11.25
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I
|
||
REGION KEY ( R FGI QN , REFER FNf.F , EXPL ANAT IQN) 3727 _L0 II 1.1 A DAF 210.00 417.50
|
||
DAF NGC 1858 3868 (NE I II) 1 A DAF 13.00 13.00 23.53
|
||
DUF NGC 1858 3969 (NE III) 2 A DAF 14.00 23.82
|
||
3969 H I 2 A DAF 14.00 23.82
|
||
4101 H I 1 A DAF 17.00 17.00 26.62 26.62
|
||
4340 H I 1 A DAF 34.00 34.00 46.18 46.18
|
||
4471 HF I _J A DAF 9.50 9.50 12.01 12.01
|
||
4861 H I 1 A DAF 100.00 100.00 100.00 100.00
|
||
C = 1.44 (HYDROGEN LINES) 4991 (0 III) 1 A DAF 190.00 190.00 178.11 178.11
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C (LHC
|
||
3727 (O II ) 1 1 DAF 290.00 780.10
|
||
1 2 PA.F-, *40, QP 11B3,6Q
|
||
3835 DAF 10.00 1C.00 24. 28 24.28
|
||
3868 (NE III) l DAF 21.00 21.00 49. 34 49.34 0.09 (RELATED STARS)
|
||
3969 _±L 1 PA.F- 9.00 JL3^
|
||
3969 (NE III) 1 DAF .00 19. 34 WAVE IDENT N RG REF OBS I AVE ü CORR I
|
||
4101 H I 1 1 DAF 14.00 14.00 26, 70 26.70 3727 (O II ) i C OAF 255.00 271.27
|
||
4340 _H L J 1 PAF 30.00 65.00 46. 63 101.03 3835 HI I C DAF 14.00 14.00 lAi 14.80
|
||
1 2 DAF 100.00 65.00 155, 42 101.03 3868 (NE III) l C DAF 27.00 27.00 28.48 28.48
|
||
1 1 DAF 100.00 100.00 100. 00 100.00 3969 HI 2 C DAF 14.00 14.69
|
||
1 2 DAF 100.00 100.00 100. 00 100.00 3969 (NE III) 2 C DAF 14.00 14.69
|
||
(0 III) 1 1 DAF 190.00 265.00 173. 12 241.46 4101 C DAF 34.00 34.00 35.40 35.40
|
||
1 2 DAF 340.00 265.00 309. 80 241.46 4340 C DAF 48.00 48.00 49.34 49.34
|
||
4471 C DAF 8.00 8.00 8. 17 8. 17
|
||
REGION KEY (REGI ON,REFERENCE,EXPLANATI ON) 4861 I C DAF 100.00 100.00 100.00 100.00
|
||
1, DAF , COVERS N 113 A, B, E, D. INCL. NGC 1874 £ NGC 1877 4991 (0 III) C DAF 280.00 280.00 278.38 278.38
|
||
2. DAF , PROBABLY ENTIRE REGION. INCL. NGC 1874. 1876 £ 1877
|
||
END
|
||
0.31 (HYDROGEN LINES)
|
||
BEGIN N 119 (LHC C, 19 (HYDROGEN LINES)
|
||
WAVE IDENT N RG PE F OBS I CORR I
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3726 (O II ) l DAF 315.00 389.86
|
||
3727 LQ II ) 1 DAF 270.00 ¿99,_3¿ I A DAF 2flP-t 00 371.30
|
||
1 DUF 224.00 248.32 1 C DAF 160.00 198.03
|
||
III) 1 DAF 32.00 18. 76 34.98 20.51 1 DF DAF 300.00 371.30
|
||
DUF 5.53 -Lâ-tJA- 6,0^ _2P_t 51 2 A PTP2 120.00 1*8.52
|
||
3969 H I 2 DAF 14.00 15.16 3729 (O II ) 2 PTP2 120.00 148.43
|
||
3969 ( NE III) 2 DAF 14.00 15.16 3835 H I 1 DAF .00 .00 9.68 9.68
|
||
*101 ü I_ DAF 21.00- 21.00 ¿¿«-*6 22.46 3868 ine un i DAF 35.00 _2_*i»frQ *2.07 29.57
|
||
1 DAF 38.00 39.65 39.79 41.51 A DAF 32.00 24.60 38.46 29.57
|
||
1 DUF 41.30 39.65 43.24 41.51 C DAF 14.00 24.60 16.83 29.57
|
||
*363 10 HD 1 DUF 0.48 0.*8 -Q-.-5Q 0.50 DF DAF 16.00 2*,60 19.23 29.57
|
||
4471 HE I 1 DAF 2.00 2.00 2.07 2.07 1 A PT P 2 26.00 31.25
|
||
4861 H 1 DAF 100.00 100.00 100.00 100.00 3969 (NE III) 2 DF DAF 11.0.0 12.97
|
||
DUF 1QQ.QQ 1QQ.QQ 1QQ.QQ IQfl-iQQ 3969 H I 2 DAF 12.00 14.15
|
||
4991 ( 0 III) 1 DAF 190.00 190.00 188.17 188.17 2 A DAF 16.00 18.86
|
||
5007 ( 0 III) 1 DUF 144.00 144.00 142.43 142.43 2 C DAF 9.00 10.61
|
||
5876 HE I 1 DUF 10.70 10.70 9.9* 9.94 2 DF DAF 11.00 12.97
|
||
(NE III) 2 DAF 12.00 14. 15
|
||
2 A DAF 16.00 13.86
|
||
|
||
663
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
-133. (LHC _16Q LL.HC
|
||
WAVE IDENT N RG REF □BS I CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3969 (N^ HI). 2 C OAF 9.00 10.61 5876 HE l 1 A PDF .Ut9Q Ut8Q 12»*? _L2-»¿5_
|
||
I DAF 31.00 26.80 35.62 30.80 6300 ( O I ) 1 A DUF 2.00 2.00 1.58 1.58
|
||
1 A DAF 39.00 26.80 82 30.80 6312 ( S III) 1 A DUF 2.20 2.20 1.74 1.74
|
||
1 C DAF 17.00 26.80 19.54 30. 80 6548 ( N II ) 1 A DUF 6.00 4.60 A
|
||
1 DF DAF 25.00 26.80 28.73 30.80 6563 1 A DUF 371.00 371.00 284.12 284.12
|
||
l A PTP2 22.00 26.80 25.28 30.80 6583 ( N II ) l A DUF 17.70 17.70 13.52 13.52
|
||
4340 1 DAF 31.00 39.80 34.09 43.76 6678 HE I 1 A DUF 4.30 4.30 3.25 3.25
|
||
1 A DAF 43.00 39.80 47.28 43.76 6716 ( S II ) 1 A DUF 10.80 10.80 8.12 8.12
|
||
l C DAF 41.00 39.80 45.08 43.76 6731 ( S II ) l A DUF 9.10 9.10 6.83 6.83
|
||
1 DF DAF 43.00 39.80 47.28 43.76 7065 HE I 1 A DUF 5.50 5.50 3.99 3.99
|
||
1 A PTP2 41.00 39.80 45.08 43.76 7136 ( AR III) 1 A DUF 20.80 20.80 14.97 14. 97
|
||
4363 (0 III) 1 A PTP2 2.72 2.72 2.98 2.98 7320 ( O II ) 1 A DUF 8.40 8.40 5.94 5.94
|
||
4471 HE I 1 DAF 6,00 5.02 6.45 5.40 7330 ( O II ) 1 A DUF 7.60 7,60 5.36 5.36
|
||
1 A DAF 8.00 5.02 8.60 5.40
|
||
1 C DAF 5.00 5.02 5.38 5.40 REGION KEY (REGI ON,REFERENCE,EXPLANATION)
|
||
1 DF DAF 2.00 5.02 2.15 5.40 A. DAF , NGC 2080
|
||
l A PTP2 4.12 5.02 4.43 5.40 AD, DAF , NGC 2080 NGC 2077
|
||
1 DAF 100.00 100.00 100.00 100.00 BC, DAF , NGC 2085 NGC 2086
|
||
1 A DAF 100.00 100.00 100.00 100.00 A, DUF , NGC 2080
|
||
i C DAF 100.00 100.00 100.00 100.00
|
||
1 DF DAF 100.00 100.00 100.00 100.00 (LHC
|
||
1 A PTP2 100.00 100.00 100.00 100.00
|
||
1 DAF 250.00 335.00 245.04 328.36
|
||
1 A DAF 580.00 335.00 568.50 328.36
|
||
_1 C DAF 320.00 335*00 328.36 ..BEG-IN. H... -163 ILMC- 0.54 (HYDROGEN LINE$)
|
||
1 DF DAF 190.00 335.00 186.23 328.36
|
||
5007 (0 III) 1 A PTP2 430.00 430.00 420.36 420.36 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
. 5876 - H£. I _1 A,,PT,P2. H.QQ 14.00 12.Q1 12.01 3727 _LQ II 1 1 DAE,. -25Q..Q.Q.- 362.32
|
||
6563 1 A PTP2 400.00 400.00 315.81 315.81 3868 (NE III) 1 OAF 22.00 30.31 30.31
|
||
6584 (N II ) 1 A PTP2 21.00 21 .00 16.54 16,54 3969 H I 2 DAF 8.00 10.66
|
||
6678 _H£_ A A PTP2 4.22 4.22 3.29 3.29 -3969 INE III) 2 DAE 8.00 10.66
|
||
6717 ( S II ) 1 A PTP2 18.00 18.00 13.99 13.99 4101 H I l DAF 20.00 20.00 25.48 25.48
|
||
6731 (S II ) 1 A PTP2 13.50 13.50 10.4 10.48 4340 H I 1 DAF 41.00 41.00 48.37 48.37
|
||
_7Q65 HE I 1 A PTP2 -_4..49 4.49 3.38 ■ 4861 H I 1 DAE 100.0-0 100 ..00 100.. 00 100.00
|
||
7136 (AP III) 1 A PTP2 18.00 13.45 4991 (0 III) l 193.14 193.14
|
||
7320 (0 II ) 2 A PTP2 10.20 7.50
|
||
7330 _i_Q LI L _2 A PTP2 10.20 7.49 END 163 (LHC
|
||
REGION KEY ( REGI ON,PEFERENCE,EXPLANATI ON)
|
||
C. DAF . NGC. 2 084
|
||
DF, DAF , NGC- 2083 + NGC 2078 BEGIN N 164 (LHC 0.21 (HYDROGEN LINES)
|
||
A, PTP2, NGC 2079
|
||
HAVE IDENT N RG REF DBS I AVE 0 CORR 1 AVE C
|
||
3727 (O II ) 1 DAF 280.00 323.47
|
||
3969 H I 1 DAF 12.00 12.00 13.42 13.42
|
||
4101 Ü I 1 DAF 62.00 62.00 68.12 68.12
|
||
4340 H I 1 DAF 44.00 44.00 46.92 46.92
|
||
C = 0.35 (HYDROGEN LINES) 4471 HE I 1 DAF 3.50 3.50 3.68 3.68
|
||
4861 H I 1 DAF 1QQ.Q.Q LQQ.QQ LQQ.QQ 10Q.QQ...
|
||
WAVE IDENT N PG REF DBS I CORR I 4991 (0 III) 1 DAF 180.00 177.57
|
||
3727 (0 II ) 1 DAF 140.00 178.07
|
||
1 AD DAF 160.00 ¿03.50 END N 164 (LHC 1_
|
||
l BC DAF 270.00 343.41
|
||
1 A DUF 103.00 131.01
|
||
_J A DUF .2.50 -2.SQ 3. 16 3.16
|
||
3771 A DUF 3.20 3.20 4.03 4.03 C = 0.16 (C = 0.10*CSC B)
|
||
3798 A DUF 3.70 3.70 4.63 4.63
|
||
3835 DAF 8.00 6.20 9.92 7.69 WAVE IDENT N PG REF OBS I AVE □ CORR I AVE C
|
||
DUF 4.40 6.20 5.46 7.69 3727 (O II ) 1 DAF 310.00 346.03
|
||
DAF 28.00 21.25 34.46 26.15 3868 (NE III) l DAF 32.00 32.00 35.19 35.19
|
||
AD DAF 24.00 -.21.25. ¿9., 54. 26.15 _J363_ _t! L_ DAF 18.00 . 1-9...60—
|
||
1 BC DAF 16.00 21.25 19.69 26.15 3969 (NE III) 2 DAF 18.00 19.60
|
||
1 A DUF 17.00 21.25 20.92 26.15 4101 H I 1 DAF 60.00 60.00 64.46 64.46
|
||
1389_ H I_ _2 A DUF 12.10 . 1.4t.8¿ . . .4.3.4-Q— DAF 63.00 63.00 66.16
|
||
3889 HE I 2 A DUF 12.50 15.31 4471 HE I 1 DAF 9.50 9.50 9.86 9.86
|
||
3969 H I 2 DAF 15.00 18.07 4861 H I 1 DAF 100.00 100.00 100.00 100.00
|
||
2 AD DAF 20.00 24.09 . 4991 LQ y.LL-1 OAF 240,00 24O,.0_O 237,53 237,?3
|
||
2 BC DAF 11.00 13.25
|
||
2 A DUF 18.20 21.92
|
||
(NE III) 2 DAF 15.00 18.07
|
||
2 AD DAF 20.00 24.09
|
||
2 BC DAF 11.00 13.25
|
||
2 A DUF 18.20 21.92 .P.EQIN „N _L9fl LLM£_ 0.12 (HYDROGEN LINES)
|
||
4069 (S II ) 1 A DUF 2.60 2.60 3.06 3.06
|
||
4101 H I l DAF 18.00 25.25 21.06 29.54 WAVE IDENT N RG REF OBS I AVE D CORR I AVE C
|
||
1 AD DAF 24.00 25.25 28.08 29.54 3727 (0 11)1 1 DUF 305.00 331.22
|
||
1 BC DAF 35.00 25.25 40.95 29. 54 4340 I 1 DUF 44.60 44.60 46.27 46.27
|
||
1 A DUF 24.00 25.25 28.08 29.54 4363 III) 1 DUF 1.10 1.10 1.14 1.14
|
||
_H L_ Jl DAF _?JL._00. 39,72 42.30 44.22 486.1. . _J 1 DUF 100.00 100.00 100.00 100.00
|
||
1 AD DAF 36.00 39.72 40.07 44.22 5007 (0 III) l l DUF 105.00 105.00 104.08 104.08
|
||
1 BC DAF 46.00 39.72 51.20 44.22 5876 HE I 1 1 DUF 9.90 9.90 9.33 9.33
|
||
1 A PUF 38«9Q 39.72 43.30 44.22 6563 H I L_ 1 DUF . 309«-Q.Q_ -3-Q5U.QQ. 29.U9? ¿JU.t.?9 -
|
||
4363 (0 III) 1 A DUF 1.97 1.97 2.18
|
||
4471 HE I 1 DAF 8.00 10.47 11.36 REGION KEY (REGI ON,REFERENCE,EXPLANATI ON)
|
||
1 BC DAF .19.QQ 1C.47 20.62 11.36 1. DUF . NGC 1833
|
||
1 A DUF 4.40 10.47 .78 11.36
|
||
1 DAF 100.00 100.00 100.00 100.00 END N 190 (LHC
|
||
_1 A DAF 100.00 1QQ.QQ ■■i.aa^Q.Q 100.00
|
||
1 AD DAF 100.00 100.00 100.00 100.00
|
||
1 BC DAF 100.00 100.00 100.00 100.00
|
||
_J A DUF 100.00 1QQ.QQ 1QQ.QQ 100.00 BEGIN N 214 (LHC Q.38 (HYDRQG&N LINES)
|
||
4922 HE I 1 A DUF 1.30 1.30 1.29 1.29
|
||
4959 (0 III) 1 A DAF 106.00 130.00 104.21 127.80 AVE 0 CÛRR I AVE C
|
||
-1 A DJF 154.QQ -L3Q« QQ 151.4Q -12..7.« 80 3727 (Q II ) C DUF ¿6Q.QQ . 337.58
|
||
1 DAF 435.00 416.67 425.27 407.35 3835 HI l C DUF 3.00 3.00 3.79 3.79
|
||
1 AD DAF 435.00 416.67 425.27 407.35 3869 (NE III) 1 C DUF 10.90 10.90 13.65 13.65
|
||
1 BC DAF 3BQ.Q0 416.67 371.50 407.35 3889 d I I C DUF ll.QQ ll.QQ 13.71 13.71
|
||
5007 (0 III) 1 A DAF 300.00 381.00 292.42 371.37 3889 HE 1 C DUF 11.00 11.00 13.71 13.71
|
||
1 A DUF 462.00 381.00 450.33 371.37 3969 H 1 C DUF 12.50 12.50 15.30 15.30
|
||
.5518 (Cl III) 1 A DUF Q.6Q Q.6Q -XL. 5.3 0.53 3969 (NE I) 1 C DUF 12.50 12.50 15.30 15.30
|
||
5538 (CL III) A DUF 0.40 .40 0.35 0.35 4069 (S III) 1 C DUF 2.70 2.70 3.23 3.23
|
||
5755 (N II ) A DUF 0.50 0.50 0.43 0.43 4102 HI 1C DUF 16.90 16.90 20.03 20.03
|
||
|
||
|
||
664
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
2-1* LLÜC— (SMC
|
||
WAVE IDENT N RG REF DBS AVE 0 CORK I AVE C WAVE IDENT N RG REF OBS I CQRR I AVE C
|
||
*3*0 _L_ .1 C Pll^. 39.90 39.9Q ***-9-2_ 41.82 3889 HE I l 1 PAF -20.00 20.00
|
||
*363 (0 III) 1 C DUF 1.90 1.90 2. 12 2.12 2 A DUF 12.60 12.60
|
||
*471 HE I l C DUF 3.40 3.40 3.72 3.72 2 l DAF 36.00 36.00
|
||
-.*9*1- _L C PU.E- 100.00 100.00 100.00 100.00 2 A DUF 23.50 23.50
|
||
4922 HE I l C DUF 0.80 0.80 0.79 0.79 3969 (NE III) 2 1 DAF 36.00 36.00
|
||
4959 (0 III) 1 C DUF 95.90 95.90 94.14 94.14 2 A DUF 23.50 23.50
|
||
SQQ7 _LQ LULL 1 C PUF 297.00 297.00 288.86 288.86 *101 H I 1 1 DAF 35.00 35.00
|
||
5199 (N I ) 1 C DUF 0.40 0.40 0.37 0.37 1 A DUF 26.00 30.50 26.00 30.50
|
||
5518 (CL III) 1 C DUF 0.40 0.40 0.35 0.35 1 l DAF 50.00 48.90 50.00 48.90
|
||
5538 (CL III) 1 C DUF 0.30 0.30 0.26 0.26 1 A DUF 47.80 *8.90 47.80 *8.90
|
||
5755 (N II 1 C OUF 0.40 0.40 0.3* 0.3* 4363 (0 HI) 1 1 DAF 6.00 6.38 6.00 6.38
|
||
5876 HE I 1 C DUF 11.80 11.80 9.7* 9.78 1 A DUF 6.76 6.38 6.76 6.38
|
||
-9-3U-2- ($ HD 1 C DUF 1.40 1.40 1.08 4471 he 1 1 DAF 3.60 3.35 3.60 3.35
|
||
6548 II ) 1 C DJF 7.00 5.2$ A 1 A DUF 3.10 3.35 3.10 3.35
|
||
6563 H I 1 C DUF 295.00 295.00 220.81' 220.81 4861 1 1 DAF 100.00 100.00 100.00 100.00
|
||
6583 (N II 1 C DUF 18.30 18.30 13.66 13.66 1 A DUF 100.00 100.00 100.00 100.00
|
||
6678 HE I 1 C DUF 2.00 2.00 1.48 1.48 4959 l 1 DAF 155.00 166.00 155.00 166.00
|
||
6716 (S II ) l C DUF 18.30 18.30 13.43 13.43 1 A DUF 177.00 166.00 177.00 166.00
|
||
$731 ■<s U.A 1 Ç 13.60
|
||
2.80
|
||
13.60
|
||
2.80
|
||
9.97
|
||
1.97
|
||
9.97
|
||
1.97
|
||
5007 JLQ LULL J 1 PAF
|
||
1 A DUF
|
||
*80.00 514.50 480.00 514.50
|
||
7065 HE I C DUF 549.00 514.50 549.00 514.50
|
||
7136 (AR III) C DUF 11.50 11.50 8.05 8.05 5876 HE I 1 A DUF 10.90 10.90 10.90 10.90
|
||
6312 _Li LULL J 4-EUL It 3Q L.-3.P-.. 1 >30 1.30
|
||
REGION KEY (REGI ON,REFERENCEtEXPLANATION) 6548 1 A DUF 1.00 1.00
|
||
C, DUF , NGC 2103 6563 1 A DUF 281.00 281.00 281.00 281
|
||
6SR3 _LN III J A.. DU F 3.4Q 3.*g.- 3.40 U
|
||
6678 HE I DUF 1.70 1.70 1.70 1.70
|
||
6716 (S II ) DUF 5.90 5.90 5.90 5.90
|
||
6731 ( S IT) -DUF 4.00 4.QQ -4,00 4.00
|
||
7065 HE I A DUF .40 2.40 2.40 2.40
|
||
C ^ 0.21 (C = 0.10*CSC 8» 7136 (AR III) A DUF .00 8.00 8.00 .00
|
||
WAVE IDENT N RG REF OBS I CORR I REGION KEY (REGI ON,REFERENCE,EXPLANATION)
|
||
3727 (O II ) l A DAF 210.00 242.60 1, OAF , NGC 346
|
||
_1 B DAF 260.00 300,36 -
|
||
3868 (NE III) 1 B DAF 79.00 79.00 89.48 89.48 (SMC
|
||
3969 HI 1 A DAF 18.00 18.00 20.12 20.12
|
||
*101- ti I 1 A DAF. 35.00 5*.QQ- 38.46 . .59.33
|
||
B DAF 73.00 54.00 80.21 59.33
|
||
A DAF 58.00 78.50 61.85 83.71 C = 0.35 (HYDROGEN LINES)
|
||
_1 8 PAF 99.00 78.5Q 93.71
|
||
1 A DAF 100.00 100.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O CORR I
|
||
l B DAF 100.00 100.00 100.00 100.00 3727 (O II ) 1 WB 80.00 101.75
|
||
*991 1 B DAF 630.00 630.OP 621.51 621.51 - 43.4Q ti I 1 Wfi —42.00 42.00 46.75
|
||
III) l A DAF 4861 I 1 100.00 100.00 100.00 100.00
|
||
5007 (0 III) 1 282.00 282.00 274.88 274.88
|
||
REGION KEY (REGI ON.REFERENCE.EXPLANATION)
|
||
DAF NGC 261 ( SMC
|
||
DAF NGC 249
|
||
(SMC
|
||
C = 0.21 (C = 0.10*CSC B)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
BEGIN NS C = 0.21 (HYDROGEN LINES) 3727 (O II ) 1 DAF 180.00 207.94
|
||
3868 (NE III) 1 DAF. -127 ..QQ 127.QQ 143.85 143.85
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C 3969 I 2 DAF 43.00 48.08
|
||
3727 (0 II ) l DAF 485.00 560.29 3969 (NE III) 2 DAF 43.00 48. 08
|
||
4101 I 1 DAF 37.00 37.00 40.65 40.65 4101 H I 1 DAF 67.00 67.00 73.62 73.62
|
||
4340 I 1 DAF 44.00 44.00 *6.92 46.92 4340 DAF 60.00 60.00 63.99 63.99
|
||
4861 I 1 DAF 100.00 100.00 100.00 100.00 4861 I 1 DAF 100.00 100.00 100.00 100.00
|
||
4991 _LQ_ III) 1 DAF 210,9.9- 210,.99. 207.17 207.17 4991 _L£L III) 1 OAF 760.00 760.00 749.76 749.76
|
||
END 19 END
|
||
|
||
BEGIN NS -16 LSMC.. C.= 0.21 (C Q.1Q»CSC B) BEGIN NS C = 0.21 (C = 0.10*CSC B)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C WAVE IDFNT N RG REF OBS I AVE 0 CORR I AVE C
|
||
3727 (O II ) 1 DAF 260.00 39.Q-f.36_ 4861 1 1 DAF 100.00 100.00 100.00 100.00
|
||
4101 1 DAF 39.00 39.00 42.85 42.85 (O 111 ) 1 1 DAF
|
||
4340 1 DAF 89.00 89.00 94.91 94.91
|
||
*861 _1 DAF 100,00 IQQtQQ 1.00...00 1Q0.00 REGION KEY (REGI ON.REFERENCE.EXPLANATION)
|
||
4991 (0 III) 1 DAF DAF NGC 3 95
|
||
_EN£ NS 3* LSM£ L_
|
||
|
||
BEGIN NS 37 (SMC ) C = 0.21 (C = 0.10*CSC B) BEGIN NS 80 (SMC ) C = 0.21 (C = 0.10*CSC
|
||
WAVE IDENT N RG REF AVE O CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR 1
|
||
3727 (O II ) 1 DAF 280.00 323.47 4861 H I l DAF 100.00 100.00 100.00 100.00
|
||
4101 H I 1 DAF 53.00 53.00 58.23 58.23 4991 (0 III) 1 DAF 270.00 270.00 266.36 266.36
|
||
4340 H I 1 DAF 88.00 88.00 93.85 9-U.-85-
|
||
4861 H I 1 DAF 100.00 100.00 100.00 100.00
|
||
4991 (0 III) 1 DAF 310.00 310.00 305.82 305.82
|
||
37
|
||
C• 18 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I CORR I
|
||
BEGIN NS (SMC 0.0 (HYDROGEN LINES) 3727 (O II ) 1 DAF 250.00 282.92
|
||
_1 A DUE 173.00 195.78
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I (NE III) 1 DAF 35.00 24.65 38.94 27.43
|
||
3727 (0 11)1 1 DAF 140.00 140.00 1 A DUF 14.30 24.65 15.91 27.43
|
||
1 A DUF 69.30.- 69-. 30 3889 _I 2 A DUF 12.50 13.87
|
||
3835 HI 1 A DUF 3.70 3.70 3.70 3.70 3889 HE I 2 A DUF 12.50 13.87
|
||
3865 (NE III) 1 1 DAF 60.00 60.00 60.00 60.00 3969 H I 2 DAF 18.00 19.81
|
||
3869 (NF III) 1 A DUF 31.20 31.20 3.1.20 31.2Q _2 A DUF -15.20
|
||
2 1 DAF 20.00 20.00 (NE III) 2 DAF 18.00 19.81
|
||
2 A DUF 12.60 12.60 2 A DUF 15.20 16.73
|
||
|
||
|
||
665
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
N5_ 83 (SMÇ NGC 595 (M 33
|
||
WAVE IDENT N RG REF OBS I AVE 0 CQRR AVE C IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
fr-LOl H I _J DAF 38,QQ 28.95 _il»19_ 31.38 -LU. III J L_ Mil 13Q.Ü9 UO.flfl 128.17 UÆ*17
|
||
l A DUF 19.90 28.95 21.57 31.38 6563 I l 49 CM 100.00* 84.56*
|
||
1 DAF 63.00 52.90 66.57 55.90 6584 (N II } 1 49 CM 7.40* 6.25*
|
||
l A DUF »2-80 52.90 45.23 55.90 ,6717 (S II 1 1 V? ÇM 1-6Q» l.t.14»
|
||
4363 (0 III 1 A DUF 3.65 3.65 3.85 3.85 6731 ( S II I 1 49 CM 1.10*
|
||
4471 HE I 1 A DUF 3.70 3.70 3.86 3.86
|
||
4861 _H I 1 OAF 100.00 100.00 100.00 100.00 REGION KEY (REGI ON»REFERENCEtEXPLANATI0N1
|
||
1 DUF 100.00 100.00 100.00 100.00 49» CM SAME AS CC 49
|
||
4959 10 II I) 1 DUF 121.00 121.00 119.94 119.94
|
||
4991 (0 II I) 1 OAF 330.00 330.00 326. 18 326.18
|
||
5007 to III DUF 366.00 366.00 361.22 361.22
|
||
5876 HE I DUF 12.80 12.80 11.71 11.71
|
||
6548 IN II DUF 3.00 2.62 A
|
||
6563 H I DUF 306.00 3C6.00 266.76 BEGIN NGC 604 tM 33 C = 0.22 (HYDROGEN LINESI
|
||
6583 (N II DUF 10.20 10.20 8.88
|
||
6678 HE I DUF 3.00 3.00 2.60 -MAVE- IDENT N RG REF OBS AVE O CÚRR I AVE C
|
||
6716 ( S II ) l A DUF 21.30 21.30 18.40 18.40 3686 H 1 ACM 1.20 1.20 1.40 1.40
|
||
6731 t S II > l A DUF 14.40 14.40 12.43 12.43 3691 1 AC W 1.40 1.40 1.64 1.64
|
||
. 7_L3_& (AR II I) 1 A DUF 10.40 IQ.t.iO 8.78 8.78 3697 _J ACM i t IQ _1 » 7 Q_ 1^9 1.99
|
||
3704 AC W 2.50 2.92
|
||
REGION KEY (REGION,REFERENCE,EXPLANATI ON) 3704 HE I ACM 2.50 2.92
|
||
A» DUF » NGC 456 3712 _d I_ _1 ACW 2.00 2.00 2 » 3.3 2.» 3 3
|
||
3721 H I 2 ACW 6.10 7.10
|
||
3721 IS III) 2 ACW 6.10 7.10
|
||
3726 _LQ LL ) 1 173*30 -201*23-
|
||
ACW 66.00 76.78
|
||
P70 263.00 305.97
|
||
BEGIN NS t SMC 0*21 tC = QtlQȣSC B) 1 PS 234.00 -272t23
|
||
1 SR 71 210.00 244.31
|
||
WAVE IDFNT N RG REF OBS I CORR I 3728 (0 II ) I ACW 94.00 109.31
|
||
3727 _LQ II > 1 HAF 340.00 623.83 3734 _.JU_ _L _J LLM 2m-lQ 2.7Q 3.14 3.14
|
||
3868 (NE III) 1 DAF 87.00 98.54 3750 H I 1 ACW 2.90 2.90 .36 3.36
|
||
3969 H I 2 DAF 24.00 26.83 3770 H I 1 ACW 3.60 3.60 4. 16 4.16
|
||
3969 (NE III) 2 DAF 24.00 ¿6.83 3797 _J A£M_ 5l*¿Q- 5.60 - 6.45 6.45
|
||
4101 DAF 44.00 44.00 48.34 48.34 3819 HE I 1 ACW 1.40 1.40 1.61 1.61
|
||
4340 DAF 73.00 73.00 77.85 77.85 3835 H I 1 ACP 6.55 6.62 7.50 7.59
|
||
486-1 DAF 100.00 100.QQ LQQ.QQ 10Q.QQ _1 ACW 6.IQ 6.62 7.67 7.59_
|
||
(0 III) l 490.00 490.00 483.40 483.40 3868 (NE III) 1 ACP 7.55 8.77 8.60 10.00
|
||
1 ACW 10.00 8.77 11.39 10.00
|
||
3888 H 2 15.00 17.Q.4
|
||
2 ACW 17.00 19.31
|
||
2 ACP 15.00 17.04
|
||
2 ACW 17.00 19.31
|
||
C = 0.18 (HYDROGEN LINES) (NE III) 2 ACP 21.50 24. 17
|
||
1 ACW 3.20 3.60
|
||
IDENT N RG REF - OBS I •AVE Q CORR I AVE X -39 70 . ti I 2 71.50 24.16
|
||
3727 (0 II 1 DAF 200.00 226.33 1 ACW 15.00 15.00 16.86 16.86
|
||
1 1 DUF 167.00 188.99 4026 HE I 1 ACW 2.10 2.10 2.34 2.34
|
||
3868 (NE III _1 1 DAF 32.00 35.61 28.37 4068 _JLS II ) A ACM 1.^8 Q -L. 7.00
|
||
l DUF 19.00 21.14 4072 (S II ) l ACP 12.40 12.40 13.74 13.74
|
||
3969 1 DAF 10.00 11.00 4076 (S II I 1 ACW 1.00 1.00 l.ll l.ll
|
||
3969 (NE III) 2 1 DAF 1Q.QQ 11.00 4097 N III 2 24^0 26*50.
|
||
4101 l l DAF 17.00 17.00 18.43 18.43 2 ACP 24.00 26.49
|
||
4340 1 i AF 62 41.00 38.40 43.32 40.58 l ACW 24.00 26.47 26.49 29.21
|
||
-J 1 DAF 31.00 38.40 32.76 40.58 1 PE HA 62 30.90 26.47 34.10 29.21
|
||
1 DUF 43.20 38.40 45.65 40.58 l PG MA62 38.70X 42.71X
|
||
(Q III) 1 1 AF 62 6.30 5.74 6.64 6.05 1 PS 24.50 26.47 27.04 29.21
|
||
1 1 DUF 5.18 5.74 5.46 6.05 4267 II 1 ACW 0.20 0.20 0.22 0.22
|
||
4471 HE I 1 1 AF 62 3.80 3.80 3.96 3.96 4340 I 2 ACP 37.10 39.69
|
||
4861 H I 1 1 AF 62 100.00 100.00 100.00 100.00 1 ACW 44.00 47.70 47.07 51.02
|
||
1 DAF 100.00 100.00 100.00 100.00 l PB MA62 50.00 47.70 53.48 51.02
|
||
1 l DUF 100.00 100.00 100.00 100.00 1 PG MA 62 60.50X 64.72X
|
||
4959 (0 II) l 1 AF 62 164.00 164.00 162.57 162.57 1 P70 49.00 47.70 52.42 51.02
|
||
499j (0 II) 1 1 DAF 720.00 720.00 711.68 711.68 -J Pi- 47.80 47.70 51.13 51.02
|
||
5007 1 1 AF62 465.00 421.00 458.92 415.50 (0 III) 2 ACP 37. 10 39.57
|
||
1 l DUF 377.00 421.00 372.07 415.50 1 P70 1.07 1.07 1.14 1.14
|
||
-5876. 1 1 DJF 11.80 11.80 -IQ.ap 10. 80 HE I I AC.W_ 0.60 0.60 0.64 0.64
|
||
6563 4471 HE I 1 ACW 6.00 6.00 6.32 6.32
|
||
4861 I l ACP 100.00 100.00 100.00 100.00
|
||
REGION KEY (REGI ON » PEFERFNCE»EXPLANATI ON) 1 ACW ICKUQQ 100.00 100.00 100.00
|
||
AF 62 » NGC 346 1 PE MA 62 100.00 100.00
|
||
DAF , NGC 346 1 PG MA 62 100.OOX 100.OOX
|
||
1» DUF » NGC 346 1 P 70 IQQt-QQ . 100.00 100.00 100.00 100.00
|
||
1 PS 100.00 100.00 100.00
|
||
1 SR 71 100.00 100.00 100.00 100.00
|
||
1 ACW 2.60 2.60 2.58 2.58
|
||
(0 III) 1 ACP 64.70 64.85 64.01 64.16
|
||
1 ACW 65.00 64.85 64.31 64.16
|
||
0.22 (ESTIMATE) -i?91 (0 III) i $*71 280.00 280.00 276.05 276.05
|
||
(0 III) 1 ACP 187.00 197.00 184.02 193.86
|
||
WAVE IDFNT N RG REF OBS I AVE Ú CORR I AVE C 1 ACW 198.00 197.00 194.85 193.86
|
||
4861 H I 1 SR 71 100.00 100.00 100.00 100.00 1 P70 208.00 197.00 204.69 193.86
|
||
4991 (0 III) 1 SR 71 l PS 195.00 197.00 191.89 193.86
|
||
5015 HE I 1 ACW 6.00 6.00 5.90 5.90
|
||
END NGC 588 (M 33 ) .-5S76 HE I 1 PE MA62 20.00 17.40 17.94
|
||
1 PG MA 62 20.OOX 17.94X
|
||
1 PS 14.80 17.40 13.27 15.61
|
||
6524 _i_N LL ) 1 SR 71 77.00 .77*00— 6?.32 65t?2
|
||
BEGIN NGC 592 0.22 (ESTIMATE) 1 BOP IOO.00* 84.56*
|
||
l PE MA62 354.00 333.33 299.34 281.86
|
||
WAVE N RG REF AVE Q CûflR I AVE C -I Ei- 346.QQ 333.33 292.38 281.86
|
||
4861 SR 71 100.00 100.00 100.00 100.00 1 SR 71 300.00 2 53.68
|
||
4991 (0 III) l SR 71 250.00 250.00 246.47 246.47 (N II ) 1 BOP 14.00* 11.82*
|
||
A Ei 4.I*3Q_ ,47.80 40.35 40.35
|
||
NGC 592 6717 ( S II ) BOP 10.00* 8.36*
|
||
6731 f S II ) BOP 8.00* .68*
|
||
REGION KEY (REGI ON,REFERENCE»EXPLANATION)
|
||
BEGT N NGC 595 (M 33 0.22 (ESTIMATE) PE, MA62, PHOTOELECTRIC OBSERVATIONS
|
||
PG. MA62. PHOTOGRAPHIC OBSERVATIONS
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I 1 SR 71 100.00 100.00 100.00 100.00 NGC 604
|
||
|
||
666
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
TABLE 8—Continued
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
|
||
|
||
669
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN SR3 15 (M 33 0,07 {HYDROGEN LINES) BEGIN M 51 (M 51 Q.QB iESTIHATE1
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I WAVE IDENT N RG REF OBS I AVE 0 CORR I
|
||
3727 (0 II ) 1 SR 71 140.00 146.90 3727 (0 II ) 1 1 P68 2.60» 2.75»
|
||
4861 H I 1 SR 7 1 100.00 100.00 100.00 100.00 1 2 P68 1.90» 2.01»
|
||
4991 (0 HU 1 SR71 490.00 490.00 487.79 487.79 1 1 WAR .34.00» 35.92*
|
||
6524 (N II ) 1 SR7 1 75.00 75.00 71.17 71.17 10 III ) 1 1 WAR. 4.00» 4. 09*
|
||
6563 H I 1 SR 71 300.00 300.00 284.41 284.41 5007 I IT ) 1 1 P68 3.20* 3.18*
|
||
1 2 P68 l. 10* 1.09*
|
||
END SR 3 15 (M 33 ) _1 I WAR 61.Q0» 60.64*
|
||
1 2 WAR 40.00* 39.77*
|
||
I I 1 1 P68 0.52* 0.49*
|
||
.69* 0.65*
|
||
BEGIN SP3 C = 0.22 (ESTIMATE) 6548 (N II ) -11 12 P68P68 3.10* 2.92*
|
||
1 2 P68 1.50* 1.41*
|
||
...WAVE IDENT N RG REF QBS I AVE O CORR I AVE C 6563 to nn.i 2_ WAR 100.00* 94.08*
|
||
4861 I 1 SR 7 1 100.00 100.00 100.00 100.00 l 3 WAR 100.00* 94.08*
|
||
4991 (0 III) l SR7 1 250.00 250.00 246.47 246.47 l 4 WAR 100.00* 94.08*
|
||
6563 -J L P68 3.LQt_ ?.97*
|
||
P68 3.10* 2.92*
|
||
WAR 100.00* 94.08*
|
||
6584 _LN II ) l 1 Pfr9 7.80* 7.33*
|
||
1 2 P68 4.30* 4.04*
|
||
BEGIN Sp3 21 (M 33 C = 0.22 (ESTIMATE) l l WAR 410.00* 385.50*
|
||
-J 2 WAR 260.00* 244.47*
|
||
IDENT N RG REF □ BS I AVE 0 CORR I AVE C 1 WAR 132.00* 124.11*
|
||
4861 H I l SR71 100.00 100.00 100.00 100.00 1 4 WAR 40.00* 37.61*
|
||
(0 III ) 1 S-R71- 400-00 4QQ.QQ 394.35 394.35 IT)? 1 P 7 1 o.,3at_ 0. 36*
|
||
2 1 WAR 44.00* 41.23*
|
||
2 2 WAR 32.00* 29.98*
|
||
_1 ÍL. WAR 29.00*--
|
||
(S II ) 2 1 P 71 0.38* 0.36*
|
||
2 l WAR 44.00* 41.21*
|
||
..BEGIN Sp3 22 33 C = 0.22 (ESTIMATE) 2 2_ WAR 37.nn* 79.97*
|
||
WAVE IDFNT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I 1 SR 7 1 100.00 100.00 1QQ.QQ 1QQ.QQ REGION KFV (REGTON.RFFERENCF.FXPLANATION)
|
||
4991 (G III) l SR 71 310.00 310.00 305.63 305.63 1, P68 , 0-3.5 ARCSEC AROUND CENTER
|
||
2, P68 , 0-10 ARCSEC ARCUNC CENTER
|
||
END SR3 22 (M 33 ) 1. P71 . SAME NOTE AS P68
|
||
WAR , NUCLEUS. 2.5 ARCSEC CIRCULAR APERTURE
|
||
WAR , NUCLEUS. 6.0 ARCSEC CIRCULAR APERTURE
|
||
WAR . Nllf.l F1IS. 30 ARCSEC APER-Ul&f
|
||
BEGIN SR3 23 (M 33 ) C = 0.22 (ESTIMATE) 4, WAR , 30 ARCSEC OFF NUCLEUS. 2.5 ARCSEC CIRC. APERTURE
|
||
WAVE IDENT N RG REF QB.S_ I AVE Q CORR I AVE C END M 5J (M 51 )
|
||
4861 H I 1 SR 71 100.00 100.00 100.00 100.00
|
||
4991 (0 III) l SR 71 250.00 250.00 246.47 246.47
|
||
BEGIN SR5 0.20 (ESTIMATE)
|
||
N RO REF AVF n CORR I AVE-C-
|
||
4861 H I l SR71 100.00 100.00 100.00 100.00
|
||
C = 0.22 (ESTIMATE) 4991 (0 III) 1 SR 71 16.00 16.00 15.79 15.79
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
4861 H I 1 SR71 100.00 100.00 100.00 100.00
|
||
4991 IG TIT) 1 SR 7 1 700.00 700.00 197.18 197.18
|
||
= 0.27 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
4861 H I l SR 71 100.00 ICO.00 100.00 100.00
|
||
-PEGIN Sg3 76 (M 33 C = 0.22 (ESTIMATE) 4991 (0 UI? 1 £RI1 20tQQ . 20.00 19.55 19.65
|
||
6524 (N ) l SR71 190.00 190.00 155.26 155.26
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR l AVE C 6563 H l SR 7 l 350.00 350.00 284.89 284.89
|
||
4861 H I 1 SR 71 100.00 1QQ-QQ. 1QQ.QQ 1QQ.QQ
|
||
4991 (0 III) 1 SR71
|
||
-END SP_3 26 (M 3-3 fc_
|
||
BEGIN SR5 C = 0.20 (ESTIMATE)
|
||
BEGIN SR3 27 (M 33 ) C = 0.22 (ESTIMATE) WAVE IDENT N RG REF GBS I AVE O CORR I AVE C
|
||
4861 H I I SR71 100.00 100.00 100.00 100.00
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C 4991 (0 III) 1 SR71 51.00 51.00 50.35 50.35
|
||
4861 H I l SR71 100.00 100.00 100.00 100.00
|
||
4991 (0 III) 1 SR71 790.00 790.00 778.85 778.85
|
||
|
||
BEGIN SR5 51 C = 0.11 (HYDROGEN LINES)
|
||
0.22 (ESTIMATE) WAVE IDENT N RG REE OBS I AVE 0 CORR I AVE C
|
||
3727 (O II ) 1 SR71 49.00 52.85
|
||
WAVE IDENT N RG REF ORS I AVE O CORR I AVE C 4861 H I 1 SR 71 100.00 ICO.00 100.00 100.00
|
||
4861 H I l SR 71 100.00 100.00 100.00 100.00 4991 (0 111)1 SR71 27.00 27.00 26.81 26.81
|
||
4991 (0 III) 1 SR 71 250.00 250.00 246.47 246.47 6584 (N II ? 1 SR71 170.00 170.00 156. 19 156.19
|
||
6563 H I 1 SR 71 310.00 310.00 285.06 285.06
|
||
END
|
||
4 (M 51 L
|
||
BEGIN SR 3 30 C = 0.22 (ESTIMATE)
|
||
C = 0.0 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 H I 1 SR 71 100.00 100.00 100.00 100.00 WAVE IDENT N RG REE QBS-L- CORR I AVE. C
|
||
4991 (0 III) l SR71 I 1 1 WAR 100.00* 100.00*
|
||
l 2 WAR 100.00* 100.00*
|
||
END . SR 3 30 (M 33 ) _1 3 WAR 100.00» IQQtQQ*
|
||
11)1 l WAR 229.00* 229.00*
|
||
l 2 WAR 92.00* 92.00*
|
||
_1 3 WAR 92.QQ* 92.00*
|
||
6717 (S 11)1 3 WAR 54.00* 54.00*
|
||
6731 (S II ) 1 3 WAR 48.00* 48.00*
|
||
|
||
670
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
64
|
||
REGION KEY (REG ION,REFERENCE,EXPLANAT ION I BEGIN NGC 5461 (M 101 0-10 (HYDROGEN LINES)
|
||
1, WAR , NUCLEUS. 2.5 ARCSEC CIRCULAR APERTURE
|
||
WAR NUCLEUS. 6.0 ARCSEC CIRCULAR APERTURE WAVE IDENT N RG REF OBS I CORR I AVE C-
|
||
WAR NUCLEUS. 30 ARCSEC APERTURE 3727 (O II ) 1 PS 166.00 177.81
|
||
4102 H 251. QQ 251.QQ 262.49 ? 62.49
|
||
(M 64 4340 1 PS 44.70 44.70 46.09 46.09
|
||
4861 1 PS 100.00 100,00 100.00 100.00
|
||
_1 SR71 IQQt QQ l.q.Q«.Q.Q_ 100.00 100.00
|
||
4991 (0 III) 1 SR 71 430.00 430.00 427.23 427.23
|
||
<M 81 0.08 (ESTIMATE) 5007 (0 III) 1 PS 331.00 331.00 328.59 328.59
|
||
5876 HE I 12.90 12.90- 12.28 12.28
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I 6563 H I 1 PS 338.00 338.00 313. 19 313.19
|
||
3727 (O II ) 1 ALLO 150.00* 158.48* 6584 (N II ) l PS 44.70 44.70 41.39 41.39
|
||
_L 1 P68 170.00 179.61
|
||
1 1 WAR 32. 00* 33.81* END NGC 5461 (M 101 )
|
||
4340 I i 1 P68 50. 00 50.00 51.24
|
||
4363 _LQ HD 1 ALLO 00* 5.12*
|
||
4861 I 1 1 P68 100. 00 ICO.00 100.00 100.00
|
||
5007 (0 III) 1 ALLO 45, 00* 44.74* BEGIN NGC 5462 (M 101 C = 0.0 (NO CALCULATION)
|
||
1 1 P68 120i £0 L2-Q.,.Q_Q_ 119.30 119.30
|
||
1 WAR 23. 00* . 87* WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
(01)1 ALLC 70. 00* 66.35* 4861 H I l SR 71 100.00 100.00 100.00 100.00
|
||
_1 1 P68 66.00 66.00 62.56 62.56 4991 (0 III) 1 SR 7 1 410.00 41Q. QQ 410.00 410.110-
|
||
6548 ) 1 ALLO 115, 00* 108. 24*
|
||
1 1 P68 140. 00 140.00 131. 78 131.78 END NGC 5462 (M 101
|
||
6563 _H__L 1 ALLO _LÛ£Li 00* _2íti Ufi*
|
||
1 1 P68 280. 00 280.00 263. 43 263.43
|
||
1 1 WAR 100. 00* 94. 08*
|
||
_J ? WAR 100. Hû* 94. Hfl* R PO T N Nnr 8471 (M 101 n.2D (HYDROGEN I INFS)
|
||
1 3 WAR 100. 00* 08*
|
||
(N II ) 1 ALLO 290. 00* 272 ,67* WAVE IDENT OBS I CORR I
|
||
J 1 P68 400. no 4nn.nn 376 JH 376. 3727 (P II » 105.00 120.47
|
||
l 1 WAR 230. 00* 216. 26* I SR 71 140.CO 160.63
|
||
1 2 WAR 174. 00* 163, 60* 3868 (NE III) 1 SS 56. 00 56. 00 63.05 63.05
|
||
-J 3 WAR 375. 00* 35?. 59» 4101 ti I 1 ss 2B.QQ 28.QQ 30.63 30.63
|
||
(S II ) 2 l P71 0. 15* . 14* 1 PS 42.70 43.85 45.40 46.62
|
||
1 1 WAR 12. 00* .24* l SS 45.00 43.85 47.84 46.62
|
||
_LG III). J ss_ 6.00 6.QQ- . 6.36 6.36...
|
||
3 WAR 126. 00* 118. 06* 4471 HE I SS 4.40 4.40 4.61 4.61
|
||
6731 (S 1 P 71 0, 15* 0. 14* 4861 H I PS 100.00 100.00 100.00 100.00
|
||
SR 7 1 100.00 ICO.00 100.00 100.00
|
||
1 2 WAR 37. 00* 34. 66* SS 100.00 100.00 100.00 100.00
|
||
2 3 WAR 126. 00* 118, 02* 4991 (0 III ) SR 71 780.CO 780.00 769.99 769.99
|
||
5007 LQ— III) _e_s 562. 00 562.00 553.84 553.84
|
||
REGION KEY (REG ION,PEFERENCE,EXPLANATION) PS 14.40 12.90 13.04 11.69
|
||
1, P68 , 0-3.5 ARCSEC AROUND CENTER 1 SS 11.40 12.90 10. 33 11.69
|
||
1. P71 . SAME NOTE AS P6B 6524 _LN LI L J SR 71 13.Q.Q . 13.QQ 11. 19 11.19
|
||
1, WAR , NUCLEUS. 2.5 ARCSEC CIRCULAR APERTURE 6563 H I 1 PS 316.00 3C8.00 271.31 264.44
|
||
2, WAR , NUCLEUS. 6.0 ARCSEC CIRCULAR APERTURE 1 SR7l 300.00 308.00 257.58 264.44
|
||
3, WAR . NUCLEUS. 30 ARCSEC APERTURE 6584 LN Il 1 1 PS 9.55 6.42 8. 19 5^5L.
|
||
SS 3. 30 6.42 2.83 5.51
|
||
SS 27. 00 27. 00 22.94 22.94
|
||
|
||
_L_ f. = 1.79 (HYDROGEN 1 INFS)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
3727 (0 II ) 1 P S 70 38. 00 130.01 0.20 (ESTIMATE)
|
||
4340 H I 1 PS70 29.00 29.00 50.17 50.17
|
||
4861 H I 1 PS70 100.00 ICO.00 100.00 100.00 WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
5007 _tn ni) i PS70 45. QQ 45.QQ 39.46 39.48 3727 (O II ) 1 SR 71 39.00 44.75
|
||
5876 HE I l PS70 21.00 21.00 8.67 8.67 4863 H I 1 SR 71 100.00 100.00 99.98 99.98
|
||
6300 (O I ) 1 PS70 16.00 16.00 4.82 4.82 4991 (0 III) 1 SR71 13.00 13.00 12.83 12.83
|
||
6563 H I _L_ PS7Q 138Q.QQ 1380.00 352. 57 352.57 __6J>2_4
|
||
6563
|
||
LN II )
|
||
H I
|
||
1
|
||
I
|
||
SR 7 1 160.00
|
||
SR 71
|
||
160.00 137.77 13Í.77
|
||
6584 (N I I ) 1 PS70 740.00 740.00 186.46 186.46
|
||
6724 ( S II ) 1 PS70 250.00 250.00 58.03 58.03 END SRI 2 (M IQl )
|
||
10938 H I PS70 240.00 240.00 12.62 12.62
|
||
|
||
BEGIN SP1 3 (M 101 ) C = 0.20 (ESTIMATE)
|
||
WAVE IDENT N RG REF AVF n CDRR I —AVE C
|
||
4861 H I l SR 71 100.00 100.00 100.00 100.00
|
||
BEGIN NGC 5455 (M 101 0.07 (HYDROGEN L INES) 4991 (0 III) 1 S R 71 13.00 13.00 12.83 12.83
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I AVE C
|
||
3727 (O II ) 1 SR 71 210.00 220. 35
|
||
3868 (NE 111)1 SS 17.00 17.00 17.72 17.72
|
||
4101 H I 1 SS 29. 00 29.00 29.92 29.92
|
||
4340 H I 1 SS 50. 00 50.00 51.08 51.08 BEGIN SRI C = 0.20 (ESTIMATE)
|
||
4363 (0 III) 1 _ü_ 1.80 1.80 1.84 1.84
|
||
4471 SS 3. 50 3.50 3.56 3.56 WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
4861 SR 7 1 100.00 100.00 100.00 100.00 4861 H I 1 SR 71 100.00 100.00 100.00 100.00
|
||
100.00 100.00 100.00 100.00 4991 (0 III) 1 SR 71 40.00 40.00 39.49 39.49
|
||
4991 (0 III) 1 SR 71 440.00 440.00 438.01
|
||
5876 HE I l SS 9.30 9.30 8.98
|
||
6524 (N II ) 1 SR71 56.00 56.00 53.14 53.14
|
||
6563 I 1 SR 71 300.00 300.00 284.41 284.41
|
||
6723 II ) l SS 55.00 55.00 51.95 51.95
|
||
NGC 5455 (M 101
|
||
|
||
|
||
|
||
|
||
671
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
BEGIN SRI (M 101 C = 0.23 (HYDPQGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C (NGC 68221 0.71 I HYDROGEN LINES)
|
||
3727 10 II ) l SR7I 130.00 152.26
|
||
4861 H I 1 SR71 100.00 ICO.00 100.00 100.00 WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
4991 (O I I I ) 1 SR71 28.00 28.00 27.59 27.59 3726 (O II I 2 PS1 140.00 228.15
|
||
-J>524_ IN II ) 1 S371 22Q-.QQ 22Q.QQ 185.23 185.23 3729 LQ Li-.J 2 PSl I40.nn .227.84
|
||
6563 H I 1 SR 71 340.00 340.00 4102 H I 1 PSl 22.00 22.00 30.23 30.23
|
||
4340 H I 1 PSl 33.00 33.00 41.02 41.02
|
||
END SRI 5 (M 101 ) 4363 <0 III) 1 PSl 3.70 3.70 4.56
|
||
4861 HI 1 PSl 100.00 100.00 100.00 100.00
|
||
5007 (0 III) 1 PSl 560.00 560.00 531.67 531.67
|
||
6563 H I 1 PSl 480.00 480.00 279.37 279.37
|
||
C = 0.27 (HYDROGEN LINES) 6584 <N II ) 1 PSl 15.00 8.68 8.68
|
||
6716 (S II ) 2 PSl 30.00 16.84
|
||
-HAVE IOFNT N RG REF OBS I AVE O CORR I AVE C 6731 (S 11)2 PSl 30.00 16.78
|
||
3727 (O II ) 1 SR71 220.00 264.85
|
||
4861 H I 1 SR71 100.00 ICO.00 100.00 100.00 iNGC 6822)
|
||
4991 (C I II ) 1 SR71 140.00 140.00 137.5
|
||
6524 (N II ) 1 SR 71 130.00 130.00 106.23 106.23
|
||
6563 I l SR 71 350.00 350.00 284.89 284.89
|
||
BEGIN NGC 7679 (NGC 7679) 0.31 I HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE 0 CORR I AVE C
|
||
-3.72-7 (O II ) 1 PS -UP..QQ 136.12
|
||
4102 H I PS 110.00 110.00 126.38 126.38
|
||
0.20 (ESTIMATE) 4861 H I 1 PS 100.00 100.00 100.00 100.00
|
||
5007 LQ III ) J BS_ 112 .00 109.49 —
|
||
WAVE IOFNT N RG REF DBS I AVE O CORR I AVE C 5876 HE I 1 PS 12.60 12.60 10.81 10.81
|
||
4861 H I 1 SR 71 100.00 100.00 100.00 100.00 6563 HI 1 PS 363.00 363.00 286.60 286.60
|
||
4991 (0 III) 1 SR 71 190.00 190.00 187.56 187.56 6584 (N II ) 1 PS 170.00 170.00 133.90 133.90
|
||
NGC 7679 (NGC 7679)
|
||
|
||
C = 0.20 ( ESTIMATEi_ ( ¿W 18 C = 0.19 (HYDROGEN LINES)
|
||
WAVE IDE NT N RG REF □ BS I AVE 0 CORR I AVE C WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
-4861 _H I 1 SR 7.1 - 100.00 i no.on 100.00 100.00 3727 LQ II ) 1 SS 29.00 13* 04
|
||
4991 (0 III) 1 SR71 3869 (NE I II ) 1 SS 12.00 12.00 13.43 13.43
|
||
4101 HI 1 SS 25. 00 25.00 27. 22 27.22
|
||
_£N0 SR4 14 (M 101 1— 4340 ti I 1 SS 43.00 43.00 45.58 45.58
|
||
4363 (0 I II ) 1 SS 6.60 6.60 6.98 6.98
|
||
4471 HE I 1 SS 4. 80 4.80 5.02 5.02
|
||
4861 100.00 100.00 100.00 100.00
|
||
REGIN SRI 0.11 (HYDROGEN L INES) 4959 (0 III) l SS 71.00 71.00 70.35 70.35
|
||
5007 (0 III) 1 SS 221.00 221.00 217.95 217.95
|
||
5876 HE I 1 SS 10.00 10.00 9.10 _9-t-l Q
|
||
3727 (0 II)l SR 71 200.00 215.70 6563 H 1 SS 330.00 330.00 285.50 285.50
|
||
4861 (O II ) 1 SR71 100.00 100.00 100.00 100.00 6723 (S ) 1 SS 15.00 15.00 12.85 12.85
|
||
-4991- _LQ T I I ) 1 SR7-1 500.00 500.00 696.-46 496.66-
|
||
6542 SR 7 1 19.00 19.00 17.49 17.49
|
||
6563 S R 71 310.00 310.00 285.06 285.06
|
||
C = 0.14 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I CORR I AVE C
|
||
BEGIN NGC 4151 (NGC 4151) 0.23 (HYDROGEN LINES) 3727 (O II ) 1 SS •44.00 48.44
|
||
3869 (NE III) 1 SS 26.00 28.25 28.25
|
||
WAVE IDENT N RG REF OBS I AVE C CORR I AVE C 4101 HI 1 SS 18.00 18.00 19.17 19.17
|
||
4861 H I 1 P 71 100.00 100.00 100.00 100.00 4340 HI l SS 38.00 38.00 39.66 39.66
|
||
-5QQI _LQ III) I _P71 210.00 21Q.Q0 2Q6.5Q -2Q6.5Q 4363 LQ III) 1 S-S 10.00 10.00 10.42 10.42
|
||
6300 1)1 P 71 18.00 18.00 15.43 15.43 4471 HE I l SS 3.00 3.00 3.10 3.10
|
||
6563 I 1 P 71 340.00 340.00 285.32 285.32 4861 HI 1 SS 100.00 100.00 100.00 100.00
|
||
—6-7-L6— IS LL 2 P 71 --5-2^00 43.13 4959 LQ III) 1 IS 248.00 248.00 246.31 246.31
|
||
6731 (S II ) 2 P 71 52.00 5007 (0 III) 1 SS 794.00 794.00 785.91 785.91
|
||
5876 HE I l SS 11.00 11.00 10.26 10.26
|
||
END NGC 4151 (NGC 4151) 6563 H 1 1 S-S 690.00 69-0^00 62-0. 15 620.15
|
||
( S 11)1
|
||
BEGIN NGC 4214 (NGC 4214) =' 0.15 (HYDROGEN L INES)
|
||
.WAVE IDF NT N RG REF OBS I AVE -Q CORR I AV£„.C. .
|
||
3727 (O II ) l SR 71 130.00 144.12
|
||
4861 H I 1 SR 71 100.00 100.00 100.00 100.00
|
||
4991 (0 III ) 1 SR71 47Q.QQ 47Q-.-Q-Q 465.47 465*A7_
|
||
6524 II ) 1 SR7 l 40.00 40.00 35.75 35.75
|
||
6563 I l SR71 320.00 320.00 285.42 285.42
|
||
(NGC 4214)
|
||
|
||
BEGIN NGC 4449 (NGC 4449) C = 0.22 (HYDROGEN LINES)
|
||
WAVE IDENT N RG REF OBS I AVE O CORR I
|
||
3727 (0 II ) l PS 251.00 291.96
|
||
4340 -PS 5Q.QQ 5Q.QQ 53.48 53.48,
|
||
4861 I 1 PS IOO. 00 100.00 100.00 100.00
|
||
5007 III ) l PS 380.00 380.00 373.94 373.94
|
||
-58.76 . HE I -ES- L2.3Q L2.3Q 292.58
|
||
346.00 LUÜ3 292.58
|
||
11*Q3_.
|
||
6563 I 1 PS 346.00
|
||
6584 II ) 1 PS 19.00 19.00 16.04 16.04
|
||
(NGC 4449)
|
||
|
||
|
||
|
||
|
||
672
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
A ALLE£,L ,113,125,1951
|
||
A41 ALLEP,L.H.,AP.J.,93,236,1941
|
||
ABM ALLpR,L . H•,ROWCN,I•S•,AND MINKOWSKI,R.,AP.J., 122,62, 1955
|
||
ABW AL L EF , 1 .H., BOWEN, I .S.,ANn W IL SON , O . C - ,'AP . J • , 1 38,1013,1963
|
||
AC70 ALLER,L.H. AND CZY 2AK,S.J.,AP.J. , 160,929,1970
|
||
ACB ALLER,L.H.,CZYZAK,S,J.,ANDD PUFRGER,E.G.,AP.J.,l62,783,1970
|
||
ACBL ALLEF,L.H.,CZY7AK,S.J.,BUE GER,E.G.,AND LEE,P.,AP.J.,172,361,1972
|
||
ACCK ALLER,L.H*,CZYZAK,S.J«,CHAINE,E*,S KALEP,J.E. ,AP.J.,182,509,197 3
|
||
ACKB ALLER,L.H. ET AL.,PRGC.NAT.AC AD.SCI.,71,4496, 1974
|
||
ACP ALLER,L.H.,AND CZYZAK,S.J.,UN PUBL I SHEC P HCTCELECTRIC
|
||
AC PG ALLER,L.H.,AND CZYZAK,S.J.,UNPUBLISHED PHOTOGRAPHIC
|
||
ACW ALLER,L.H.,CZYZAK,S.JAND WALKER,M.F .,AP.J.,151,49L,1968
|
||
AD ADAMS,T.F.,AP.J.,202,114,1975
|
||
AE ALLER,L.W.,AND EPPS,H.W . ,AP.J.,197,l 75, 1975
|
||
AE2 ALLER,L.H., AND EPPS,H.W.,A P.J,1976, IN PRESS
|
||
AF ALLER,L.H.,AND FAULKNER,D.J.,I AU SYMF.NO.20,P.45,1964
|
||
AF62 ALLER,L.H., AND FAULKNER,D.J.,PU B.A.S.P.,74,219,1962
|
||
AFF FAULKNER,D.J.,AND ALLER,L.H.,M.N.R.A.S.,l30,393,1965
|
||
AH ANDRILL AT,H.»COMPTE PENOUS,243,702, 1955
|
||
AHX ANDRILL AT ,Y• AND HOUZ I AUX,L.,I AU S YMP .NO.34,P.68, 1968
|
||
AJ AITKEN,D.K.»AND JONE S,B.,M.N.R.A.S.,l65,363,1973
|
||
AK1 ALLER,L.H.,AND KAL PR,J.B.,AP.J., 139,1074, 1964
|
||
AK2 ALLER,L.H.,AND KALER,J.B.,AP.J.,140,621,1964
|
||
AK3 ALLER,L.H.,AND KALEP,J.R.,AP.J., 140,936,1964
|
||
AKB ALLER,l .H.*KALEP,J.B.,AND BOWEN,I.S .,AP.J.,144,291, 1966
|
||
AKI ALLER,L.H.,KALER,J.B.,AND C7YZAK,S.J.,AP.J.,203,1976,IN PRESS
|
||
AKRC ALLER,L.H.,KRUPP,E., AND CZYZAK,S.J.,AP.J.,158,953,1969
|
||
AL ALLER,L.H.,AND LILLER,W . ,AP . J ., 130,45,1959
|
||
ALLO ALLOIN,D.,ASTR.AND AP.,9,45,l970
|
||
AN ANDR ILL AT,H.,PUB.OPS.HAUTE-PRQV.,3,NO.12,1954
|
||
AS ALLEP,L .H.,SKY AND TEL . ,37,348, 1969
|
||
AUV ALLER,L.H.,UEFORD,C.W.,AND VAN VLECK , J.H.,AP.J. , 109,42,1949
|
||
AW ALLER,L.H.,AND WALKER,M.F.,AP.J. ,141,1318,1965
|
||
AW70 ALLER,L.H.,AND WALKER,M.F.,AP.J.,161,917,1970
|
||
AWR ALLER,L.H.,AND WARES,G.,NATURE,221,646,1969
|
||
ÖA BAUDEL,L.,ASTR. AND AP.,8,65,1970
|
||
ÖCA BOESHAAR,G.O.,CZYZAK,S.J.S ALLER,L.H.,AP.J.SUPPL.,28,335,1975
|
||
BDQ BOHUSKI,T.J.,DUEOUR,R.J.,AND OSTERBROCK,D.F.,AP.J.,188,529,1974
|
||
BE BERNAT,A.P.,AP.J.,185,573,1973
|
||
RMS BOHLIN,R.C.»MARICNNI,P.A.,EST EC HER,T.P.,AP.J.,2 02,1975,IN PRESS
|
||
BO BOYCE,P.B.,LOWELL OBS. BULL.,6,215,1966
|
||
BOHM BOHM,K.-H .,AP.J.,123,3 79, 1956
|
||
BOP BENVENUTI,P.,D* ODORICO,S.,AND PE IMBERT,M.tASTR.AND AP.,28,447,1973
|
||
BPS BOHM,K.-H.,PERRY,J.,AND SCHWARTZ,R., AP.J., 179, 149, 1973
|
||
BP BOESHAAR,G.O.,AP.J.,187,283,1974
|
||
C CHOP I NET,M.,J.D.CBS.,46,2 7, 1963
|
||
CA CAPLAN,J.G.,ASTR. AND AP.,18,408,1972
|
||
CA70 CZYZAK,S.J.,ANC ALLER,L.H.,AP.J.,162,495,1970
|
||
CA73 CZYZAK,S.J. AND ALLER,L.H.,AP.J.,181,817,1973
|
||
CAK1 ALLER,L.H.»CZYZAK,S.J.,AND KALER,J.B.,AP.J.,15l,187,1968
|
||
CAK2 CZYZAK,S.J.,ALLER,L.H.,AND KALER,J.8.,AP.J.,154,543,1968
|
||
CAK4 CZYZAK,S.J.,ALLER,L.H.,AND KALER,J.B.,AP.J.,163,405,1971
|
||
CAKE CZYZAK,S.J.,ET AL . , AP . J., 143,327,1966
|
||
CAL CZYZAK,S.J.»ALLER,L.H.»AND LECKRCNE,D . ,AP.J., 15 7,1225, 1969
|
||
CAM CAMPBELL,W.A.,PUB.A.S.P.,30,689,1963
|
||
CEBA CZYZAK,S.J.,BUERGER,E.G., AND ALLER,L.H.,AP.J.,198,431,1975
|
||
CGLZ CHOPINET,M.»ET AL.,ASTR.AND AP.,29,225, 1973
|
||
CH CHOPINET » M.,ET AL.»ASTR.AND AP., 30,233, 1974
|
||
CL CROMWELL,R.H.»AND LYNDS,B.T.,AP.J. ,171,279,1972
|
||
CLM COURTES,G.»LOUISE,R.,AND MONNET,G.,ASTR.AND AP.,3,222,1969
|
||
CL Z CHOP I NE T,M*,£ LORTET-ZUCKER MANN,M.C.,ASTR.AND AP., 18,373,1972
|
||
CLZ2 CHOP I NE T,M.AND LORTET-ZUCKERMANN,ASTRGN.6AP.1975,1 N PRESS
|
||
CM COMTE,G. AND MONNET,G.,AS TR.AND AP.,33, 161, 1974
|
||
CO COURTES G.,ANN.D»AP.,23,il 5,i960
|
||
COAL COLL INS,G.W.,DAUB,C.T.»AND 0'DELL,C.R.,AP.J., 133,471,1961
|
||
CPDA CAPRIOTTI,E.R.,ANC1 DAU8,C.T.,AP.J.,132,677,1960
|
||
CR CRUVELIEP,P.,ANN.D AP.»30,1059,1967
|
||
DA DANKS,A.C.,ASTR.AND A P.,9,17 5,1970
|
||
DAA DANZIGER,I.J.,AND AARONSPN,M.,PU8.A.S.P.,86,208,1974
|
||
DAF DICKEL,H.R.»ALLER,L.H.FAULKNER,D.J.,IAU SYMP.NO.20,P.294,1964
|
||
DEM D0PITA,M.A. »ELLIOT T,K.H.,fl ME ABU RN, J . , AST . AND SP.SC I ., 28,163,1974
|
||
DG DANZIGER, I.J.,AND GüAD,L.E.,AP.LETTEPS,14,115,1973
|
||
DG75 DOPITA,M.A. AND GIBBONS,A.H.,M.N.R.A.S., 171, 73, 1975
|
||
DIB DIRAI,E*.A.»ASTR.ZH.»43,903, 1966
|
||
|
||
|
||
|
||
|
||
673
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
I
|
||
OIL DICKEL »H.R.fA.J.,7If9 52,1966
|
||
OM DANKS,A.C.,AND MEABUPN,J.,AP.AND SPACE SC I. , 11,398,1971
|
||
DMA DUFOUR,R.J.,AND MATH I S,J.S.,PUB.A.S.P 87,345,1975
|
||
DMI DOPITA,M.A.,MEABURN»J*, AND I SOBE,S.,AP•AND S P* SC I., 1975,IN PRESS
|
||
DO DOPITA,M.A.,ASTR.AND AP*,17,165,1972
|
||
D02 DOPITA,M.A.,ASTR.AND AP.,29,387,1973
|
||
D074 DOPITA,M.A.,ASTR.AND AP.,32,121,1974
|
||
DOK DOROSHENKG,V.T.,AND KOLOTILOV,F.A.,ASTR.ZH.,50,1186,1973
|
||
DOR DOROSHENKO,V.T.,ASTR.ZH*,49 ,494, 1972
|
||
D0R2 DOROSHENKO,V.T.,ASTR.ZH.,50,501,1973
|
||
DRS DAVIES,L.B.,RING,J.,AND SEL BY,M.J . ,M.N.R . A.S . ,128,399,1964
|
||
DUF DUFOUR,R.J.,AP.J.,195,315,1975
|
||
DZ DANZIGER,I.J.,AP.J.,193,69,1974
|
||
EV EVANS,D.S.,M.N.P.A.S.,119,150,1959 (EYE ESTIMATES)
|
||
FE FEAST,M.W.,M.N.R.A.S.,122,1,1961
|
||
FL FOUKAL,P.,PUB.A.S.P.,86,211,1974
|
||
GBR GEBALLE,T.R.,AND RANK,D.M.,AP.J.LET T.,182,L113,1973
|
||
GD GRACHEV,N.I. AND O I BA I,E.A.,ASTR.ZH.,43,60,1966
|
||
GE GERSHBERG,R.E.,ET AL . ,IZ.KRIM.AP . OBS . ,26,313,1961
|
||
GEB GEBEL,W.L.,AP.J.,153,743,1968
|
||
GEK GLUSHKOV,J.I.,ERGS HEV IC,E.S.,KARJAG INA,Z.V.,TRUDY AST.INST .KAZ.19,79,1972
|
||
GFM GILLET,F.C.,ET AL . ,AP.J.,183,87, 1973
|
||
GH GREENSTEIN,J.L. AND HENYEY,L.G.,AP.J. ,89 ,653,1939
|
||
GMS GILLETT ,F.C.,ET AL.,AP.J., 172,367,1972
|
||
GR GREENSTEIN,J.,AP.J.,107,375,1948
|
||
GRA GRANDI,S.A.,AP.J.(LETTERS),199,L43,1975
|
||
GS GILLETT,F.C.,AND STE I N,W.A.,AP.J .LETTERS,155,L97,1969
|
||
GU GULL, T.R., THES IS,CORNELL UNIV.,1971
|
||
GZ55 GURZADIAN,G.A., COMM. BYURAKAN OBS.,N0.16,3,1955
|
||
GZ56 GURZADIAN,G.A.,COMM. BYURAKAN OBS.,NO . 18,3,19 56
|
||
GZ59 GURZADIAN,G.A.,COMM.BYURAKAN OBS.,NO.27,73,1959
|
||
HAC HEAP,S.,ALLER,L.H.,AND CZYZAK,S.J.,AP.J. , 157,607, 1969
|
||
HE HEAP,S.R.,AP.J.,196,195,1975
|
||
HE67 HENIZE,K.G.,AP.J.SUP.SER.,14,125,1967 (EYE ESTIMATES)
|
||
HGR HOLTZ,J.Z.,ET AL.,AP.J.LETTFR$,164,L2S,1971
|
||
HU HUBBLE,E.P.,AP.J.,56,162,1922 (EYE ESTIMATES)
|
||
J JOHNSON,H.M.,PUB.A.S.P.,72,418,1960
|
||
J53 JCHNSON,H.M.,AP.J. ,118,370, 1953
|
||
JEC JONES,D.H.P.,ET.AL.»OBSERVATORY,89,18,1969 (EYE ESTIMATES)
|
||
J059 JOHNSON,H.M.»PUB.A.S.P.,71,425,1959
|
||
J060 JOHNSON,H.M.,MEM.MT.STROM.OBS.,3,NO.15,1960
|
||
K KALER,J.B.,LEE,P.,ALLER,L.H.,CZYZAK,S.J.,8 YOSS,K.M.»UNPUBLISHED
|
||
K68 KOHOUTEK,L.»B.A.C.,19,371,1968
|
||
KA KALER,J.B.,AND ALL ER,L.H.,A P.J., 157,1231, 1969
|
||
KA2 KALER,J.B.,1976, IN PREPARATION
|
||
KAB KALER,J.B.,ALLER,L.H.,AND ROW EN,I.S.,AP.J.,141,912,1965
|
||
KACE KALER,J.B.,ALLER,L.H.,CZYZAK,S.J.,AND EPPS,H.W.,A P.J.SUPPL.,1976,IN PRESS
|
||
KCA KALER,J.B.»CZYZAK,S.J. AND ALLER,L.A . ,AP.J., 153,43, 1968
|
||
KN KOLOTILOV,E.A.»AND NOSKOVA,K.I.»AST.CIRC.USSR,NO.697,1972
|
||
KOS KOSTJAKOVA,E.B.,MEM.SOC.ROY.LIEGE,SER.6,V0L.5,73,1973
|
||
KPFT KOVAR,R.P.,POTTER,A.E.,KOVAR,N.S.,& TRAFTON,L.,AP.J.,170,449,1971
|
||
LA LILLER » W.» AND ALLER,L.H.,PRCC.NAT.ACAD.SC I.,49,675,1963
|
||
LA54 LILLER» W., AND ALLER,L.H.,AP.J., 120,48, 1954
|
||
LACD LEE,P.D.,ALLER,L.H.,CZYZAK,S.J.,AND DUVALL,R.N.,AP.J.,155,853,1969
|
||
LAKC LEE,P.,ALLER,L.H.,KALER,J.B. AND CZYZAK,S.J.,AP.J.,192,159,1974
|
||
LAR LILLER,W.,AND ALLER,L.H.,PRCC .NAT.ACAD.SCI.,49,675, 1963 (RED)
|
||
LE LOZINSKAYA,T.A. AND ESIPOV,V.F.,ASTR.ZH.,48,449,1971
|
||
LK KOHOUTEK,L.»PUB.A.S.P.,76,435,1964
|
||
LKG LEE,P. AND KENNING,R.,AP.J. LETTERS,185,L33,1973
|
||
LL LUTZ,J.H., ET AL.,AP.J.,203,1976, IN PRESS
|
||
LO LOUISE,R.»ASTR.AND AP.,3,29,1969
|
||
LS LOUISE,R.,AND SAPIN,C.,AP.LETTERS,14,119,1973
|
||
LU LUTZ,J.H.,PUB.A.S.P.,86,888,1974
|
||
LZ LEIBOWIT Z,E.M.,AP.J.,181,369,1973
|
||
LZ2 LEIBOWITZ,E.M.,AP.J.,196,191,1975
|
||
M MINKOWSKI,R.,AP.J.,95,243,1942
|
||
MA MINKOWSKI,R.,AND ALLER,L.H.,AP.J . ,124,93,1956
|
||
MA57 MATHIS,J.S.,AP.J. ,125,328,1957
|
||
MA62 MATHIS,J.S.,AP.J.,136,374,1962
|
||
MA65 MATHIS,J.S.,PUB.A.S.P.,77,189,1965
|
||
MAT MATTHEWS,C.J.»THESIS,U. OF ILLINOIS,1975
|
||
MB MEABURN,J.,AP• AND SPACE SC I.,3,600,1969
|
||
ME67 MENDEZ,M.E.,BOL.OBS.TON.»4,91,(NC.28),1967
|
||
MI69 MILLER»J.S.,AP.J.,157,1215,1969
|
||
|
||
|
||
|
||
|
||
674
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 8—Continued
|
||
MIT 1 MILLER,J.S.tAP.J.LFITFRS,16 5,LLOI,L971
|
||
MIT3 MILLER,J.S.,MEM.SCC.ROY.LIEGE,SER.6,VCL.5,57,19T3
|
||
MM MILLER,J.S.,AND MATHEWS,W.G.,AP.J.,172,593,19T2
|
||
MG MINKOWSKI,R.,ANC CSTER3ROCK,O.E.,AP.J.,131,537,1960
|
||
MQRG MORGAN,L.A*, M.N.R.A.S.,153,393,1971 (EYE ESTIMATES)
|
||
MS MACRAE,D.A.,AND STOCK,J.,NATURE,173,589,195A
|
||
NOS NOSKOVA ,R.I • ,ASTR.ZH.,/+5,1315,1968
|
||
0 0'DELL,C.R.,AP.J.,138,1018,1963
|
||
OA OLIVER,J.P.,AND ALLER,L.H.,AP.J.,157,601,1969
|
||
OCB OSTERBROCK,D.E.,CAPRIOTTI,E.R.,AND BAUTZ,L.P.,AP.J.,138,62,1963
|
||
0D62 0«DEIL,C.R.,AP.J.,135,371,1962
|
||
0D63 G,DELL,C.R.,AP.J.,138,293,1963
|
||
QD65 0»DELL,C.R.,AP.J.,143,163,196 6
|
||
0D66 0,DELL,C.P.,AP.J.,145,487,L966
|
||
OF OSTEP0ROCK,D.E. ANC FLATHE°,E.M.,AP.J.,129,26,1959
|
||
OP 0*DELL,C.R.,PEIMeERT,M.,AND KINMAN,T.D.,AP.J.,140,119,1964
|
||
OPC O'DELL ,C.R.,PRIVATE COMMUN I CAT ICN
|
||
ORE D'ODORICO,S.,RUBIN,V.C.,AND FORD,W.C.,ASTR.ANC AP.,22,469,1973
|
||
OS OSTER BR OCK,0.E.,AP.J.,131,541,1960
|
||
0S55 OSTERBRGCK,D.E.,AP.J.,122,235,1955
|
||
0S58 G STEPBROCK,D.E.,PUB.A.S.P.,70,3 99,19 58
|
||
OSSH ÜSTEPBROCK,D.E.,ANC S TOCKHAUS EN,R.E.,AP.J.,133,2,1961
|
||
P68 PEIMBEPT,V.,AP.J.,154,33,1968
|
||
P70 PEIMBERT,M.,PUB.A.S.P.,82,636,1970
|
||
P71 PEIMBERT,M.,B0L.CBS.TGN.,6,97,(NC.37),1971
|
||
P72 PEIMBERT,M.,MEM.SCC.ROY.LIEGE,SER.6,V0L.5,307,1973
|
||
PA PAGE,T.,AP.J.,108,157,1948
|
||
PC PEIMBERT,M.,ANC CO STEPO,R.,BOL.CBS.TON.,5,3,(NO.31),1969
|
||
PER PERINOTTO,M.,ASTR. AND AP.,35,293,l974
|
||
PF PERSSON,S.E.,AND FPCGEL,J.A.,AP.J.,188,523,1974
|
||
P I 54 PIKELNER,S.B.,IZ.KPIM.AP. DBS . ,11,8,1954
|
||
PO POTTASCH,S.R.»VISTAS IN ASTRON.,6,149,1965
|
||
PR PARKER,R.A.R.,AP.J..139»493,1964
|
||
PRK PRQNIK,V.I.,IZ.KRIM.AP. OBS.,23,3,1960
|
||
PS PEIMBERT,M.,ANC S P INPAD,H.,AP.J.,159,809,1970
|
||
PS1 PEIMBEPT,M.,AND SPINRAD,H.,ASTR.AND AP.,7,311,1970
|
||
PS70 PF IMBERT,M. AND SP INPAOfH . ,AP.J. , 160,429,1970
|
||
PTP PEIMBERT,M.,ANC TCRRES-°FIMRFRT,S.,BOL.OBS.TON.,6,21,(NO.36),1971
|
||
PTP2 PE IMBEP T,M.,A ND TGPRES-PEImßERT,S.,AP.J., 193, 327, 1974
|
||
R RAZMADZE,N.A.,ASTR.ZH.,37,10C5,1960, SEE ALSO R3
|
||
R1 RAZMAZDE,N.A.»ÖULL.ABASTUMANI A P.ÜBS.,N0.23,P.91, 1958,
|
||
SEE ALSO ASTR.ZH.,33,698,1956
|
||
R2 PAZMADZF,N.A.,ASTP.ZH.,33,3,1956
|
||
R3 RAZMADZE,N.A..ÖULL.ABASTUMANI AP.OBS.,NO.26,P.25,196 1
|
||
RE PEITMEY6R,W.L.,AP.J.,141,1331,1965
|
||
RM RINGUELET,A.E.,AND MENDEZ,R.H.,PUB.A.S.P.,85,96,1973
|
||
RY ROZHKOVSKY,D.A.,IZ.AK.NAUK.KAZAK.,5,3,Í957
|
||
SCH SCHMIDT,E.G.,M.N.R.A.S.,169,97,1974
|
||
ST SIMPSON, J.F., PU3.A.S.P.,P5,479,1973
|
||
SM SCHNITTER,E.F.,AND MILLIS,».L.,AP.J.,149,721,1967
|
||
SO SEATON,M.J.,AND CS TFRBROCK,D.E.,AP.J.,125,66,1957
|
||
SP SCHWARTZ,R.P. AND PE IMBERT,MAP.LETTERS,13,157, 1973
|
||
SR7 1 SEARLE,L.,AP.J.,163,327,1971
|
||
SS * S EA RLE , L. AND S ARGENT,L.W.,AO.J. , 173,25,1972
|
||
SZ SCHWAR TZ,R.D.,AP.J.,191,419,1974
|
||
TAM T AMURA »S.»SCI.REP.»TCHGKU UNI V.,SER.1 ,33,10,197O
|
||
TH THACKERAY,A.D.»M.N.R.A.S.,110,343»1950
|
||
VVl V OR ONTSOV-VE LY AMINOV,R.A.,FT AL.,ASTR.ZH.,42,730, 1965
|
||
VV2 VGRUNTSOV-VELYAMINOV,R.A.,ET AL.,ASTR.ZH.,42,464,1965
|
||
VV3 VORONTSOV-VELYAMINGV,P.A.,ET AL.,ASTR.ZH.,44,361,1967
|
||
VV4 VORONTSOV—VELYAMINGV,B.A.ET AL.,MEM.RCY.SGC.L IEGE,S ER.6,VOL.5,79, 1973
|
||
SEE ALSO ASTR.ZH.,52,264,1975
|
||
VV5 V OR f'NTSOV-VELYAMINOV,B.A. ,ET AL . , AS TR . ZH . , 45,1128,1963
|
||
W WHITE,m.l.,AP.J.,115,71,1952
|
||
wA WARES,G.W. AND ALLER,L.H.,PUB.A.S.P.,80,568,L968
|
||
WAR WARNER,J.W.,AP.J.,186,21,1973
|
||
WB WEBSTER,E.L.»M.N.R.A.S.,143,79,1969
|
||
WD WEEDMANjD.W.,PUB.A.S.P.,80,314,1968
|
||
WÜ WODLF,N.J.,PUB.A.S.P.,7 3,206, 1961
|
||
WR WARNER,J.W.,AND RU BIN,V.C.,AP.J.,198,593,1975
|
||
WYSE WYSE,A.B.,AP.J.,95,356,1942 (CAL. EYE ESTIMATES)
|
||
ZI ZIPOY,D.M.,AP.J.,201,397,1975
|
||
|
||
|
||
|
||
|
||
675
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
|
||
676 KALER
|
||
The following errata and addenda were submitted at the proof stage.
|
||
ERRATA TO TABLE 8
|
||
NGC 2371, delete A7325, reference 0.
|
||
NGC 2440, reference BR, region F2, A4959 identification should read (O m), not (O n).
|
||
NGC 2440, reference MA, region MW, A6713, should read A6723.
|
||
NGC 2440, reference WYSE, all intensities should be denoted “A”.
|
||
NGC 3132, reference AKI, all printed entries should be region “C”. For region “E”, OBS I(A4686) He n < 5.
|
||
NGC 6803, reference LAKC. The foUowing ratios should be added:/(A5537)/(A5517)(C1 in) = 1.65;/(A6731)//(A6716)(Sn) = 1.30.
|
||
NGC 7026, reference VV2, A5554 should read A5754.
|
||
NGC 7027, reference A41, A6548 should read A6584.
|
||
NGC 7027, reference KACE, region PE, A6734 should read A6730.
|
||
IC 351, reference A, A4658 should read A4686.
|
||
IC 2165, reference MA, region MW, A6713 should read A6717.
|
||
BL3 11, PK NO. should read 1-0° 1.
|
||
HA4 1, reference MI69, add the ratio A3729/A3726 (O n) = 0.99.
|
||
Mel 1, reference AKI, A3726, identification should read (O n), not (O m).
|
||
Reference WB, read Webster, B. L.
|
||
Correct the intensities in Table 8 in accordance with the following table.
|
||
Nebula WAVE IDENT REF OBS I AVE O CORR I AVE C
|
||
NGC 2371 4101 H 0 33.9 26.7 35.0 27.5
|
||
NGC 6543 5876* HE I 0 16.6 15.7 15.2 14.4
|
||
NGC 6826 7136* (AR III) 0 14.8 14.8 14.1 14.1
|
||
NGC 7027 3835 H 0 3.9 3.8 9.1 8.8
|
||
4072 (S H) 0 8.1 6.1 15.4 11.6
|
||
5411 he n 0 6.0 5.7 4.1 2.1
|
||
8750 H 0 7.1 7.1 1.1 1.1
|
||
10829 HE I SP 1170 1100 125 118
|
||
NGC 7662 4541 HE H 0 1.9 2.6 1.9 2.7
|
||
6563 H 0 340 344 294 298
|
||
9539 H 0 46.8 46.8 35.4 35.4
|
||
IC 4997 6563 H 0 427 427 287 287
|
||
* Additional entries.
|
||
Update of Reference Key to Table 8
|
||
AE Aller, L. H., and Epps, H. W. Ap. /., 204, 445, 1976.
|
||
AKI Aller, L. H., Kaler, J. B., and Czyzak, S. J. Ap. /., 203, 636, 1976.
|
||
BMS Bohlin, R. C., Marionni, P. A., and Stecher, T. P. Ap. J., 202, 415, 1975.
|
||
CLZ2 Chopinet, M., and Lortet-Zuckermann, M. C. Astr. and Ap. Suppl., 1976, in press.
|
||
DMI Dopita, M. A., Isobe, S., and Meabum, J. Ap. and Sp. Sei., 34, 91, 1975.
|
||
KA2 Kaler, J. B. Ap. /., 210, 1976, in press.
|
||
KACE Kaler, J. B., Aller, L. H., Czyzak, S. J., and Epps, H. W. Ap. J. Suppl., 32, 163, 1976.
|
||
LL Lutz, J. H. et al. Ap. J., 203, 481, 1976.
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9
|
||
The Identification Supplement
|
||
BEGIN NGC 65*3 CPK NC. 96*29 1) NGC 6543 (PK NC. 96*29 I)
|
||
WAVE IDENT N R MT TRANSITION REF OBS I WAVE IDENT N R MT TRANSITION REF OBS I
|
||
3187*60 HE I 2 87.74 3 2 3S 4 3P CAK2 3.45 4084.76 0 II 1 84.66 21 3P4P5/2 3D2F7/2 CAK2 0.11
|
||
3187.60 NE II 2 87.60 3 3S4P3/2 3P205/2 CAK2 3.45 4086.95 “Ö iT~ 1 87.16 48 3D4F3/2 4F4G5/2 CAK2 0.06
|
||
3218.20 0 II 1 18.10 107 3P6P7/2 4S6S5/2 CAK2 0.30 4089.11 o II 1 89.29 48 3D4F9/2 4F4G CAK2 0.26
|
||
3447.91 0 II 2 47.98 27 3P2D3/2 4S2P3/2 CAK2 0.22 4092.62 0 II l 92.94 10 3P4D7/2 3D4F7/2 CAK2 0.0
|
||
3447.91 HE I 2 47.59 7 2 ISO 6 IP 1 CAK2 0.22 4097.31 ~ñ m- 3 97.31 1 3 2SI/2 3 2P3/2 CAK2 0.97
|
||
3479.08 HE I l 78.97 43 2 3P 153D CAK2 0.37 4097.31 0 II 3 97.26 20 3P4PI/2 3D403/2 CAK2 0.97
|
||
3498.65 HE I 1 9 8.64 40 2 3P 133D CAK2 0.13 4097.31 0 II 3 97.26 48 3D4F7/2 4F4G5/2 CAK2 0.97
|
||
3512.51 HE I 1 12.51 38 2 3P 12 3D CAK2 0.50 4103.35 III 2 3.37 1 3 2S1/2 3 2P1/2 CAK2 0.0
|
||
3530.49 HE I 1 30.49 36 2 3P 113D CAK2 0.38 41C3.35 II 2 3.01 20 3P4P1/2 3D4D1/2 CAK2 0.0
|
||
3554.49 HE I 1 54.39 34 2 3P 1030 CAK2 0.41 4105.00 IT l 4.73 20 3P4P2/2 3D 405/2 CAK2 0.06
|
||
3587.32 HE I 1 87.16 32 2 3P2 9 3F CAK2 0.52 4110.81 “C rr L 10.80 20 3P4P3/2 3D4DI/2 CAK2 0.24
|
||
3613.94 HE I 1 13.64 6 2 ISO 5 1PI CAK2 0.60 4119.36 0 II 1 19.22 20 3P4P5/2 3D407/2 CAK2 0.62
|
||
3634.37 HE I 1 34.24 28 2 3P 8 3D CAK2 0.6 5 4120.96 HE I 1 20.81 16 2 3P 5 3S1
|
||
3656.60 I 1 56.07 7 2 2P 37 2D CAK2 0.07 4132.79 Ö ÏI 1 32.81 19 3P4P1/2 3D4P3/2 CAK2
|
||
CAK2
|
||
0.0
|
||
0.27
|
||
3657.9C H I 2 57.27 1 2 29 3620 CAK2 0.22 4143.76 HE I 1 43.76 53 2 1P1 6 102 CAK2 0.64
|
||
3657.90 H I 2 57.93 1 2 29 3520 CAK2 0.22 4145.87 C II 2 46.09 106 3P6P7/2 4S6S5/2 CAK2 0.09
|
||
3658.50 H I l 58.64 1 2 29 342D CAK2 0.36 4145.87 N II 2 45. 76 6 5 3S5P3 3P5S2 CAK2 0.09
|
||
3660.30 H I 1 60.30 t 2 29 3220 CAK2 0.30 4153.21 0 III 1 53.30 19 3P4P3/2 3D 4P 5/2 CAK2 0.27
|
||
3661.20 H I 1 61.22 t 2 29 3120 CAK2 0.2 C 4156.39 0 II 2 56.54 19 3P4P5/2 3D4P3/2 CAK2 0.17
|
||
3662.26 l 62.26 6 2 2P 30 2D CAK2 0.29 4156.39 C I II 2 56. 50 21 3P3D2 5 3F3 CAK2 0.17
|
||
3663.65 1 63.41 6 2 2P 2920 CAK2 0.42 4162.54 C III 1 62.80 21 3P3D3 5 3F4 CAK2 0.05
|
||
3664.89 1 64.70 2 29 2820 CAK2 0.3 7 4168.96 C II 2 69.23 19 3P4P5/2 3D4P5/2 CAK2 0.25
|
||
3666.18 H I 1 66.10 5 2 2P 2720 CAK2 0.40 4168.96 HE I 2 68.97 52 2 1P1 ISO CAK2 0.25
|
||
3667.72 H I 1 67.68 5 2 2P 2620 CAK2 0.36 4175.08 N II 1 76.16 42 30 102 4F IF 3 CAK2 0.1C
|
||
3669.49 H I 1 69.47 5 2 2P 2520 CAK2 0.37 4185.72 0 II 1 85.46 36 3P2F5/2 3D2G7/2 CAK2 0.13
|
||
3671.68 H I 1 71.49 5 2 2P 2420 CAK2 0.50 4190.07 0 II l 89.79 36 3P2F7/2 3D2GS/2 CAK2 0.14
|
||
3673.82 H I 1 73.76 5 2 2P 2320 CAK2 0.58 4195.77 N III 1 95.70 6 3S2P1/2 3P2D3/2 CAK2 0.09
|
||
3W.28 -H. I 1 76.36 4 2 2P 2220 CAK2 0.68 4220.PC NE II 1 19.76 52 30407/2 4F4D7/2 CAK2 0.13
|
||
3679.44 H 1 79.36 2 29 2120 CAK2 0.72 4236.90 II 2 36.93 48 3030 1 4F3F2 CAK2 0.09
|
||
3682.91 H I 1 82.81 A 2 29 2020 CAK2 0.81 4236.90 II 2 37.05 48 30302 4F3F3 CAK 2 0.09
|
||
3686.73 _H I_ 1 86.83 4 2 2P 1920 CAK2 1.00 4241.93 II 2 41.79 47 30302 4F1F3 CAK2 0.12
|
||
3691.56 I 1 91.56 4 2 2P 1820 CAK2 1.26 4241.93 N II 2 41.79 48 30303 4F3F4 CAK2 0. 12
|
||
3694.10 NE II 1 94.22 1 3S4P5/2 3P4P5/2 CAK 2 0.16 4253.88 S III 3 53.59 4 4S3P2 4P3D3 CAK2 0.12
|
||
3697.15 H I 1 97.15 3 2 2P 1720 CAK2 1.33 4253.88 0 II 3 53.74 ICI 3D2G5/2 4F2H C AK2 0.12
|
||
3702.84 0 III l 2.75 14 3P3PC 30301 CAK2 0.10 42 53.88 0 I I 3 53.98 101 302G7/2 4F2H9/2 CAK 2 0.12
|
||
3703.92 H I 1 3.86 3 2 2P 1620 CAK2 1.66 4267.15 C II l 67.27 6 3 205/2 4 297/2 CAK2 0.95
|
||
3 7C4.89 HE I 1 5.00 25 2 3P 7 30 CAK2 1.30 4275.65 0 II 1 75.52 67 30407/2 4F4FS/2 CAK2 0-28
|
||
3707.95 III 1 7.24 14 3P3P1 3030 2 CAK2 0.38 42 82.53 C II 1 82.82 54 3D4P3/2 4F4D3/2 CAK2 0.08
|
||
3711.93 H I l 11.97 3 2 2P 1520 CAK2 2.30 4285.3C S 11 T 2 84.99 4 4S3P1 4P3D2 CAK2 0.14
|
||
3713.92 0 III 1 14.03 14 3P3P1 30301 CAK2 0.15 4285,30 0 I I 2 85.70 78 3D2F5/2 4F4F 7/2 CAK2 0. 14
|
||
3715.08 0 III 1 15.08 14 39392 30303 CAK2 0.20 4268.22 N III 1 88.21 CAK2 0.32
|
||
3721.94 H I 2 21.94 3 2 29 1420 CAK2 3.09 4292.09 C II 2 92.00 41 30205/2 4F40 5/2 CAK2 0.14
|
||
3721.94 (S III) 2 21.10 2 39391 3P1S0 CAK2 3.09 42 92.09 0 I I 2 92.23 78 302F5/2 4F4F5/2 CAK2 0. 14
|
||
3726.05 (0 II I 1 26.16 1 29 AS 3/ 2 29 2D 3/2 CAK2 12.9C 4294.81 C II 1 94.82 54 304P3/2 4F405/2 CAK2 0.09
|
||
3728.80 (0 II ) l 28.91 1 2P4S3/2 2P2D5/2 CAK2 6.97 4303.81 0 II l 3.82 5< 304P5/2 4F407/2 CAK2 0.22
|
||
37M-3-7. H 1 34.37 3 2 29 13 ¿P— 3.00 4317.12 _Q I_L_ 1 17.14 2 3S4P1/2 3P4P3/2 CAK2 0.43
|
||
3740.30 II l 39.9 2 31 3P4S3/2 4S4P5/2 CAK 2 0.17 4319.83 0 II 1 19.63 2 3S4P3/2 3P4P5/2 CAK2 0.17
|
||
3750.15 H I 1 50.15 2 2 2P 1220 CAK2 3.46 4325.83 C III 2 25.70 7 3S1P1 3P1D2 C A K 2 0.11
|
||
3754.90 0 III 1 54.67 CAK2 0.41 4325.83 C II 2 25.77 2 3S4P1/2 3P4P 1/2 CAK2 0.11
|
||
3756.29 HE I 1 56.10 663 3S3P1
|
||
2 1P1 3P?P¿14102 CAK2 0.15 4331.77 0 II l 31.89 41 3P203/2 30203/2 CAK2 0.11
|
||
3757.30 0 III 1 57.21 2 3S3P0 3P301 CAK2 0.26 4340.47 H I l 40.47 1 2 2P 5 20 CAK 2 43.9C
|
||
3759.96 59.87
|
||
III L1 62.63 i 3S3P2. 3P30 3 CAK2 0-35 4345.23 0 II 1 45.56 2 3S4P3/2 3P4P1/2 CAK2 0.24
|
||
3762.70 31 3P4S3/2 4S4P3/2 CAK2 0.11 4347.80 0 II 1 47.43 16 3S2D2/2 3P2D3/2 CAK2 0.56
|
||
3770.63 H ! 1 70.63 2 2 2P 1120 CAK 2 .84 4349.3 0 C I I 1 49.43 2 3S4P5/2 3P4P5/2 CAK 2 0.43
|
||
3774.22 0 III 1 74.00 2 3S3P1 3P3D1 CAK2 0.14 4353.54 C II 1 53.60 76 3D2F5/2 4F4G7/2 CAK 2 0.30
|
||
3777.13 NE II 1 77.16 1 3S4P1/2 3P 4P 3/2 CAK2 0.12 4363.21 (0 III) 1 63.21 2 2PID2 29 ISC CAK2 2.26
|
||
3785.37 0 II 1 85.01 95 4P2P3/2 40205/2 CAK2 0.16 4367.08 0 II 1 66.90 2 3S4P5/2 3P4P3/2 CAK 2 0.27
|
||
3791.32 0 III 1 91.26 2 3S3P2 3P302 CAK2 0.12 4370.20 NE II 1 69.77 56 304F3/2 4F4F5/2 CAK2 0.11
|
||
3794.91 S III 1 94.69 9 3030 2 4P3S1 CAK2 0.0 4379.20 N III 2 79.09 17 4 2F 5 2G CAK2 0. 17
|
||
3797.9C H I 1 97.90 2 2 2P 1020 CAK2 4.71 4379.2C NE II 2 75.50 56 3D4F7/2 4F4F7/2 CAK2 0.17
|
||
3805.84 HE I 1 5.77 63 2 1P1 11102 CAK2 0.14 4384.05 NE II 1 84.08 6C 302F5/2 4F4G5/2 CAK2 0.05
|
||
3819.70 HE I 1 19.61 22 2 3P 30 CAK2 1.97 4387.93 HE I I 87.93 51 2 IPl 5 102 CAK2 1.03
|
||
3833.78 HE 1 33.57 62 2 1PI 10102 CAK2 0.17 4391.87 NE II I 91.94 57 304F7/2 4F4G9/2 CAK2 0.10
|
||
3835.39 1 35.39 2 2 2P 9 20 CAK2 6.46 4398.00 NE II 1 97.94 56 3D4F9/2 4F4FS/2 CAK 2 0.07
|
||
3838.23 HE I 1 38.09 61 2 IPl 101S0 CAK2 0.06 44C9.21 NE II 1 9.30 57 3D4F5/2 4F4G7/2 C AK2 0.15
|
||
3847.50 0 II 1 47.89 12 3P4D1/2 30401/2 CAK2 0.10 4414.90 O II 1 14.91 5 3S2P2/2 3P20 5/2 CAK2 0.15
|
||
3851.17 0 II 1 51.04 12 3P4D3/2 30403/2 CAK2 0.11 4417.24 C II l 16.98 5 3S2P1/2 3P203/2 CAK2 0.26
|
||
38 56.30 SI II 2 56.02 l 3P2D5/2 4 29 3/2 CAK2 0.17 4437.54 ThTT 1 37.55 50 2 IPl 5 ISO CAK2 0.20
|
||
3856.30 0 II 2 56.16 12 3P4D3/2 30401/2 CAK2 0.1 7 4448.20 0 II 2 48.21 35 3P2F7/2 3D2F7/2 CAK 2 0.05
|
||
3862.76 SI II 1 62.59 1 3P2D3/2 4 291/2 CAK2 0.26 4448.4P C III 2 47.82 33 3P5S2 3D5P2 CAK2 0.05
|
||
3868.76 (NE III) l 68.74 1 29392 2P1D2 CAK2 41.10 4456.90 NE II 1 56.95 61 30203/2 4F403/2 CAK2 0.05
|
||
3871.23 C II 1 71.62 18 29293/2 3P2SI/2 CAK2 0.15 4465.20 C II 1 64.40 94 3S6S5/2 39697/2 CAK2 0. 13
|
||
3882.09 0 II 1 8 2.20 12 3P4D7/2 30407/2 CAK 2 0.14 4471.48 HE ! 1 71.48 14 2 3P 4 30 CAK2 6.05
|
||
3889.05 H I l 89.05 2 2 2P 8 20 CAK2 21.50 4481.30 MG II 1 81.13 4 3 203/2 4 2F5/2 CAK2 0.12
|
||
3919.37 C II 1 18.98 4 3 291/2 4 2S1/2 CAK2 0.09 44 92.00 C II 1 91.25 86 30293/2 4F2D5/2 CAK 2 0.10
|
||
3920.98 C I I 1 20.68 4 3 293/2 4 2S1/2 CAK2 0.27 4510.80 (K IV) 1 11.00 2 3P1D2 3 PI SO CAK2 0.15
|
||
3926.60 HE I 1 26.53 58 2 IPl 8 102 CAK2 0.26 4516.90 C III 1 16.93 9 4 3P2 5 3SI CAK2 0.09
|
||
3954.40 0 I I 1 54.36 6 3S2P1/2 3P2P1/2 CAK2 0.10 4523.60 N III 1 23.60 3 3S4P3/2 3P403/2 CAK 2 0.08
|
||
3964.37 HE I l 64.73 5 2 ISO 4 IPl CAK2 1.14 4527.80 N III 1 27.86 13 3P4S3/2 3D4P1/2 CAK2 0.09
|
||
3967.00 (NE III) 3 67.51 1 2P3P1 2P102 CAK2 23.00 4552.00 N II 2 52.54 58 3D IF3 4F3G4 CAK2 0.10
|
||
3967.00 (NE III) 3 68.74 1 29392 2P 102 CAK2 23.00 4552.00 SI III 2 52.65 2 4 3SI 4 3P2 CAK2 0.10
|
||
3967.00 H I 3 70.07 1 2 2P 7 20 CAK2 23.00 4571.00 MG I l 71.09 1 3 ISC 3 PI CAK2 0.14
|
||
3994.63 N II 1 94.99 12 3S1P1 3P102 CAK2 0.08 4590.79 0 II 1 90.97 15 3S2D5/2 3P2F7/2 CAK 2 0.15
|
||
4009.27 HE I 1 9.27 55 2 IPl 7 102 CAK2 0.46 4595.99 0 II 1 96.17 15 3S2D3/2 3P2F5/2 CAK 2 0.10
|
||
4026.20 HE I 1 26.19 18 2 3P 5 30 CAK2 3.21 4609.48 II 1 9.42 93 3D 2D 5/2 4F2F7/2 CAK2 0.10
|
||
4041.05 0 II 2 41.31 5C 3D4F5/2 4F4F5/2 CAK2 0.13 4620.68 0 II 1 21.28 92 3D2D5/2 4F4F5/2 CAK 2 0.05
|
||
4041.05 N II 2 41.32 39 3D3F4 4F3G5 CAK2 0.13 4633.74 N III 1 34. 16 2 3 291/2 3 203/2 CAK2 0.67
|
||
4048.00 0 II 1 48.22 50 3D4F7/2 4F4F7/2 CAK2 0.40 4638.36 0 III 1 38.85 1 3S4P1/2 3P4D3/2 CAK2 0.69
|
||
4068.75 (S II ) 1 68.62 1 3P4S3/2 39 29 3/2 CAK2 0.77 4640.64 III 1 40.64 2 3 29 3/2 3 205/2 CAK2 1.56
|
||
4069.85 C III 3 70.30 16 4 3F4 5 3G5 CAK2 0.63 4641.72 III 2 41.90 2 3 2P3/2 3 203/2 CAK2 0.0
|
||
4069.85 0 II 3 69.90 10 3P4D3/2 3D4F5/2 CAK2 0.63 4641.72 II 2 41.81 1 3S4P3/2 3P4D5/2 CAK2 0.0
|
||
4069.85 II 3 69.64 10 3P4D1/2 3D4F3/2 CAK2 0.63 4647.66 III 1 47.40 3S1 3 3P2 CAK2 0.0
|
||
4071.86 0 II L 72.16 10 3P4D5/2 3D4F7/2 CAK2 0.35 4649.23 0 II l 49.14 1 3S4P5/2 3P4D7/2 CAK2 0.0
|
||
4076.05 (S II ) 2 76.22 1 3P4S3/2 3P 2P1/2 CAK2 0.68 4650.20 t III 1 50.16 1 3 3S1 3 3P1 CAK 2 C. 84
|
||
4076.05 0 II 2 75.87 10 3P4D7/2 3D4F9/2 CAK 2 0.68 4650.9C 0 II l 50.84 3S4PI/2 3P4DI/2 CAK2 0.0
|
||
4078.95 0 II 1 78.86 10 3P4D3/2 304F3/2 CAK2 0.06 4651.46 C III 1 51.35 1 3 3S1 3 3PC CAK2 0.0
|
||
4083.62 0 II 1 83.91 49 3D4F5/2 4F4G7/2 CAK2 0.05
|
||
NGC 6543 (PK NO.
|
||
NGC 6543 (PK NO. 96*29 1)
|
||
|
||
|
||
677
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
NGC 6543 (PK ND. 96+29 1) NGC 6572 (PK NO. 34+11 1)
|
||
WAVE IDENT TRANSI TION REF □ BS I WAVE IOFNT N R MT TRANSI TION REF OBS I
|
||
»661.17 G I I 3S4P3/2 3P4D3/2 CAK2 0.29 3661.12 H I 1 61.22 6 22P 3 1 2D AK2 0.38
|
||
»676.05 I I 1 76.23 1 3S4P5/2 3P4D5/2 CAK2 0.23 3662.29 1 62.26 6 22P 302D AK2 0.36
|
||
»699.20 I I 2 99.21 25 3P2D3/2 3D2F5/2 CAK2 0.13 3663.39 1 63.41 6 22P 2920 AK2 0.43
|
||
»699.20 I I 2 99.21 »0 3P2D5/2 302F7/2 CAK2 0.13 3664.65 1 64.68 6 22P 2820 AK2 0.40
|
||
4702.22 I I 2 1.76 58 3P2P3/2 30291/2 CAK2 0.20 3666.09 1 66.10 5 22P 2720 AK2 0.44
|
||
4702.22 (FE III) 2 1.50 3 A 503 A 3F3 CAK2 0.20 3667.69 1 67.68 5 22P 2620 AK2 0.55
|
||
4711.27 (AP IV ) 1 11.40 1 3P4S3/2 3P2D5/2 CAK2 1.42 3669.48 1 69.47 5 22P 2520 AK2 0,50
|
||
4713.14 HE I l 13.14 12 2 3P 4 3SI CAK2 1.42 3671.45 l 71.48 5 22P 2420 AK2 0.62
|
||
4740.00 (AR IV ) l 40.30 1 3P4S3/2 3P2D3/2 CAK2 0.93 3673.72 1 73.76 5 22P 2320 AK2 0.62
|
||
4789.20 (F II) 1 89.50 1 2P3P2 2P102 CAK2 0.35 3676.33 1 76.37 4 22P 2220 AK2
|
||
4861.30 l 61.33 1 2 2P 4 20 CAK2 100.00 3679.35 1 79.36 4 22P 2120 AK2 0.77
|
||
4906.63 n 11 l 6.88 28 3P4S3/2 3D4P3/2 CAK2 0.39 3682.79 1 82.81 4 22P 2020 AK2 0.89
|
||
4921.93 HE I 1 21.93 48 2 1P1 4 102 CAK2 1.33 3686.8? l 86.83 4 22P 1920 AK2 0.98
|
||
4931.81 (O III) 1 31.80 1 2P3P0 2P 102 CAK2 0.25 3691.51 1 91.56 4 22 P 1820 AK2 1.14
|
||
4958.90 (0 III) 1 58.91 1 2P3P1 2PID2 CAK2 227.00 3694.29 1 94.22 1 3S4P5/2 3P4P5/2 AK2 0.10
|
||
5006.80 ( 0 TIT) 1 6.84 1 2P3P2 2P1D2 CAK2 665.30 3697.10 97.15 3 22P 1720 4*2 1.51
|
||
5016.83 HE T I 15.68 4 2 ISO 3 1PI CAK2 2.17 3702.69 1 2.75 14 2P3P0 30301 AK2 0.21
|
||
5032.97 C I I 1 33.20 17 2P2P3/2 3P205/2 C AK2 0.49 3703.82 l 3.86 3 22P 1620 AK2 1.70
|
||
3704.97 1 5.00 25 23P2 730 AK2 0.93
|
||
NGC 6543 (PK MO. 96+29 1) 3707.19 T IT l 7.24 14 3P3P1 30302 AK2 0.22
|
||
3711.94 I l 11.97 3 22P 1520 AK2 2. 10
|
||
3713.97 I I I 1 14.03 14 3P3P1 30301 AK2 0. 16
|
||
3715.08 l 15.08 14 3P3P2 30302 AK2 0.21
|
||
BEGIN NGC 6572 (PK NO. 34+11 1) 3721.88 3 21.94 3 22P 1420 AK2 2.72
|
||
3721.88 3 21.95 21 3S5P2 3P5D1 AK2 2.72
|
||
WAVE IOFNT thANSI TION OBS I 3721.88 NF II 3 21.86 37 2P2P3/2 304F5/2 AK2 2.72
|
||
3109.00 (AR III) 1 9.20 3P3P1 3P1S0 0.25 3727.00 (0 T I ) l 27.00 1 2P4S3/2 2P2D3/2 AK2 48.00
|
||
3120,80 G III 1 21.71 3P3S1 30 3 PI 3732.85 HE I 1 32.86 24 23P2 73S1 AK2 0.11
|
||
3131.98 0 III 1 32.86 3P3S1 3D3P2 AK2 0.59 3734.38 1 34.37 AK 2 2.64
|
||
3187.55 HP I 2 87.74 23 S 43P AK2 2.00 3745.91 1 45.90 AK2 0.05
|
||
3187.55 NF I I 2 87.60 3S4P3/2 3P2D5/2 AK2 3750.13 1 50.15 AK 2 4.50
|
||
3201.20 n i it 1 0.95 31 3P3D1 3D3DI KA 0.15 3754.69 G III l 54.67 2 3S3PI 3P302 AK2 0.20
|
||
3207.93 AR I I l 7.61 132 »P2D3/2 5D2PI/2 AK 2 0.15 3755.94 HE I 1 56.10 66 21P1 14102 AK2 0.09
|
||
3241.91 SI III 1 »1.67 6_ »3P2 53S1 AK2 0.08 3757.33 0 III 1 57.21 2 3S3PQ 3P3D1 AK2 0.07
|
||
3243.91 NF I I 2 44.15 3P4D5/2 302F7/2 AK2 0.12 3759.84 0 III 1 59.87 2 3S3P2 3P3D3 AK2 0.14
|
||
3243.91 NE I I 2 43.3» 3P405/2 3D205/2 AK2 0.12 3762.43 SI I V 1 62.41 3 4 2D5/2 5 2P3/2 AK2 0.05
|
||
3258.38 51 III 1 58.67 30303 4P3P2 AK2_ »23 3768.77 HF T 1 68.81 -6_5_2.1P.l 13102 AK2 0.11
|
||
3260.70 0 III 1 60.98 3P3D2 3D3F3 0,17 3770.61 H I 1 70.63 2 22P 1120 AK2 5.40
|
||
3262.60 C III 1 62.23 4 3 S 1 3D3P2 0.08 3773.94 0 III l 74.00 2 3S3P1 3P3D1 AK2 0.08
|
||
3293.33 AR I I 1 93.66 4P2P3/2 3D2P3/2 . 3777.10 NF n 1 77.16 1 3S4P1/2 3P4P3/2 AK2 0. 03
|
||
3296.76 HP I 1 96.79 2 1 SO 81P1 AK2 0.20 3783.10 1 I 1 83.19 KA 0.05
|
||
3299.30 I I I 1 99.36 3S3P0 3P3SI AK 2 0.05 3784.86 HE I 1 84.89 64 2lP 1 12102 AK2 0.09
|
||
3312.30 ni 1 12.30 3S3P 1 3P3S1 AK2 .10.. 3791,14 n III 2 91.26 2 3S3P2 3P302 AK2 0.06
|
||
3334.75 NF I I 1 34.87 3S4P5/2 3P4D7/2 AK2 0.14 3791.14 2 90.96 30 3P4S3/2 30403/2 AK2 0.06
|
||
3340.90 n in 1 40.7» 353P2 3P3SI AK2 0.13 3797.81 l 97.90 2 2 2P 10 20 AK2 5.47
|
||
3342.81 (ne ill) 1 42.50 2P1D2 2P1S0 AK2 0.20 3805.65 1 5.77 63 2 1P1 11 102 AK2 0. 13
|
||
3345.8 NP 1 I 4 45.88 3S2D3/2 3P2P3/2 AK2 0.13 3811.20 0 III l 10.96 2 3S3P2 3P3DI KA 0.07
|
||
3345.82 NE T I 45.49 3S2D5/2 3P2P3/2 AK2 0.13 3819.59 HF T 1 19.61 22 2 3P 6 30 AK 2 1.78
|
||
NP I I
|
||
-3-3-4 5.92 < NF V ) 4?. 3P4P5/2 3D4D3/2 AK2 3931.7? _S LLL 1 31.9? 5 4S3P0 4P3P1 AK2 0» 03
|
||
3345.8? 45.83 2P3P 1 2P 102 AK2 0.13 3833.55 HF I 2 33.57 1P1 10 102 AK2 0.13
|
||
3347.94 n in l 48.05 3P5P3 3D5P2 AK2 0.08 3833.55 HF I I 2 33.80 2F 18 2G AK2 0.13
|
||
3353.32 NF I I ? 53.63 3P203/2 3D2P1/2 AK? 0.09 3835.40 1 35.39 -.2-2-2 £ 9 20 AK2 ♦ 30
|
||
3353.32 (CL I 11 f ? 53.33 3P4S3/2 3P2P1/2 AK2 0.09 3838.26 HE I 3 38.09 61 2 1P1 10 ISO AK2 0.06
|
||
3354.76 HF I 2 54.55 21 SO 71P l AK2 0.15 3838.26 N I I 3 38.39 30 3P3P? 4S3P2 AK2 0.06
|
||
3354.76 MF II 2 55.05 3S4P3/2 3P4D5/2 AK2 0.15 3838.26 S III 3 38.32 5 4S3P2 4P3P2 AK2 0.06
|
||
3356.00 1 55.92 3P5P3 3D5P3 0.15 3841.95 AR I I 1 41.54 54 4P403/2 40401/2 AK2 0.05
|
||
3 31>7.16 3 67.00 3D»F 5/2 5P4D5/2 AK2 0.09 3848.10 D I I 1 47.89 12 3P4D1/2 30401/2 AK2 0.09
|
||
3367.16 NF I I 3 67.20 3P2D5/2 30407/2 AK2 0.09 3856.06 SI II 4 56.02 l 3P2D5/2 4P2P3/2 AK2 0.09
|
||
3367.16 S III 3 67.18 3D3P0 3P3PI AK2 0.09 3856.06 AR I I » 56.16 55 3P4D3/2 3D2S1/2 AK2 0.09
|
||
3385.80 n III 2 84.95 3P5P3 30504 0. 10 3856.06 N I I 4 56.07 30 3P3P2 4S3-P1 AK2 0.09
|
||
3385.80 NP I I ? 86.2» 3P4D3/2 3D4D5/2 0.10 3856.06 0 I I 56.16 12 3P4D3/2 30401/2 AK2 0.09
|
||
3387.00 S III l 87.13 3D3P1 4P3P0 0.15 3857.58 0 I I l 57.18 13 3P4D5/2 3D2F5/2 AK2 0.04
|
||
3411.42 NF I I 1 11.38 3P2P3/2 3D2P3/2 AK2 0.15 3862.41 SI II l 62.59 1 3P2D3/2 4P2P1/2 AK2 0. 14
|
||
3439.92 n in 1 40.39 3P1D2 30303 AK2 0.0 3864.34 n 11 1 64.45 12 3P4D5/2 30405/2 AK2 0.14
|
||
3444.10 0 III 1 »4.10 3P3P2 303P2 AK2 0.11 3868.73 (NF III) l 68.76 1 2P3P2 2PID2 AK2 8 1.10
|
||
3447.00 HP I 1 47.59 21 SO 6lP1 AK2 0.26 3871.69 HE I l 71.82 60 2 1P1 9 102 A K2 0.23
|
||
3450.27 HF I 2 50.20 AK2 0.06 3884.20 C III 1 83.80 15 4 3D 1 5 3F2 0.05
|
||
3450.27 P III 2 50.9» 3P5D3 3D5F4 AK2 0.06 3888.89 H I ? 89.05 2 2 2P 8 20 AK2 18.10
|
||
3454.43 HF T 2 53.21 23P 203D AK2 0.05 3888.89 HP I 2 88.65 2 2 3S1 3 3P2<1 A K2 13.10
|
||
3454.43 G III ? 54.90 3P5D2 3D5F2 AK2 0.05 3896.30 0 I I 1 96.30 11 3P4D5/2 3D4P3/2 0.05
|
||
3456.87 HP I 56.80 AK2 0.08 3912.50 I I 2 12.09 17 3S2D3/2 3P2P3/2 0.05
|
||
3466.28 HF I 65.89 23P 1730 AK2 0.08 3912.50 I I 2 11.96 17 3S2D5/2 3P2P3/2 0.05
|
||
3466.28 G III 66.15 3P5D4 305F4 AK2 0.03 3918.91 I I 2 19.01 17 3P1P1 301 PI 0.04
|
||
3470.50 0 I I l 70.81 3P2D5/2 4S2P3/2 0.08 3918.91 C I I 2 18.98 3 2P1/2 4 2S1/2 AK2 0.04
|
||
3471.89 HE I 1 71.80 23P 1630 AK2 0.12 3920.68 C I I l 20.68 3 2P3/2 4 2SI/2 AK2 0.08
|
||
3479.06 HP I 1 78.97 23P 1530 AK2 0.14 3926.48 HE I 1 26.53 2 1P1 8 102 AK2 0.19
|
||
3481.95 NE I I 1 81.96 3S2P3/2 3P2S3/2 AK2 0.08 3935.90 HP I 1 35.91 57 2 IP1 8 ISO 0.04
|
||
3487.79 HE I l 87.72 23P 1430 AK2 0.14 3946.00 C I I 2 46.35 32 3D4F 4F4F 0.04
|
||
3498.69 HP I 1 98.64 23P 1330 AK2 0.17 3946.00 C I I 2 46.35 31 3D2F5/2 4F2F7/2 0.04
|
||
3503.50 NE II 1 3.61 3P2F 1/2 3D2PI/2 0.06 3947.90 1 47.60 31 3D4F5/2 4F 2F5/2 0.04
|
||
3512.51 HE I 1 12.51 23P 1230 AK2 0. 18 3954.50 1 54.37 6 3S2P1/2 3P2P1/2 0.06
|
||
3530.55 HF I 1 30.49 23P 1130 AK2 0.19 3963.00 1 63.13 43 3P2D5/2 4D2P3/2 0.06
|
||
3543.10 NF I I 1 42.90 3P4S3/2 304P5/2 KA 0.07 3964.74 HE I 1 64.73 5 2 ISO 4 1P1 AK2 1.35
|
||
3554.45 HF l l 54.39 23P 2 1030 AK2 0.23 3967.45 (NF III) l 67.47 1 2P3P1 2PID2 AK2 39.80
|
||
3563.00 HF I 1 62.95 ? 3P 103S 0.03 3970.03 H I 1 70.07 1 2 ?P AK2 39.80
|
||
3587.21 HE I 1 87.25 23P 2 930 0.34 3995.06 N T I 1 95.00 12 3S1P1 3P102 AK2 0.05
|
||
3599.80 HE I ? 99.44 2 3P0 9 3SI 0.08 4009.21 HF I 1 9.27 55 2 1P1 7 102 AK2 0.32
|
||
3599.80 HF I ? 99.30 2 3P 2< 1 9 3S1 0.08 4024.03 1 24.04 99 302F 4F2D AK2 0.02
|
||
3613.61 HF I 1 13.64 21 SO 51P1 0.45 4026.20 I 1 26.19 18 2 3P 5 30 AK2 2.96
|
||
3615.60 MG I I 2 15.64 4 2SI/2 5 2PI/2 0. 10 4041.60 I I 2 41.32 39 3D3F4 4F3G5 0.06
|
||
3615.60 N I I 1 5.38 3P3S 1 4S3P0 0.10 4041.60 I I 2 41.31 50 304F5/2 4F4F5/2 0.06
|
||
3628.30 NE II l 28.06 3P2P3/ 2 3D2P3/2 0.08 4056.40 C III 1 56.06 2» » 102 5 1F3 KA 0.05
|
||
3634.22 HE I 1 34.37 2 3P2 830 AK2 0.55 »060.23 (FE IV ) 1 60.22 i 2P3P2 2P 102 AK2 0.05
|
||
3658.70 H I 58.64 22P 3420 AK2 0.0 »068.52 ( S II) 1 68.60 1 3P4S3/2 3P2P3/2 AK2 1.35
|
||
3659.43 1 59.42 22P 3320 AK2 0.33 4069.90 69.6» 10 3P4D1/2 3D4F3/2 AK2 0.21
|
||
3660.33 1 60.-28 ??P 3220 AK2 0.36 »069.90 69.90 10 3P403/2 3D4F5/2 AK2 0.21
|
||
NGC 6572 (PK NG. NGC 6572 (PK NG.
|
||
|
||
|
||
|
||
|
||
678
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
NGC 6572 CPK NO. 34»!1 I) NGC 6572 (PK NO.
|
||
WAVE IDENT MT TRANSI TION REF OBS I WAVE IDENT MT TRANSITION REF OBS I
|
||
»072.03 II 10 3P»D5/2 3D4F7/2 AK2 0.18 »609,87 _0 I 93 3D2D5/2 »F2F7/2 AK2 0.07
|
||
»072.03 AR I I 2 72.01 33 -»S205/2 »P2D5/2 AK2 0.18 »609.87 2 10.1» 92 3D2D3/2 »F»F5/2 AK2 0.07
|
||
»076.19 C I I 2 76.00 36 3D»D7/2 »F»F9/2 AK2 0.66 »621.60 2 21.39 5 3S3P1 3P3P0 AK2 0.07
|
||
»076.19 (S II ) 2 76.35 1 3P»S3/ 2 3P2P3/2 AK2 0.66 »621.60 2 21.28 92 3D2D5/2 »F»F5/2 AK2 0.07
|
||
»085.00 0 II 1 85.12 10 3P»D5/2 3D4F5/2 AK2 0.05 »630.50 2 30.52 »9 3D2F7/2 »F »G9/2 AK2 0.06
|
||
»087.20 N I I 2 87.35 37 3D3F3 »F1F3 KA 0.06 »630.50 2 30.5» 5 3S3P2 3P3P2 AK2 0.06
|
||
»089.17 0 T I 2 89.30 »8 3D»F 9/2 »F»G /2 AK2 0.1» »63».05 l 3».16 2 3 2P1/2 3 2D3/2 AK2 0.28
|
||
»089.17 SI IV 2 88.86 1 » 2S1/2 2P3/2 AK2 0.1» »638.58 l 38.85 1 3S»P 1/ 2 3P»D3/2 AK2 0.12
|
||
»093.20 0 I I l 92.9» 10 3P»D7/2 3D»F7/2 KA 0.06 »6»0.50 »0.6» 2 3 2P3/2 3 2D5/2 AK2 0.50
|
||
»097.31 N III 1 97.31 1 3 2S1/2 3 2P3/2 AK2 0.57 »6»1.8l »1.90 2 3 2P3/2 3 203/2 AK2 0.28
|
||
»101.70 1 1.7» l 2 2P 6 2D AK2 21.60 »6»l.81 0 I 2 »1.81 1 3S»P 3/2 3P»D5/2 AK2 0.28
|
||
»103.32 III 1 3.37 1 3 2S1/2 3 2PI/2 AK2 0.20 »6»7.20 C I 2 »7.»0 l 3 3S1 3 3P2 AK2 0.09
|
||
»10».70 I I 1 ».7» 20 3P»P 3/2 3D»D5/2 AK2 0.22 »6»7•20 NE I 2 »7.3» 72 »S»P 5/2 »F »F3/2 AK2 0.09
|
||
»116.50 SI IV 1 16.10 1 » 2S1/2 » 2PI/2 AK2 0.06 »6»9.01 0 I 1 »9.1» 1 3S»P5/2 3P»D7/2 AK2 0.29
|
||
»119.26 0 I I l 19.22 20 3P»P5/2 3D»D7/2 AK2 0.10 »650.73 0 I 1 50.8» 1 3S»P 1/2 3P»Dl/2 AK2 0.17
|
||
»120.79 HF I 1 20.81 16 2 3P 5 3S1 AK2 0.39 »653.70 _g i 1 5».23 18 3 5P1 8 50 KA 0.05
|
||
»128.75 AR II 1 28.65 AK2 0.06 »657.97 AR I 2 57.9» 15 »S2P3/2 »P2P1/2 AK2 0.17
|
||
»132.87 n 11 1 32.81 19 3P»P1/2 3D»P3/2 AK2 0.08 »657.97 (FE I 2 58.10 3 A 5D» A 3F» AK2 0.17
|
||
»1»3.63 HE I 1 »3.76 53 2 1P1 6 102 AK2 0.55 »661.58 0 I 1 61.6» 1 3S»P 3/2 3P»D3/2 AK2 0.15
|
||
»i»5.95 2 »5.90 106 3P6P7/2 3D6D7/2 AK2 0.0» »676.06 0 I l 76.23 1 3S»P5/2 3P»D5/2 AK? 0.12
|
||
»i»5.95 2 »6.09 106 3P6P7/2 3D6D9/2 AK2 0.0» »702.00 (FE I 3 1.50 2 A 5D3 A 3F3 KA 0.06
|
||
»153,27 1 53.30 19 3P»P 3/2 3D»P5/2 AK2 0.09 »702.00 0 I 3 1.23 58 3P2P3/2 3D2P3/2 KA 0.06
|
||
»163.25 (K V l 63.30 1 3P»S3/2 3P2D3/2 AK2 0.0» »702.00 n 3 1.76 58 3P2P3/2 3D2P1/2 KA 0.06
|
||
»169.0» HE I 3 68.97 52 2 1P1 6 ISO AK2 0.10 »711.21 (AR IV ) 1 11.3» l 3P »S 3/2 3P205/2 AK2 0.80
|
||
»169.0» 3 69.23 19 3P»P5/2 3D»P5/2 AK2 0.10 »713.02 HE I 1 13.1» 12 2 3P » 3S1 AK2 0,39
|
||
»169.0» 3 68.98 AK2 0.10 »7»0.07 (AR IV ) 1 »0.20 1 3P»S 3/ ? 3P2D3/2 AK2 1.6»
|
||
»185.»7 1 85.»6 36 3P2F5/2 3D2G7/2 AK2 0.09 »861.21 H I 1 61.33 I 2 2P » 2D AK2 100.00
|
||
»186.98 1 87.05 18 » 1F3 5 1 G» AK2 0.0» »921.81 HE I 1 21.93 »8 2 1P1 1D2 AK2 0,0
|
||
»189.83 l 89.79 36 3P2F7/2 3D2G9/2 AK2 0.08 »931.19 I I I I 31.00 l 2P3P0 2PID2 AK2 0.0
|
||
»192.90 1 92.50 »2 3P2D5/2 3D2P3/2 KA 0.0» »959-. 9» im 58.92 1 2P3P1 2P1D2 AK2 368.00
|
||
»2»!.80 ? »1.79 »7 3D3D2 »F1F3 AK2 0.07
|
||
»2»!•80 2 »1.79 »8 3D3D3 »F3D3 AK2 0.07 NGC 6572 (PK NO. 3»+11 1)
|
||
»253.60 I 11 1 53.59 » »S3P2 »P3D3 AK2 0.05
|
||
.»267.12 T I \ 67.27 6 3 Z05/¿ » ¿F7/2 -fl.63
|
||
»275.68 1 75.52 67 3D»D7/2 »F»F9/2 AK2 0.07
|
||
»276.55 2 76.71 5» 3D»P 3/2 »F»Dl/2 AK2 0.05 BEGIN NGC 7009 (PK NO. 37-3» 1)
|
||
»276.55 2 76.71 67 3D»D5/2 »F»F7/2 AK2 0.05
|
||
»283.70 I I 1 83.75 67 3D»D3/2 »F»F3/2 KA 0.06 WAVE IDENT TRANSITION REF OBS I
|
||
»288.00 I I I 1 88.21 AK2 0.08 3121. 71 0 III l 21.71 3P3SI 3D3PI AK I 0.8»
|
||
»292.50 I I 1 92.23 78 3D2F5/2 »F»F5/2 AK2 -9.07 3132, 87 0 III J 32.,8_6_ 3PQS1 303P2 AK1
|
||
»295.30 2 96.11 »2 3D2D5/2 »F2D5/2 KA 0.06 3187. I l 87.7» 3 23 S »3P AK 1 1.50
|
||
»295.30 2 9».82 5» 3D»P3/2 »F»D5/2 KA 0.06 3203. I I 1 3. 10 l 32D 5 2P AK 1 3.00
|
||
»303.82 1 3.82 5» 3D»P5/2 »F »D7/2 AK2 -9.06 3218. I I 2 18.10 107 3P6P7/2 »S6S5/2
|
||
»313.60 C II 2 13.50 28 3P»P3/2 »S»P5/2 KA 0.0» 3218, TI ? 18.21 3P»D 7/2 3D»F9/2 0.05
|
||
»313.60 OH 2 13.»3 78 3D2F7/2 »F»F9/2 KA 0.0» 3260. 111 l 60.98 3P30 2 3D3F3 AK 1 0. 16
|
||
»317.50 O II 2 17.1» 2 3S»Pl/2 3P»P3/2 AK? -9. 10 3263 Ü 1 63.»3 3P»m/2 3D2D3/2 4K1 Q.-L5
|
||
»317.50 n 11 ? 17.65 3D»P3/2 »F2D5/2 AK2 0.10 3265. I I I 1 65.»6 3P3Ü3 3D3F» AK 1 0.L1
|
||
»319.»5 o 11 1 19.63 3$»P 3/2 3P»PS/2 AK2 0.09 3267. I I I 1 67.31 3P3D1 3D3F2 AK 1 0.06
|
||
^322.00 c 11 1 21.95 3P»P3/2 »S»P3/2 AK2 0.07 3299. III 1 99.36 3S3P0 3P3S1 AK 1 Pt9-1
|
||
»325.90 II 25.88 3P »P 3/ 2 »S»Pl/2 AK2 0.0» 3305, 15 □ I l 1 5.15 3P»P 5/2 »8»P3/2 AK 1 0.05
|
||
»325.90 l I I 3 25.70 3 S IP 1 3PID2 AK2 0.0» 3306, 60 0 II l 6.60 3P»P 3/2 »S»Pl/2 AK1 0.06
|
||
»325.90 3 25.77 3S»Pl/2 3P»P1/2 AK2 0.0» 3312. bo n 111 1 12.30 3S3P1 3P3S1 AK 1 2.12
|
||
»3»0.38 1 »0.» 7 1 2 2P 5 2D AK2 3».80 3323. 1 23.75 3S2P3/2 3P2P3/2 0.08
|
||
»3»2•7 0 2 »2.83 103 3D2D3/2 »F2D3/2 AK2 0.22 3329. l 29.20 3R»D7/2 3D»D7/2 0.08
|
||
»3»2.70 2 »2.8» »3 »P»n3/2 5S»p5/2 AK2 3331. 1 31.32 3P3D2 »S3P1 0.09
|
||
»3»5.38 n T I l »5.56 »S»P 3/2 3P»Pl/2 AK2 0. 16 333». 87 NE I I l 3».87 3S»P 5/2 3P»D7/2 AK 1 0.28
|
||
»3»6.80 (FE I I ) 1 »6.85 A »F7/2 A »G /2 AK2 0.08 33»0. 7» P I I I l »0.7» 3S3P2 3P3S1 AK l 2.82
|
||
»3»8.2» N III l »8.36 3P»07/2 3D»D7/2 AK2 0.09 3 3»2, 50 (NE III) 1 »2.50 2P in 2 2P1S0 AK 1 0. 18
|
||
»3»9.»5 0 I I l »9.»3 3S»P 5/2 3P»P5/2 AK2 0. 15 335». 00 N I I I 1 5».29 3 S»P 3/2 3P»P5/2 KA 0.05
|
||
»363.10 (n 11 n l 63.21 2P 102 2P ISO AK2 8.10 335». 2 5».55 2 l SO 71 P1 AK 1 0.18
|
||
»366.78 n 11 l 66.90 3S»P 5/2 3P»P3/2 AK2 0.13 335». ? 55.05 3S »P 3/2 3P»D5/2 AK 1 0.18
|
||
»368.25 C I I 1 68.1» 3D»P »F»D AK2 0. 15 3367. 00 0 l 67.00 30»F 5/2 5P»DS/2 AKI 0. 10
|
||
»372.0» P I I 2 71.65 3D2F7/2 »F»G9/2 AK2 0.0» 3399. 80 (FF 1 0.30 3D5D2 3P3G3 AK 1 0.05
|
||
»372.0» AR T I 2 72.09 »P »S 3/2 5S2P1/2 AK2 0,0» 3»05. l 5.7» 3P3P0 303P1 AKI 0.1»
|
||
»379.11 N III 1 79.09 5 2G AK2 0.06 3»08. 1 8.13 3P3P1 3P3P0 AKI 0.08
|
||
»387.8» HF I 1 87.93 2 IP1 5 ID2 AK2 0.55 3» 11 . 2 11.76 3 2P3/2 3 2D5/2 AKI 0.05
|
||
»390,30 MG I I 1 90.56 » 2P3/2 5 2D AK2 0,05 3» 11. 2 11.38 3P2P3/2 30 2P3/2 AKI 0.05
|
||
»391.78 S I I 2 91.8» »P»05/2 5S»P5/2 AK2 0.06 3»1», 80 NF IT 1». 82 3P 20 3/2 302F5/2 AKI 0.18
|
||
»391.78 NF II 2 91.9» 3D»F 7/2 »F»G9/2 AK2 0.06 3»1», I I I 2 15.29 3P3P1 3D3PI AKI 0.18
|
||
»»11.13 C I I 1 11.20 30 20 3/ 2 »F2F5/2 AK2 0.06 3»17. I I 1 17.71 3P2D5/2 3D2F7/2 AKI 0.07
|
||
»»I».8 l 1 l»•91 3S2P3/2 3P2D5/2 AK2 0.07 3»25. 57 (NF 2 25.87 2P3P2 2P1D2 AKI 0.05
|
||
»»16.9» P I I 2 16.98 3S2P 172 3P2D3/2 AK2 0.06 3»25, 57 P IV 2 25.57 3S»P 5/2 3P »D 3/2 AKI 0.05
|
||
»»16.9» NE I I 2 16.77 3D2D5/2 »F»03/2 AK2 0.06 3»21 70 I IT 1 28.67 3P3P 1 3D3P2 AKI 1.20
|
||
»»28.28 NF I I 2 28.5» 3D»F5/2 »F»G5/2 AK2 0.07 3»30. I I I 1 30.60 3P3P2 3D3P1 AK 1 0.21
|
||
»»28.28 NE I I 2 28.5» 3D 20 5/2 »F »D5/2 AK2 0.07 3»38, I I 2 38.97 3P2P 1/2 3D2P3/2 AKI 0.07
|
||
»»30.50 NE I I 1 30.90 3D»F 3/2 »F»F3/2 AK2 0.0» 3» 38. I I 2 38.1» »P»D5/2 »D2D3/2 AKI 0.07
|
||
»»32.93 1 32.7» 3D2P2 »F3D3 AK2 0.0» 3»»0, I I I l »0.39 3P1D2 3D3D3 AKI 0.03
|
||
»»37.»3 l 37.55 2 1P1 5 ISO AK2 0.16 3»»2. I I l »2.12 3P»S3/2 »S»P5/2 AKI 0.06
|
||
»»»6.90 1 »7.03 3P 1P1 3D1D2 KA 0,05 3»»», I I I 1 »».10 3P3P2 3P3P2 AKI 5.25
|
||
»»»8.90 I I l »8.21 3P2F7/2 3D2F7/2 KA 0.05 3»»7. 59 HE l »7.59 AKI 0.13
|
||
»»52.90 I I l 52.38 3S2P3/2 3P2P3/2 KA 0.05 3»53. 2 0 HF l 53.20 KA 0.03
|
||
»»65.16 I I 1 65.»0 3S6S5/2 3P6P7/2 AK2 0.03 3»56. 80 HE 1 56.80 KA 0.03
|
||
»»67.82 n 11 2 67.88 3S6S5/2 3P6P5/2 AK2 0.05 3»61, 00 HE l 61.00 KA 0.03
|
||
»»67.82 s in 2 67.83 30303 »P3D3 AK2 0.05 3»6». 21 AR l 6». 1» »P2D5/2 »D2F5/2 AKI 0.02
|
||
»»71.37 HF I 71.»8 3P 3P AK2 5.02 3»66. 0» HE 1 65.89 23P 1 73D AKI 0,05
|
||
»»80.9» MG I I 1 81.12 3 20 3/2 5 2P5/2 AK2 0.0» 3»72, I l 71.80 23P 163D AKI 0.03
|
||
»511.08 N III 2 10.92 3S»P 3/2 3P»D5/2 AK2 0.05 3»78. I l 78.97 23P 15 3D AKI 0.06
|
||
»511.08 (K IV ) 2 10.93 3P ID2 3P1S0 AK2 0.05 3»80, I I 1 80.75 3S2S1/2 3P2P1/2 AKI 0.0»
|
||
»53».29 MG I I 1 3».26 9 2G AK2 0.05 3»87, l 87.72 23P 1»3D AKI 0.02
|
||
»562.72 NF I I l 62.05 3D»D 3/2 »F»03/2 AK2 0.06 3»95. l 95.»» 3D»D7/2 5P4P5/2 KA 0.0»
|
||
»571.01 Mr, J 1 71.10 3 ISO 3 3P1 AK2 0.70 3»98, 1 98.6» 23P 1 33D AKI 0.07
|
||
»590.81 P 11 1 90.97 3S2D5/2 3P2F7/2 AK2 0.08 3512. 1 12.51 23P 12 3D AKI 0.06
|
||
»596.12 0 I I 1 96.17 3S203/2 3P2F5/2 AK2 0.06 3530. 1 30.»9 23P 11 3D AK l 0.1»
|
||
»598.66 AR I I 1 98.77 3D¿03/ 2 »P2P3/2 AK2 0.05 35»2. 1 »2.28 3P2D5/2 3D2P3/2 0.03
|
||
»60».55 (FF I I A 609/2 A »H7/2 AK2 0.05 355». I 1 5».39 23P2 10 3D 0.17
|
||
»606.80 N I I 39 3P 0 3P3PI AK2 0.05 3558. I I 1 57.8» 352PI/2 3P2SI/2 0.03
|
||
(PK NO. 3»+ll 1) NGC 7009 (PK NO. 37-3» 1)
|
||
|
||
|
||
|
||
|
||
679
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31.
|
||
|
||
|
||
TABLE 9—Continued
|
||
NGC 7009 (PK NO. 37-34 1) NGC 7009 (PK Nn.
|
||
WAVE IDENT MT TRANSITION REF OBS I WAVE IDENT N R MT TRANSI T ION REF OBS I
|
||
3561.00 NE II I 61.23 31 3P4S3/2 3P4F5/2 KA 0.03 3864.60 0 I I 2 64.68 12 3P2D5/2 3D4D3/2 KA 0.04
|
||
3568.62 NE II 1 68.53 3S2D5/2 3P2F7/2 AK 1 0.12 3864.60 0 I I 2 64.45 12 3P2D5/2 3D4D5/2 KA 0.04
|
||
3574.29 NE II l 74.23 3S2D5/2 3P2F5/2 AK l 0.03 3868.63 (NE III) l 68.76 1 2P3P2 2P1D2 AKl 100.00
|
||
3587.36 HE I 1 87,25 31 23P2 93D AK 1 0.23 3871.73 HE I 1 71.82 60 2 1P1 9 102 AK1 0.08
|
||
3599.70 HE T 2 99.44 30 2 3P0 9 3S1 KA 0.04 3875.30 II 1 75.82 13 3P4D7/2 3D2F5/2 KA 0.03
|
||
3599.70 HE I 2 99.30 30 2 3P 2< I 9 3SI KA 0.04 3882.38 II 1 82.45 Il 3P4D3/2 3D4P3/2 AKl O.ll
|
||
3613.70 HE I 1 13.64 21 SO 51P 1 AKl 0.17 3888.79 I 2 89.05 2 2 2P 8 2D AKl 18.90
|
||
3634.35 1 34.24 28 23P2 8 3D AKl 0.40 3888.79 HE I 2 88.65 2 2 3S1 3 3P2<1 AKl 18.90
|
||
3648.90 0 III L 49.20 35 3P3P2 3D3D1 KA 0.03 3891.44 (FE V ) l 91.28 3 3D5D4 3D3F4 AKl 0.11
|
||
3657,59 2 57.27 7 22P 3620 AKl 0.24 3895.66 (FE V ) 1 91.28 3 3D5D4 3D3F4 AKl 0.09
|
||
3657.59 2 57.93 22P 352D AKl 0.24 3907.38 II 1 7.45 Il 3P4D5/2 3D4P5/2 AKl 0.03
|
||
3658.81 l 58.64 22P 342D AKl 0.23 3912.00 I I 2 12.09 17 3S2D3/2 3P2P3/2 KA 0.03
|
||
3659.28 1 59.42 22P 332D AKl 0.22 3912.00 II 11.96 17 3S2D5/2 3P2P3/2 KA 0.03
|
||
3660.22 1 60.28 6 22P 322D AKl 0.21 3918.91 I I 2 18.98 4 3 2P1/2 2S1/2 AKl 0.04
|
||
3661.25 1 61.22 6 22 P 31 2D AKl 0.21 3918.91 I I 2 19.01 17 3P1P1 3D 1 PI AKl 0.04
|
||
3662.29 1 62.26 6 22 P 302D AKl 0.24 3920.52 I I 1 20.68 4 3 2P3/2 2S1/2 AKl 0.
|
||
3663.40 1 63.41 22P 292D AKl 0.0 3923.51 HF II 1 23.48 4 4 2F 15 2S AKl .18
|
||
3664.48 H I 1 64.63 22P 282D AKl 0.27 3926.56 HE I 1 26.53 58 2 IP1 8 1D2 AKl 0.16
|
||
3665.93 1 66.10 22P 2 72 D AKl 0.27 3928.87 S III 2 28.62 8 3D3D3 4P3D2 AKl 0.02
|
||
3667.52 l 67.68 5 22P 262D AKl 0.32 3928.87 A» I I 2 28.62 10 4S4P1/2 4P4S3/2 AKl
|
||
3671.32 1 71.48 5 22P 242D AKl 0.38 3933.19 S I I 1 33.29 55 4P2D5/2 4D2F7/2 AKl 0.03
|
||
3673.61 1 73.76 5 22? 232D AKl 3944.87 n ii 1 45.05 6 3S2P1/2 3P2P3/2 AKl 0.03
|
||
3676.25 H Î 1 76.37 4 22P 222D AKl 3947.99 I I 1 48.15 32 3D4F7/2 4F4F7/2 AKl 0.05
|
||
3679.25 H I 1 79.36 4 22P 2120 AKl 0.49 3954.94 I I 1 54.37 6 3S2PI/2 3P2P1/2 AKl 0.04
|
||
3682.74 H I 1 82.81 4 22P 202D AKl 0.60 3955.90 II 1 55.85 6 3S3P1 3P1D2 KA 0.03
|
||
3686.86 1 86.83 4 22P 192D AKl 0.68 3964.79 HE I 1 64.73 5 2 ISO 4 1PI AKl 0.66
|
||
3691.49 1 91.56 4 22P 18 2D AKl 0.82 3967.40 (NE III) 2 67.47 1 2P3PI 2P1D2 AKl 47.50
|
||
3694.17 1 94.22 1 3S4P5/2 3P4P5/2 AKl 9*37 3970.00 2 70 Ql L 2 2P 7 29 AKl 47.50
|
||
3697.11 1 97.15 3 22 P 1720 AKl 0.99 3973.16 1 73.26 6 3S2P3/2 3P2P3/2 AKl 0.06
|
||
3698.90 l 98.70 21 3S5P2 3P5D3 KA 0.04 3976.77 1 77.10 10 3P4P5/2 3D4P3/2 AKl 0.01
|
||
3702.82 1 2.75 14 2P3P0 3D3D1 AKl 0.33 3982.96 1 82.72 6 3S2P3/2 3P2P1/2 AKl _0aJL2_
|
||
3703.82 H I
|
||
3705.02 HP I
|
||
1 3.36 3 22 P 162D AKl 1.17 3986.19 S III 1 85.97 8 3D3D1 3P3D0 AKl 0.03
|
||
1 5.00 25 23P2 73D AKl 0.70 3995.04 N 11 1 95.00 12 3S1PI 3PID2 AKl 0.02
|
||
-3707.23 -D LLL _1 7.24 14 3P3P1 —3P302 AK1_ . Q«33 3997.15 j_F L-V L 1 97.37 1 2P3P1 2P1D2 AKl 0.02
|
||
3709.67 III 9.52 21 3S5P1 3P5D0 AKl 0.07 4003.62 III 1 3.64 20 5/ 2 2F7/2 AKl 0.07
|
||
3709.67 NE I I 3 9.64 l 3S4P3/2 3P4P1/2 AKl 0.07 4009.31 HE I l 9.27 2 IP1 7 1D2 AKl 0.22
|
||
_3709.67 _ AR I I 3 9.90 .67- 3P2Q3/2 AQ4F3/2 AKl 4026.15 HE I 1 26.19 2 3P 5 3D AKl 2.10
|
||
3710.50 ^ I II 1 10.42 l 3D3P2 4P3D2 KA 0.04 4035.08 O II 1 35.09 51 3D4E5/2 4F2F5/2 AKl 0.06
|
||
3711.92 H I 1 11.97 3 22P 152D AKl 1.27 4041.41 N II 2 41.32 39 3D3F4 4F3G5 AKl 0.11
|
||
-3713.04 1 13.00 5 3S2P3/2 l_P205/2 AKl 0.24 4041.41 Q U 2 41,31 50 3D4F5/2 4F4F5/2 AKl 0.11
|
||
3714.04 I I T 1 14.03 14 3P3P1 3D3DI AKl 0.22 4043.57 N I I 43.54 39 3D3F4 4F3G5 AKl 0.04
|
||
3715.15 I I I 1 15.08 14 3P3P2 3D3D2 AKl 0.30 4054.50 I I 1 54.55 98 3D2F5/2 4F2F5/2 KA 0.02
|
||
3717.80 -LU 4S3P 2 .4P 3S1 KA 0.04 4056.03 III 1 56.06 24 4 ID 2 5 1F3 AKl -0_aH2_
|
||
3721.90 I l 21.94 3 22P 142D AKl 2.32 4060.80 (F IV ) 3 60.22 1 2P3P2 2PID2 AKl 0.04
|
||
3726.01 I I » 1 26. 15 1 2P4S3/2 2P2D3/2 AKl 8.48 4060.80 H II 3 60.58 97 3D2F7/2 4F2G9/2 AKl 0.04
|
||
3728.73 J_Q II ) l 28.80 1 2P4S3/2 2P2D5/2 AKl 5.61 4060.80 0 II 3 60.98 97 3D2F5/2 4F2G9/2 AKl 0,04
|
||
3730. HE I 1 30.80 AKl 0.02 4062.91 0 I I 62.90 50 3D4E9/2 4F4F9/2 AKl 0.05
|
||
3732.60 1 32.86 24 23P2 73S1 AKl 0.09 4062.91 NF II 2 62.90 53 3D4D5/2 4F4F5/2 AKl 0.05
|
||
3734.39 1 34.37 3 22P l?2P AKl 1,94 4068.37 (S II ) 1 68.60 1 3P4S3/2 3P2P3/2 AKl 0.67
|
||
3736.62 1 36.78 6 3P4D7/2 3D4F9/2 AKl 0.02 4069.96 II 2 69.64 10 3P4D1/2 3D4F3/2 AKl 0.53
|
||
3740.24 l 39.92 31 3P4S3/2 4S4P5/2 AKl 0.04 4069.96 I I 2 69.90 10 3P4D3/2 3D4F5/2 AKl 0.53
|
||
3745.83 -HE I I 46.90 . . A.K I 0.03 4072.16 0 I I 1 72.16 10 3P4D5/2 3D4F7/2 AKl
|
||
3750.14 T 1 50.15 22P 122D AKl 2. 4074.05 n III 1 73.90 23 3S3P1 3P3D2 AKl 0.06
|
||
3754.50 N I I Î 2 54.62 3S4P3/2
|
||
P 3P4S3/2 AKl 0.5 2 4075.94 O II 2 75.87 10 3P4D7/2 3D4F9/2 AKl 0.58
|
||
-3754.50 _Qc 111 J?4.67 —2..3S3 1 ¿P3Q2 AKl -0.52 4075.94 (S II ) 2 76.35 1 3P4S3/2 3P2P3/2 AKl 0.58
|
||
3755.90 H I l 56.10 66 2 1PI 141D2 KA 0.04 4080.90 TI I l 81.10 23 3S3P2 3P3D3 AKl 0.07
|
||
3757.33 0 III 1 57.21 2 3S3P0 3P3D1 AKl 0.33 4081.90 I I 1 82.28 38 3D3F3 4F3F4 AKl 0.03
|
||
3759.93 n m 1 59.87 2 3S3p2 3P3D3 AKl 1.54 4083.86 I I 1 83.91 49 3D4F5/2 4F2G7/2 AKl 0.14
|
||
3762.40 n 11 2 62.63 31 3P4S3/2 4S4P3/2 AKl 0. 10 4085.24 I I 1 85.12 10 3P4D5/2 3D4F5/2 AKl 0.14
|
||
3762.40 si iv 2 62.41 3 4 205/2 5 2P3/2 AKl 0. 10 4087.19 I I 1 87.16 48 3D4F3/2 4F4G5/2 AKl 0.14
|
||
3766.48 NF I I 1 66.29 3S4P3/2 3P4P5/2 AKl 0.06 4089.18 I I 2 89.30 48 3D4F9/2 4F4G /2 AKl 0.30
|
||
1 70.63 2 22P 11 2D AKl 3.38 4089.18 SI IV 2 88.86 1 4 2S1/2 2P3/2 AKl 0.30
|
||
1 73.13 3 4 203/2 5 2P1/2 AKl 0.07 4092.98 0 I I l 92.94 10 3P4D7/2 3D4F7/2 AKl 0.09
|
||
1 74.00 3S3P 1 3P3D1 AKl 0.20 4097.25 N III 3 97.31 1 3 2S1/2 2P3/2 AKl 1.94
|
||
1 77.16 1 3S4P1/2 3P4P3/2 0.07 4097.25 I I 3 97.26 20 3P4P1/2 3D4D3/2 AKl 1.94
|
||
1 79.23 11 3°4D 5/? 3D4P5/2 0’. 0 3 4097.25 I I 3 97.26 48 3D4F7/2 4F4G9/2 AKl 1.94
|
||
1 81.68 5 4 2F 212G 0.07 4101.67 1 1.74 1 2 2P 6 2D AKl 26.50
|
||
3783.80 ( FE V ) 1 83.60 3 3D502 3D3F3 KA 0.03 4103.41 2 3.37 1 3 2S1/2 2P1/2 AKl 0.97
|
||
3784.91 HE I 1 84.89 64 2lPl 1 2102 AKl 0.04 4103.41 2 3.02 20 3P4P1/2 3D4DI/2 AKl 0.97
|
||
3791.42 9 III 1 91.26 2 3S3P2 3P3D2 AKl 0.33 4104.90 1 4.74 20 3P4P3/2 3D4D5/2 AKl 0.10
|
||
3792.70 N T I I l 92.87 il 3P407/2 3D4P5/2 0.03 4107.01 I I l 7.07 47 3D4F5/2 4F4D7/2 AKl 0.06
|
||
3795.20 ( FE V ) 1 95.20 3 3D5D2 3D3F2 0.05 4110.63 î I 1 10.80 20 3P4P3/2 3D4DI/2 AKl 0.05
|
||
3796.36 HE I I 1 96.33 5 42F 202G 0.10 4112.55 I I 1 12.03 21 3P4P5/2 3D2F5/2 AKl 0.04
|
||
3797.93 1 97.90 2 2 2P 10 2D AKl 4.28 4115.88 SI IV l 16.10 l 4 2S1/2 2PI/2 AKl 0.
|
||
3805.96 l 5.77 63 2 IPl 11 ID2 AKl 0.05 4119.52 n 11 l 19.22 20 3P4P5/2 3D407/2 AKl 0.22
|
||
3811.08 1 10.96 2 3S3P2 3P3D1 AKl 0.03 4120.85 HE I l 20.81 16 2 3P 5 3S1 AKl 0.24
|
||
3813.59 HE II 1 13.50 4 4 2F 19 2G AKl O.ll 4123.55 (FE V ) 1 23.90 2 3D5D4 3D3H6 AKl 0.03
|
||
3319.66 HF I l 19.61 22 2 3P 6 3D 4125.30 S III 1 25.40 11 4S1P1 4P3P0 AKl
|
||
3826.93 AR T I 1 26.83 54 4P4D5/2 4D4D5/2 AKl AKl
|
||
1.12
|
||
0.02 4128.70 AR I I 1 28.65 AKl
|
||
0.03
|
||
0.05
|
||
3829.38 MG I 1 29.35 3 3 3P0 3 301 AKl 0.03 4130.90 (FE III) 30.80 A 5D2 A 3G4 KA 0.03
|
||
3831.74 S I I T 1 31.85 5 4S3P0 4P3P1 AKl 0.04 4132.66 0 I I 1 32.81 3P4P 1/2 3D4P3/2 AKl 0.10
|
||
3833.77 HE I 2 33.57 62 2 IPl 10 1D2 AKl 0.19 4143.81 HE I 1 43.76 2 IPl 6 1D2 AKl 0.36
|
||
3833.77 HF I I 2 33.80 4 4 2F AKl 0.19 4146.00 n 11 2 45.90 106 3P6P7/2 3D6D7/2 AKl 0.04
|
||
3835.43 H I 1 35.39 2 2 2P AKl 6.15 4146.00 o 11 2 46.09 106 3P6P7/2 3D6D9/2 AKl 0.04
|
||
3838.23 HF M I 2 38,09 61 2 IPl AKl 0.09 4150.56 NE I I 1 50.67 53 3D4D1/2 4F4F3/2 AKl 0.02
|
||
3838.23 G I 2 38.29 3 3 3P2 3 3D 0.09 4153.66 II l 53.30 3P4P3/2 3D4P5/2 AKl 0.16
|
||
3843.00 I I 1 42.82 12 3P4D1/2 3D4D3/2 0.02 4155.48 I I 1 56.54 3P4P5/2 3D4P3/2 AKl 0.11
|
||
3848.00 I I 1 47.89 12 3P4P1/2 30401/2 0.03 4163.12 1 63.30 3P4S3/2 3P2D3/2 AKl 0.03
|
||
3851.10 2 50.81 12 3P4D3/2 3D4D5/2 AKl 0.05 4169.14 I I 1 69.23 3P4P5/2 3D4P5/2 AKl 0.03
|
||
3851.10 2 51.04 12 3P4D3/2 3D4D3/2 AKl 0.05 4171.57 I I 1 71.61 3D 102 4F3F3 AKl 0.03
|
||
3852.90 1 53.09 30 3D2F5/2 4P2D3/2 AKl 0.03 4176.00 I I 1 76.16 3D1D2 4F1F3 AKl 0.03
|
||
3855.90 SI I I 1 56.02 4P2P3/2 AKl 0.10 4181.15 1 81.17 3D3D3 4F1G4 AKl 0.04
|
||
3858.04 HE I I l 58.07 17 2G AKl 0.14 4185.51 I I l 85.46 3P2F5/2 3D2G7/2 AKl 0.08
|
||
3858.04 HF II 1 58.07 17 2G AK 1 0.14 4186.94 I II 1 87.05 4 1E3 5 1G4 AKl 0.13
|
||
3860.60 S III 1 60.64 5 4S3P1 4P3P0 0.04 4189.78 l 89.79 3P2F7/2 3D2G9/2 AKl 0.11
|
||
3862.52 SI II l 62.59 1 3P2D3/2 4P2PI/2 0.12 4195.72 l 95.70 3S2P 1/2 3P2D3/2 AKl 0.08
|
||
NGC 7009 (PK NÜ. 37-34 1) NGC 7009 (PK NO. 37-34 1)
|
||
|
||
|
||
|
||
|
||
680
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
NGC 7009 CPK NO. 37-34 1) KGC 7009 (PK NO, 37-34 1)
|
||
WAVE IOENT N R Ml TRANSITION REF OBS I WAVE IDENT N R MT TRANSITION REF OBS I
|
||
4199.90 HE II 1 99.83 3 4 2F 11 2G AK1 0.49 4529.7C 0 III 1 29.70 32 3P5S2 3D5D3 AK1 0.05
|
||
42C2.0C AR II 2 1.99 8 4S4P1/2 4P2D3/2 AK 1 0.02 4530.32 Ñ TI 1 30.40 55 3D IF 3 4F1G4 ÄlO 0.07
|
||
42C2.00 AR II 2 1.99 12 4 3 0 20 3 / 2 4F203/2 AK I 0.02 4534.57 N III 1 34.57 3 3S4P5/2 3P405/2 AK 1 C.09
|
||
4215.80 III 1 15.69 6 3S2P3/2 3P2D3/2 AK 1 0.03 4541.55 HE II 1 41.59 2 4 2F 9 2G. AK1 0.Ó6
|
||
4217.2C ~0 Ï 2 17.09 33 4 3P 3 3P2 AK 1 0.03 4544.80 Tj—ITT 1 44.80 12 4 2P2/2 2S1/2 0.05
|
||
4217.20 NE II 2 17.15 52 30407/2 4F405/2 AK 1 0.03 4547.34 N III l 47.34 3 3S4P5/2 3P4D3/2 AK 1 0.05
|
||
4219.79 NE II 1 19.76 52 30407/2 TP 4F4D7/2 AK 1 - 0.08 4552.54 N II l 52.54 58 3D1F3 4P1D4 AK 1 0.07
|
||
"422:5.07 R II 1 25.67 T3Ü" SRI 0.03 4562.66 NE fl 1 62.05 64 304P3/2 4P 403/2 AK 1 Ú.Ú3
|
||
4231.61 NE II 1 31.60 52 30405/2 4F405/2 AK 1 0.03 4564.43 AR II l 64.43 85 4P4S3/2 5S4P1/2 AK1 0.04
|
||
4233.83 0 I 1 33.32 33 4 3P 3 3P2 AK 1 0.02 4571.IC MG I 1 71.10 3 1SC 3 3P1 AK1 0.13
|
||
4237.04 “ñ rr 2 36.93 48 30301 4F3F2 AK 1 0. 4590.97 "c rr l 90.97 15 3S2D5/2 3P2F7/2 AK 1 C.1C
|
||
4237.04 N II 2 37.05 48 30302 4F3F3 AK 1 0.06 4556.17 0 II 1 9 6.17 15 3S2D3/2 3P2F5/2 AK 1 0.08
|
||
4242.24 NE II 1 42.20 52 30401/2 4F401/2 AK 1 0.10 4602.10 0 II 1 2. 11 53 30203/2 4F 2F 5/2 AK 1 0.08
|
||
4250.53 NE II 1 50.68 52 30403/2 4F4D5/2 AK1 0.03 4608.30 (FE III) 1 7.10 3 A 504 A 3F3 KA 0.03
|
||
42 53.88 0 II 2 53.98 101 3D2G7/2 4F2H9/2 AK 1 0.09 4609.90 0 II 2 10.14 92 30203/2 4F4F5/2 AK1 0.17
|
||
4253. 0 II 2 5 3,74 101 302GS/2 4F2H9/2 AK 1 0.09 4609.90 0 II 2 9.42 93 30205/2 4F2F 7/2 AK 1 0. 17
|
||
4263.60 K II 1 63.40 0.05 4613.3C II l 13.11 93 30205/2 4F2F5/2 AK 1 0.03
|
||
4267.11 C II 1 67.27 6 3 205/2 4 2F7/2 AK 1 1.04 4621.07 TI 1 21.28 52 30205/2 4F4F5/2 AK 1 0.03
|
||
4272.88 0 II 1 73,17 68 30405/2 4F2F7/2 AK1 0.03 4631 .10 II 1 30.54 5 3S3P2 3P3P2 AK 1 0.10
|
||
4275.57 0 I I 1 75.52 67 30407/2 4F4F9/2 AK 1 C. 20 4634.16 N III 1 34.16 2 3 2P1/2 3 203/2 AK 1 1.56
|
||
4276.73 C I I 2 76.71 54 3D4P3/2 4F4D1/2 AK 1 0.11 4638.85 0 II l 38.85 1 3S4P1/2 3P 403/2 AK 1 0.05
|
||
4276.73 0 II 2 76.71 67 30405/2 4F4F7/2 AK 1 0.11 4640,64 N I II 1 40.64 2 3 2P3/2 3 205/2 AK 1 2.94
|
||
4277.74 C II 1 77.90 67 30407/2 4F4F7/2 AK 1 0.08 4641.5C N II 2 41.90 2 3 2P3/2 3 203/2 AK 1 0.91
|
||
4281.38 G II 1 81.40 54 3D4P5/2 4F405/2 AK1 0.03 4641.90 0 II 2 41.81 1 3S4P3/2 3P4D5/2 AK 1 0.91
|
||
4283.29 0 II 4 82.82 54 304P3/2 4F4D3/2 AK1 0.07 4647.40 C III 1 47.40 1 3 3S1 3 3P2 AK 1 0.32
|
||
42 83.29 G II 82.96 67 30403/2 4F4F5/2 AKl 0.07 4649.14 0 Ii 1 49.14 1 3S4P5/2 3P407/2 AKI 0.87
|
||
4283.29 0 II 83.75 67 30403/2 4F4F3/2 AKi 0.07 4651 .35 C I II 1 51.35 l 3 3S1 3 3PC AK 1 0.35
|
||
4283.29 0 II 83.13 67 30405/2 4F4F5/2 AK 1 0.07 4658.42 C I v 1 58.64 8 5 2F 6 2G AK 1 0.07
|
||
4285. 7C C II 1 85.70 78 3D2F5/2 4F2F7/2 AKI 0.08 4661.64 0 II 1 61.64 1 3S4P3/2 3P403/2 AKI 0.30
|
||
4288.80 0 II 1 88.83 54 3D4P1/2 4F401/2 AKI 0.04 4667.28 N I I l 67.28 11 3S1P1 3P3P 1 AK 1 0.06
|
||
*291.61 C II . 92,pQ *1 302P5/2 4F4D5/2 AKI Q,Q<? 4673.75 0 II 1 73.75 1 3S4P3/2 3P4D1/2 AKI 0.10
|
||
4291.61 0 II 2 91.25 55 304P5/2 4F4G7/2 AKI 0.06 4676.26 0 II l 76.23 1 3S4P5/2 3P4D5/2 AKI 0.24
|
||
4294.85 0 II 1 94.82 54 304P3/2 4F405/2 AKI 0.10 4685.68 HE II 1 85.68 AK 1 18.8-0
|
||
4303t99 0 II 1 3.82 54 3D4P5/2 4F4D7/2 AKI 0.18 47C5.36 0 II 1 5. 36 3P2D5/2 3C2F7/2 AKI 0.0 5
|
||
4307.33 0 II 1 7.31 53 3D4PI/2 4F2D3/2 AKI 0.05 4711.34 (AR IV ) 1 11.34 1 3P4S3/2 3P2D5/2 AK 1 5.29
|
||
4309.21 K II 1 9.10 7 4$ 4P AK 1 C. 02 4713.17 HE I 1 13.14 12 2 3P 4 3S1 AK 1 0.64
|
||
4309.21 AR II 2 9.11 36 302F5/2 4P203/2 AKI 0.02 4740.20 (AR IV ) 1 40.20 1 3P4S3/2 3P2D3/2 AKI 7.40
|
||
4312. 10 0 II 1 12.10 79 302F7/2 4F2F7/2 KA 0.02 4775.00 N I I 2 74.22 20 3P3D1 3D 30 2 0. 12
|
||
4313.95 C II 2 13.50 28 3P4P3/2 4S4P5/2 AKI 0.04 4775.CC C I 2 75.87 6 3S3P2 4P3P1 0.12
|
||
4313.95 0 U 2 13t 43 78 3D2F7/2 4F4F9/2 AKi QW4 4784.50 (CR V ) 1 85.00 0.10
|
||
4315.36 II 2 15.35 64 3D4D1/2 4F4D3/2 AKI 0.05 4861.30 l 61.33 1 2 2P 4 20 100.00
|
||
4315.36 0 II 2 15.35 79 302F7/2 4F2F5/2 AKI 0.05 4867.3C (FE IV ) 3 67.40 0.08
|
||
4317,24 0 II \ ;?ti4 2 3S4P1/2 3P4P3/2 aki Qtl3 4867.30 N III 3 67. 18 9 3P4D3/2 3D4F3/2 0.08
|
||
4319.81 II 1 19.63 2 3S4P3/2 3P4P5/2 AKi 0.09 4867.30 N III 3 67.18 9 3P4D7/2 3D4F9/2 0.08
|
||
4324.00 III 2 23.93 10 3P403/2 30405/2 KA 0.02 4882.50 (FE I II ) 2 81.10 2 A 5D4 A 3H4 0.09
|
||
4324.00 III 2 23.93 IC 3P4D1/2 3D401/2 KA 0.02 4882.50 (FE III 1 2 84.00 1 A 5D2 A 3PC 0.09
|
||
4325.83 0 I I 1 25.77 2 3S4P1/2 3P4P1/2 AKI 0.07 4921.96 HE I 1 21.93 48 2 1P1 4 102 AKI 1.10
|
||
4331.39 C II 1 31.47 41 3P2D3/2 30205/2 AKI 0.03 4931.00 (0 III) l 31.00 2 2P3P0 2P102 KA 0.45
|
||
4333.01 0 II 1 32.76 65 3D4D7/2 4F4GS/2 AKI
|
||
4337.10 0 II 1 36.87 2 3S4P3/2 JP4P3/2 AKI 0.06 NGC 7C09 (PK NO. 37-34 1)
|
||
4340.42 H I l 40.47 1 2 2P 5 20 AKI 49.10
|
||
4344.51 J3 LI_ 1 44.42 65 3D405/2 ^F4G7/¿ AKi
|
||
4345.72 0 II 1 45.56 2 4S4P3/2 3P4P1/2 AKI 0.15
|
||
4347.80 0 II 1 47.43 16 3S2D3/2 3P2D3/2 AKI 0.07 BEGIN N CC 7027 (PK NO. 84 -3 1)
|
||
.4349.46 o UL_ 1 49.43 ¿ 3S4PS/.L 3P4P5/2 AKI Qt¿¿
|
||
0.04 WAVE IOENT TRANSITION REF CBS I
|
||
4351.75 C II 1 51.27 16 35205/2 3P205/2 AKI
|
||
4353.70 N III 2 53.66 10 3P4U7/2 30405/2 KA 0.02 3047.13 0 III 1 47.13 3S3P2 3P3P2 AB W 0.84
|
||
4363.16 (0 III) 1 63.21 2 2P1D2 2P1SC AKI 7.94 3121.67 C III 1 21.71 3P3S1 303 P 1 ABW 0.63
|
||
4365.9 C NE II 1 65.72 57 3D4F7/2 4F4G5/2 KA 0.06 3132.86 0 III l 32.86 3P3S1 3D3P2 ABW 19.40
|
||
4366.97 0 II 1 66.90 2 3S4P5/2 3P4P3/2 AKI 0.16 3187.81 HE I l b 7 .74 23S 43P ABW 0.97
|
||
4369.20 0 I I 1 69.28 26 3P2D3/2 30203/2 AKI 0.05 3203.15 HE II 1 3.10 320 52F ABW 4.85
|
||
4371.73 0 II 1 71.65 76 3D2F7/2 4F4G9/2 AKI 0.05 3241.67 (NA IV ) 1 41.68 ABW 0.39
|
||
4376.67 C II 1 76.78 46 3D4P3/2 4F2D5/2 AKI 0.05 3260.96 0 III 1 60.98 3P302 3D3F3 0. 11
|
||
4379.20 III 1 79.09 17 4 2F 2G 0.39 3265.43 0 III l 65.46 3P3D3 3D3F4 0.14
|
||
4387.90 HÉ I 1 87.93 51 2 1P1 ' T~Td2 akT" 0.68 3299.33 III 1 99.36 3S3PC 3P3S1 1.18
|
||
4392.00 NE II 1 91.94 57 3D4F7/2 4F4G9/2 AKI 0. 10 3312 .33 III l 12.30 3S3P1 3P3S1 ABW 2.45
|
||
4396.00 C II l 95.95 26 3P205/2 30205/2 KA 0.02 3319.00 (FE III) 1 19.20 A 502 A 303 KACE 0.05
|
||
4398.02 NE II I 97.94 56 3D4F9/2 4F4F9/2 AKI 0.06 3334.84 TfFTTTT 2 34.90 A 5D2 A 3D 2 KACE 0.07
|
||
4409.42 NE II i 9.30 57 3D4F5/2 4F4G7/2 AKI 0. 10 3334.84 NE II l 34.87 3S4P5/2 3P4D7/2 ABW 0.07
|
||
4412.95 NE II 1 12.54 55 3D4F9/2 4P407/2 AKI 0.0 5 3340.81 0 III 1 40.74 3S3P2 3P3SI ABW 3.65
|
||
4414.94 0 II 1 14.91 5 3S2P2/2 3P2D5/2 AKI 0.13 3340.81 (FE III) 2 40.70 A 501 A 303 KACE 3.65
|
||
4416.94 C II 2 16.98 5 3S2P.1/2 3P2D3/2 AKI 0.11 3342.55 (NE III) 2 42.50 2P102 2 PI SO ABW 0.33
|
||
4416.94 NE II 2 16.77 61 3D2D5/2 4F4D3/2 AKI 0.11 3342.55 (CL III) 2 42.90 3P4S2/2 3P 2P3/2 ABW 0.33
|
||
4428.50 NE II 2 28.54 57 304F 5/2 4F4G5/2 AKI 0.07 3345.86 (NE V ) 1 45.83 2P3PI 2PID2 ABW 11.90
|
||
4428.50 NE II 2 28.54 61 30205/2 4F4D5/2 AKI 0.07 3349.12 0 I V 1 45.11 3S2P3/2 3P205/2 ABW 0.02
|
||
4431.09 NE II 1 30.90 56 304F3/2 4F4F3/2 AKI 0.08 3350.82 0 III 2 50.99 3S5P3 3P5P3 ABW 0.03
|
||
4432.76 II l 32.74 55 3D2P2 4F 3D 3 AK 1 0.0 7 3350.82 C III 2 50.68 3S5P2 3P5P1 ABW 0.03
|
||
4437.6C HE I 1 37.55 50 2 IPI 5 ISO AK 1 0. 3353.33 (CL III) 1 53.33 3P4S3/2 3P2P1/2 ABW 0.07
|
||
4439.95 NE II 1 39.95 61 3D2D3/2 4F 4P 1/2 AK 1 O.i 3355,05 NE II 1 55.05 3S4P3/2 3P4D5/2 ABW 0. 1C
|
||
4446.68 NE II l 46.46 56 3D4F5/2 4F 4F 3/2 AK 1 0. 03 3355.05 (FE III) 2 55.50 A 5D1 A 301 KACE 0.10
|
||
4448.37 0 II l 48.21 35 3P2F7/2 3D2F7/2 AK 1 0.06 3362.20 (NA IV ) l 62.20 2P3P1 2P1D2 ABW 0.13
|
||
4452.40 0 II 1 52.38 5 3S2P3/2 3P2D3/2 KA 0.04 3381.24 C IV 1 81.28 3S4P3/2 3P4P5/2 ABW 0.25
|
||
4456.83 NE II l 56.95 61 30203/2 4F403/2 AK 1 0.04 3383.4C 0 III 1 83.69 3P5P2 3D5D3 KACE 0.06
|
||
4465.65 0 II 1 65.40 94 3S6S5/2 3P6P7/2 AK 1 0.06 3385.50 0 IV 1 85.55 3S4P5/2 3P4D7/2 ABW 0.17
|
||
4471.50 HE I 1 71.48 14 2 3P 4 3P AK 1 6.01 3396.67 C IV 1 96.83 3S4P3/2 3P403/2 ABW 0.06
|
||
4478.04 0 II l 77.88 88 3D2P3/2 4F4G5/2 AK 1 0.05 3403.54 0 I V 1 3.58 3P2P1/2 3D2D3/2 0.23
|
||
4481.16 MG II 1 81.12 4 3 2D3/2 5 2P5/2 AKi 0.04 3404.82 NE II 1 4.77 3P2Ü3/2 3D 205/2 KACE 0.07
|
||
4487.85 0 II 1 88.09 104 3D2P3/2 4F2D5/2 AK 1 0.03 3405.71 C III 1 5.74 3P3P0 3U3P1 ABW 0.11
|
||
4489.70 II 1 89.48 86 3D2P1/2 4F2D3/2 AK1 0.04 3407.96 UT l 8.13 3P3P1 3D3P0 ABW 0.04
|
||
4491.89 0 II 1 91.25 86 3D2P3/2 4F2D5/2 AK 1 0.07 3409.60 IV 1 9.75 3S4P5/2 3P4D5/2 ABW 0.07
|
||
4498.52 AR II 1 98.55 136 302P3/2 4F2D5/2 AK 1 0.03 3411.74 V 1 11.76
|
||
ITV" 2P3/2 3 2D5/2 ABW 0.33-
|
||
45 10.TT" TT 1 10.92 3 354P8/2 3P4D5/2 AKI 0.23 3413.66 l 13.71 3 2P3/2 3 2D3/2 ABW 7ÏÏ4
|
||
4515.08 III 1 14.89 3 3S4P5/2 3P4D7/2 AKI 0.08 3415.18 III 15.29 3P3P1 3D3PI ABW 0.18
|
||
4517.32 c I II 1 16.93 3P2 5 3S 1 AK 1 0.04 3425.57 ( NE V ) 1 25.87 2P3P2 2P102 ABW 41.90
|
||
4518.10 N 1 II 1 18.18 1 3S4P1/2 3P4D1/2 KA 0.07 3428.56 III 1 28.67 3P 3P 1 3D3P2 ABW 1.34
|
||
4523.65 N III 1 23.60 3 3S4P3/2 3P4D3/2 AKI 0.08 3430.43 III 1 30.60 3P3P2 3 D3P 1 ABW 0.16
|
||
NGC 7009 (PK NO. 27-34 l) NGC 7027 (PK NC.
|
||
|
||
|
||
|
||
|
||
681
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
NGC 70?7 (PK NO. NGC 7027 (PK NO.
|
||
WAVE I GENT N R Ml TRANS IT I ON REF OBS l WAVE IHENT MT TRANSITION REF OBS I
|
||
3444. 0 III 1 44.10 15 3P3P2 3D3P2 A8W 6.59 3920.66 C I I 4 3 2P3/2 4 2S1/2 ABW 0.33
|
||
3447, 54 HE I l 47.59 7 21 SO 61P1 AÔW 0.0 5 3923.47 HE II l 23.48 4 4 2F 15 2G ABW 0.24
|
||
3450, 40 n [U 1 51.33 25 3P5DI 3D5F1 KACE 0.04 3926.55 HE I 1 26.53 58 2 1PI 8 102 ABW 0.06
|
||
3455, 20 0 III 1 54.90 25 3P5D2 3D5F2 KACE 0.07 3954.50 0 I I 1 54.37 6 3S2P1/2 3P2P1/2 ABW 0.01
|
||
3466, 38 (N l 66.33 2 2P4S3/2 2P2P ABW 0.11 3956.86 0 IV 1 56.82 10 3P4P3/2 3D4P3/2 KACE 0.34
|
||
347Í, 80 HF l 71.80 44 23P 1630 KACE 0.05 3961.64 0 III 1 61.59 17 3P102 30IF3 ABW 0.03
|
||
3478, 78 N 1 78.69 1 33S 1 33P2 ABW 0.07 3964.82 HE I 1 64.73 52 ISO 4 1P1 ABW 0.29
|
||
3478. 78 HE 2 78.97 43 23P 1530 KACE 0.37 3967.47 (NE III) l 67.47 1 2P3P1 2P1D2 ABW 20.30
|
||
3487, 90 HE 2 87.72 42 23P 1430 KACE 0.37 3970.00 H I l 70.07 1 2 2P 7 20 ABW 6.20
|
||
3487, 90 (MG 2 88.10 12P2D3/2 2P203/2 KACE 0.07 3997.36 IF IV ) 1 97.37 1 2P3P1 2P102 ABW 0.03
|
||
3498. 1 98.64 40 23P 1330 ABW 400,7.91 (FF III) l 8.40 4 A5D4 A3G4 ABW
|
||
3512. 1 12.51 38 23P 12 30 ABW 4009.26 HE I 1 9.27 55 2 IP 1 7 102 ABW
|
||
3530. 1 30.49 36 23P 1130 ABW 4011.60 (NA V ) 2 11.20 1 2P2D5/2 2P2P3/2 KACE
|
||
3554. 1 54.39 34 23P2 1030 ABW 0.10 4011.60 (NE III) 1 11.60 ABW 0.01
|
||
3554. I I 2 54.39 18 3P2Q5/2 30407/2 KACE 0. 10 4026.02 HE I 2 26.19 18 2 3P 5 30 ABW 1.32
|
||
3568. I I 1 68.53 9 3S205/2 3P2F7/2 ABW 0.04 4026.02 HE II 2 25.60 13 2G ABW 1.32
|
||
3587, 08 HF l 1 87.25 31 23P2 930 ABW 0.20 4034.80 0 I I 1 35.09 51 304F5/2 4F2F5/2 KACE .02
|
||
3587. 08 ( FF VII) 2 87.20 3 3D3F3 3D1G4 KACE 0.20 4046.40 (FE III) 1 46.40 4 A 503 A 3G3 KACE 0.07
|
||
3613, 5 9 HE 1 13.64 6 21 SO 51 P 1 ABW 0.08 4060.23 (FE IV ) 1 60.22 1 2P3P2 2P1D2 ABW 0.09
|
||
3634. I 34.37 28 23P2 830 ABW 0.14 4068.57 (S II ) 1 68.60 1 3P4S3/2 3P2P3/2 ABW 3.70
|
||
3657. l 57.93 7 22P 3520 ABW 0. 14 4070.12 C III 1 70.30 16 4 3F4 5 3G5 ABW 0.28
|
||
3658. 1 58.64 7 22P 3420 ABW 0.0 4071.29 (FF V ) 1 71.29 1 30502 3D3P1 ABW 0.04
|
||
3659. 1 59.42 22 P 3320 ABW 0.0 4072.13 I I 1 72.16 10 3P405/2 3D4F7/2 ABW 0.07
|
||
3660. l 60.28 22P 3220 ABW 0.0 4073.93 I I I 1 73.20 23 3S3P1 3P302 KACE 0.03
|
||
3661. 1 61.22 22P 3120 ABW 0.0 4076.20 IT ) 1 76.35 1 3P4S3/2 3P2P3/2 ABW 1.46
|
||
3662. 1 62.26 22P 3020 ABW 0.0 4078.69 I I l 78.86 10 3P4D3/2 3P4F3/2 ABW 0.02
|
||
3663. 1 63.41 22P 2920 ABW 0.14 4080.86 III l 81.10 23 3S3P2 3P303 KACE 0.01
|
||
3664. 1 64.68 22P 2820 ABW 0.15 4084.01 I I 1 83.91 49 304F5/2 4F2G7/2 KACE 0.32
|
||
3666. 66.10 5 22P 2720 ABW 0.18 4087.15 I I l 87.16 48 3D4F3/2 4F4G5/2 ABW 0.31
|
||
3667, 1 67.68 5 22P 2620 ABW 0.18 4089.18 1 I 1 89.30 48 3D4F9/2 4F4G /2 ABW 0.03
|
||
3669. 1 69.47 5 22P 2520 ABW 0.22 4097.33 I I I 1 97.31 1 3 2S1/2 3 2P3/2 ABW 1.37
|
||
3671, 1 71.48 5 22P 2420 ABW 0.22 4100.07 HF II 1 0.04 3 4 2F 12 2G ABW 0.40
|
||
3673, 1 73.76 5 22P 2320 ABW 0.24 4101.72 H I l 1.74 1 2 2P 6 20 ABW 13.30
|
||
3676, 1 76.37 4 22P 2220 ABW 0.30 4103.31 1 3.37 1 3 251/2 3 2P1/2 ABW 0.47
|
||
3679. 1 79.36 4 22P 2120 ABW 0.35 4119.21 0 I I 1 19.22 20 3P4P5/2 30407/2 ABW 0.04
|
||
3682. 1 32.81 4 22P 2020 ABW 0.44 4120.73 HE I 1 20.81 16 2 3P 5 3S1 ABW 0.14
|
||
3 6.86.1 1 86.83 4 22P _1920 . -ABW 0» 48 4122.46 iK V L 1 22.63 ABW 0*09
|
||
3690. I I 1 90.00 42F 362G ABW 0.04 4128.75 (FF III) 1 29.40 4 A5DI A3G3 KACE 0.12
|
||
3691, I l 91.56 4 22 P 1820 ABW 0.55 4143.63 HE I 1 43.76 53 2 1P1 6 102 ABW 0.17
|
||
3694, T I 1 ^4.22 3S4P5/2 3P4P5/2 ABW *A4_. 4152*55 i_LL 1 52*43 21 3P3P1 5 P 3-F 2 ABW 0.17..
|
||
3697. I 97.15 22 P 1720 ABW 0.64 4156.2( C 1 56.50 21 3P3D2 3F3 ABW 0.02
|
||
3698. 1 98.70 42 F 332G ABW 0.05 4163.25 (K V 1 63.30 1 3P4S3/2 3P2D3/2 ABW 0.13
|
||
3703. 1 3.86 22 P 1620 ABW 0.69 4168.92 HF I 1 68.97 52 2...1P1 .ISO ABW 0*?^
|
||
3705, l 5.00 25 23P2 730 ABW 0.26 4180.86 l 80.87 1 30501 3D3P0 ABW 0.03
|
||
3707, I I I 1 7.24 14 3P3P1 3D 302 ABW 0.02 4185.46 1 85.46 36 3P2F5/2 3D2G7/2 ABW 0.03
|
||
■IZ.QLÜj _LLL _2 9*5 2 21 3S5P1 -3P50Q A-ACE 0.03 4186.82 1 87.05 18 4 IF 3 5 IG4 ABW 0.17
|
||
3709. 1 9.64 1 3S4P3/2 3P4PI/2 ABW 0.03 4189.75 0 I I l 89.79 36 3P2F7/2 302G9/2 ABW 0.03
|
||
3711 . l 11.97 3 22P 1520 ABW 0.84 4195.60 N III 1 95.70 6 • 3S2P1/2 3P203/2 ABW 0.03
|
||
3715. ib n in 15.03 14 3P3P2 3P?IP2 ASA_ 0. 10 4199.81 HE I I 1 99.83 21 ABW -Qj.
|
||
3721. ? 21.94 3 22P 1420 ABW 1.94 4227.35 (FF V ) 1 27.49 2 30 504 3D3H4 ABW 0.11
|
||
3721. 88 << 11 n 2 21.69 2 3P3P1 3P1S0 ABW 1.94 4229.21 (FE V ) I 29.80 1 3D5D2 3D3°0 KACE 0.03
|
||
3726. 05_ ii *> 1 26.05 1 2P4S3/2 2P2D3/2 ASA- 8.62 4253.79 AA3* 74 30209/2 4E¿H9/2 AS*
|
||
3728, 74 (0 l 28.80 l 2P4S3/2 2P2D5/2 ABW 3.00 4253.79 —ü LL 2 53.9E LOI 101 302G7/2 4F2H9/2 ABW
|
||
0*3 L
|
||
0.01
|
||
3734, 33 H 1 34.37 22P 1320 ABW 1.15 4267.06 1 67.27 205/2 2F 7/2 ABW 0.42
|
||
3736, JJ n_ 1 36.78 3P407/2 304F9/2 ABW 0.16 4275.48 1 75.52 67 30407/2 4F4F9/2 KACE 9*91
|
||
3740 30 ( FF V I ) 0 40.34 3D4F9/2 302H9/2 KACE 0.0 4276.55 0 t I 3 76.71 54 3D4P3/2 4F401/2 KACE 0.02
|
||
3745, 91 N III 1 45.83 3S4P1/2 3P4S3/2 A8W 0.03 4276.55 0 I I 3 76.71 67 30405/2 4F 4F 7/2 KACE 0.02
|
||
3750 08 H I 1 50.15 22P 1220 ABW 1.46 4276.55 0 I I 3 76.21 68 30405/2 4F2F5/2 KACE 0.02
|
||
3754 62 P III 1 54.67 3S3P1 3P302 ABW 0.50 4325.90 C III l 25.70 7 3S1P1 3P102 ABW 0.02
|
||
3757 26 n mi 1 57.21 3S3P0 3P3D1 ABW 0.11 4338.89 HF I 1 1 38.67 3 4 2F 10 2G ABW 0.72
|
||
3759 76 O III 1 59.87 3S3P2 3P3D3 ABW 2.17 4340.56 H I 1 40.47 1 2 2P 5 20 ABW 31.10
|
||
3770. 59 H I l 70.63 2 22P 1120 ABW 1.85 4349.48 I I 1 49.43 2 3S4P5/2 3P4P5/2 ABW 0.02
|
||
3773. 98 O III 1 74.00 2 3S3P1 3P3D1 ABW 0. 11 4363.21 I II ) 1 63.21 2 2P10 ? 2P1S0 ABW 18.30
|
||
3 7 73. 98 (FF VI ) 2 74.90 3 3D4F3/2 3D2P1/2 KACE 0.11 4368.48 1 68.30 5 3 3S1 4 3P ABW 0.03
|
||
3777. 07 (FF v ) 2 77.40 l 30 500 303P2 KACE 0.01 4379.17 N III 1 79.09 17 4 2F 5 2G ABW 0.08
|
||
3777. 0 7 NF I I l 77.16 1 3S4PI/2 3P4P3/2 ABW 0.0 1 4387.84 HE I l 87.93 51 2 1P1 5 102 ABW 0.33
|
||
3781. 62 HF n 1 81.68 5 42F 212G ABW 0.08 4391,95 NE I I 1 91.94 57 3D4F7/2 4F4G9/2 KACE 0.02
|
||
3783. 1 83.56 3 30502 30 3F 3 ABW 0.08 4414.81 n 11 1 14.91 5 3S2P3/2 3P2D5/2 ABW 0.02
|
||
3784. I 0 84.88 64 21 P 1 12102 KACE 0.0 4417.06 n 11 1 16.98 5 3S2P1/2 3P2D3/2 ABW 0.01
|
||
3791. I I I 1 91.26 2 3S3P2 3P3D2 ABW 0.13 4437.61 HE i 1 37.55 50 2 1P1 5 ISO ABW 0.04
|
||
3795, 23 (FF V ) 1 95.23 3 30502 3D3F2 ABW 0.03 4471.39 HF J 1 71.48• 14 2 3P 4 3P ABW 2.69
|
||
3796, 3 0 HE I I l 96.33 5 42F 202G ABW 0.10 4481.29 MG II 1 81.12 4 3 203/2 5 2P5/2 ABW 0.01
|
||
3797, 1 97.90 2 2 2P 10 20 ABW 2.46 4491.16 0 I I 1 91.25 86 3D2P3/2 4F205/2 0.01
|
||
3805. I 1 5.77 63 2 1P1 11 102 A8W 0.03 4510.94 I 11 2 10.92 3 3S4P1/2 3P4D3/2 KACE 0.05
|
||
3813. I I 1 13.50 4 4 2F 19 2G ABW 0.13 4510.94 N I I T 2 10.92 3 3S4P3/2 3P4D5/2 KACE 0.05
|
||
3819, 1 19.61 22 2 3P ABW 0.49 4510.94 (K IV) 1 10.93 2 3P102 3 P 1 SO ABW 0.05
|
||
3829. 93 N II 2 29.80 30 3P3P1 4S3P2 KACE 0.0 l 4514.58 I I I 1 14.89 3S4P5/2 3P4D7/2 ABW 0.02
|
||
3829. 1 29.77 39 3P2P3/2 30205/2 ABW 0.01 4516.77 ITT 1 16.93 9 4 3P2 5 3SI ABW 0.01
|
||
3833, 78 HF II 2 33.57 62 2 1P1 10 102 ABW 0.11 4518.02 I I I 1 18.18 3 3S4P1/2 3P4D1/2 ABW 0.01
|
||
3833, 2 33.80 0.11 4523.57 I I I 1 23.60 3 3S4P3/2 3P403/2 ABW 0.01
|
||
3835. l 35.39 2 2P ABW 3.50 4534.53 I I I 1 34.57 3 3S4P5/2 3P4D5/2 ABW 0.01
|
||
3839, 50 (FE V ) 1 39.52 30503 ABW 0.08 4541.43 1 41.59 2 4 2F 9 2G ABW 1.28
|
||
3843, oo n 1 43.58 13 3P403/2 30 2F 5/2 KACE 0.04 4546.59 N III l 46.36 13 3P4S3/2 3D4P5/2 ABW 0.01
|
||
3351, 20 (FE l 50.80 3 30503 30 3F 2 ABW 0.03 4552.00 SI III l 52.65 2 4 3S1 3P2 ABW 0.01
|
||
3853, 42 SI 1 53.66 1 3P2D3/2 4P2P3/2 ABW 0.01 4570.92 MG l 1 71.10 1 3 ISO 3P1 ABW 0.69
|
||
3856. I I t 56.02 3P205/2 4P2P3/2 ABW 0.0 3 4590.80 90.97 15 3S2D5/2 3P2F7/2 ABW 0.04
|
||
3858. I I 1 58.07 4 2F 17 2G ABW 0.19 4596.08 96.17 15 3S2D3/2 3P2F5/2 ABW 0.02
|
||
3862. I I 1 62.59 1 3P203/2 4P2P1/2 ABW 0.13 4603.80 1 3.20 1 3 2S1/2 3 2P3/2 ABW 0.02
|
||
3868. 75 (NE ITT) 1 68.76 1 2P3P2 2P 102 ABW 50.20 4606.55 1 7.13 504 A 3F 3 ABW 0.
|
||
3871. 59 HF I 1 71.82 2 1P1 9 102 ABW 0.07 4619.87 l 19.40 1 3 2 S 1 / 2 3 2P1/2 ABW 0.02
|
||
3887, 53 HF I I 1 87.44 16 2G ABW 8.80 4625.43 1 25.54 2 3P1D2 3P1S0 ABW 0.06
|
||
3888. 89 H 1 89.05 2 2 2P 8 20 ABW 8.80 4634.11 III 1 34.16 2 3 2PI/2 3 203/2 ABW 1.16
|
||
3891. 33 (FE 1 91.28 3 30504 3D3F4 ABW 0.10 4640.69 T I I 1 40.64 ? 3 2P3/2 205/2 ABW 2.35
|
||
3895. 48 (FE 1 91.28 3 30504 303F4 ABW 0.05 4642.01 I I I 1 41.90 2 3 2P3/2 203/2 ABW 0.29
|
||
3911, 86 (FE 1 11.86 30504 30 3F 3 ABW 0.01 4647.34 I I I l 47.40 1 3 3S1 3 3P2 ABW 0.37
|
||
3919. 21 C 1 18.98 3 2P1/2 4 2 SI / 2 ABW 0.01 4649.11 I I l 49.14 1 3S4P5/2 3P4D7/2 ABW 0.14
|
||
NGC 7027 (PK NO. 84-3 1) NGC 7027 (PK NO. 84 -3 1)
|
||
|
||
|
||
|
||
|
||
682
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
NGC 7027 (PK NO. 84-3 1) NGC 7027 (PK NO.
|
||
WAVE IDENT MT TRANSI TI ON REF OBS I WAVE IDENT N R MT TRANSI TI ON REF OBS I
|
||
»650.35 C III 1 3 3SL 3 3P1 ABW 0.20 6560. HE II 1 60.10 2 » 2F 2G ABM 784.00
|
||
»651.5» C III 1 51.35 1 3 3SI 3 3P0 ABW 0.06 6562. 90 H I 1 62.82 l 2 2P 3 2D ABM 78».00
|
||
»65».»0 N II 1 5».57 il 3S1P1 3P3P2 KACE 0.0» 6583. 36 (N II ) 1 83.39 1 2P3P2 2PID2 ABM 279.00
|
||
»657.69 (FE III) 1 58.10 3 A 5D» A 3F» ABW 0.27 6598. 76 (FE VII ) 1 0.80 1 3D3F» 3D1D2 ABM 0.0
|
||
»658.38 C IV l 58.6» 8 5 2F 6 2G ABW 0.»2 6678. 16 HE 1 78.15 »6 2 1P1 1D2 ABM 9.»7
|
||
»661.58 0 II 1 61.6» 1 3S»P 3/2 3P4D3/2 ABW 0.05 6683. 00 HE 2 83.20 7 5 2G 13 2H KACE 9.»7
|
||
»663.56 C III 1 63.53 5 3S3P1 3P3P0 ABW 0.32 6716. 52 IS 1 16,»2 2 3P»S 3/ 2 3P2D5/2 ABM ».72
|
||
»665.61 C III 1 65.90 5 3S3P2 3P3P2 ABW 0.05 6730. 7» (S I I ) 1 30.78 2 3P»S3/2 3P2D3/2 ABM 10.60
|
||
»665.61 C IV 2 65.00 7 5 2F 6 2D KACE 0.05 6890. 80 HE I I I 90.88 7 5 2G 12 2H ABM 2.01
|
||
»669.20 (P II ) 1 69.50 23 P3P1 3P1S0 KACE 0.03 7005. 67 (AR V I 1 5.67 1 3P3P2 3P1D2 ABM 12.10
|
||
»673.»6 l 73.75 1 3S»P 3/ 2 3P»Dl/2 ABW 0.03 7065. 31 HE I 1 65.19 10 2 3P 3 3S1 ABM 23.50
|
||
»676.06 1 76.23 1 3S»P5/2 3P»D5/2 ABW 0.0» 7135. 78 (AR III ) l 35.80 1 3P3P2 3PID2 ABM 77.90
|
||
»678.17 1 77.93 63 3D IP 1 »F1D2 KACE 0.03 7170. 62 (AR IV ) 1 70.62 2 3P2D3/2 3P2P3/2 ABM ».20
|
||
»685.75 HE II 1 85.68 1 3 2D » 2F ABW »1.20 7177. 77 HE I I 1 77.50 6 5 2G Il 2H ABM ».20
|
||
»701.26 (FE I II » 1 1.62 3 A 5D3 A 3F3 ABM 0.05 7237. 26 (AR IV ) 1 37.26 2 3P2D5/2 3P2P3/2 ABM 2.»7
|
||
»711.»2 (AR IV I 1 11.3» 1 3P»S 3/2 3P2D5/2 ABM 7262. 77 (AR IV ) 1 62.76 2 3P2D3/2 3P2P1/2 ABM -1-39
|
||
»713.20 1 13.1» 12 2 3P » 3S1 ABM 0. »8 7281, 32 HE l 81.3» »5 2 1P1 3 ISO ABM 2.25
|
||
»715.7» (NE IV ) 1 15.61 l 2P2D5/2 2P2P3/2 ABM 0.69 7319. 92 (D I I ) 1 19.92 2 2P2D5/2 2P2P3/2 ABM 55.80
|
||
»715.7» (NE TV ) 1 15.61 1 2P2D5/2 2P2P3/2 KACE 0.22 7330. 19 (D I I ) 1 30.19 2 2P2D3/2 2P2P1/2 ABM »7.50
|
||
»725.67 (NE IV ) 1 25.62 1 2P2D3/2 2P2P1/2 ABM 0.97 7530. 5» (CL IV ) 1 30.5» 3PID2 ABM 2.03
|
||
»725.67 (NE IV ) 1 25.62 1 2P2D3/2 2P2P1/2 KACE 0.73 7592. 79 HE I I 1 92.7» 10 2H ABM 3.23
|
||
»733.68 (FE III) 1 33.93 3 A 5D2 3F2 ABM 0,78 7726. 51 (S I L 1 2 ».»0 3 3P1D2 3P1S0 ABM 1.08
|
||
»740.03 (AR IV ) 1 »0.20 1 3P4S3/2 3P2D3/2 ABM 6.42 7751. 0» (AR III) l 51.06 1 3P3PI 3P1D2 ABM 23.00
|
||
»754.90 (FE III) 1 54.83 3 A 5D3 A 3F» ABM 0.22 7876, 00 (P II » l 69.50 3 3P1D2 3P1S0 KACE 0.48
|
||
»859.32 HE II 1 59.32 2 » 2F 8 2G ABM 1.30 8045, 58 (CL TV ) 1 »5,63 1 3P3P2 3P1D2 ABM
|
||
»861.30 l 61.33 1 2 2P » 2D ABM 98.20 8236, 6» HE I I 1 36.77 6 5 2G 9 2H ABM 6.10
|
||
»893.42 (FE VII ) l 93.40 2 3D3F2 3D3P1 ABM 0.12 8446, 00 (FE I I ) 1 »6.11 29 A »D3/2 A 2D5/2 KACE l.OOA
|
||
»921.96 HE I 1 21.93 »8 2 1P1 » 102 ABM 0.89 8502, 50 H 1 2.49 10 3 2D 16 2F ABM 2.50
|
||
»930.97 (0 III) 1 31.00 1 2P3P0 2P1D2 ABM 0.33 8545, 53 H l »5.38 10 3 2D 15 2F ABM 3.30
|
||
»94».10 (FE VII) l »4.00 2 3D3F3 3D 3P2 ABM 0.0 8577, 00 (CL 1 79.50 1 3P3P2 3P1D2 KACE 1.40A
|
||
»958.95 III ) 1 58.92 1 2P3P1 2P102 ABM 512.00 8598, 35 H 1 98.39 9 3 2D 1» 2F ABM 3.00
|
||
»972.12 (FE VI ) l 72.10 2 3D4F5/2 3D2G7/2 ABM 17 8665. 1 65.02 3 2D 13 2F ABM 3.90
|
||
5006.88 (0 III) 1 6.85 1 2P3P2 2P1D2 ABM 1553.00 8750, l 50.48 3 2D 12 2F ABM 0.0
|
||
5015.55 1 15.68 » 2 ISO 3 1P1 ABM 1.06 8862. 1 62.79 3 20 U 2F ABM 0.0
|
||
5041.31 SI II 1 »1.06 5 » 2P1/2 » 2D3/2 ABM 0.32 901», 90 H l 14.91 9 3 2D 10 2F ABM 0.0
|
||
5047.92 HE I I l »7.7» »7 2 1P1 » ISO ABM 0.25 9069. 00 (S III) l 69.00 1 3P3PI 3PID2 ABM 1.87
|
||
5056.45 SI II 1 56.35 5 » 2P3/2 » 205/2 ABM 0.08 9531. 80 (S III ) 1 31.80 1 3P3P1 3P1D2 ABM 1.87
|
||
5112.00 n vi 1 12.00 2P 2D ABM 0.03
|
||
5145.78 (FE VI ) 1 »6.80 »F7/2 2G7/2 ABM 0.36 NGC 7027 (PK NO. 8» -3 1)
|
||
5151.00 (FE III ) 1 51.90 1 A 5QJt 3P2 KACE 0*05
|
||
5158.9» (FE VII ) 1 58.98 2 3D3F3 3D3PI ABM 0.25
|
||
5176.42 (FE VI ) 1 76.43 2 3D4F9/2 3D2G9/2 ABM 0.29
|
||
5191.81 (Aft III) 91.82 3 3P1D2 3P1S0 ABM Q..2_8_ BEGIN NGC 7662 (PK NO. 106-17 1)
|
||
5197.95 (NI ) 1 97.51 1 2P4S3/2 2P2D3/2 ABM 0.43
|
||
5200.41 (NI ) 1 0.41 1 2P4S3/2 2P2D5/2 ABM 0.11 WAVE IDENT MT TRANSITION REF OBS
|
||
527Q.28 (PE III) 1 70.40 1 A 5D3 A 3P2 ABM... Q.23
|
||
ABM _3_IZ1,<?9 0 III
|
||
3132.91 0 III 1l 32.86 ? 1 » 7 1 12 3P3S1 3P3P1 akb -l.S't
|
||
5277.76 (FF VII) 1 77.67 2 3D3F » 303P2 0. 10 12 3P3S1 3D3P2 AKB 78.00
|
||
5309.17 (CA V ) 1 8.90 l 3P3P2 3P1D2 ABM 0.47 3187.7» HE I l 87.7» 3 23S »3P AKB 1.21
|
||
5323.26 (CL IV ) 1 23.27 3 3P1D2 3P1S0 ABM tJJL. 32Q3.23 HE II J 3.10 1 32D 52£
|
||
5335.22 (FE VI ) 1 35.23 1 3D4F3/2 304P1/2 ABM 0.16 3241.72 (NA IV ) l »1.68 AKB 0.56
|
||
5411.5» HE II l 11.52 2 » 2F 2G ABM 6.20 3265.47 n in 1 65.46 8 3P3D3 3H3F» AKB 0.0
|
||
5423.87 (FF VII ) 1 23 90 1 3D4F5/2 3D4P3/2 ABM 3299.42 0 ITT 1 99.36 3 3C3P0 3P3S1 AKB 4,70
|
||
5426.57 (FE VI L 26.60 1 3D4F7/2 3D»P5^ 2 ABM 0.18 3312.35 0 III 1 12.30 3 3S3P1 3P3S1 AKB 8.00
|
||
5484.79 (FF VI ) 1 84.78 1 3D4F5/2 3D4PI/2 ABM 0. 18 3340.85 0 III 1 »0.7» 3 3S3P2 3P3SI AKB 12.30
|
||
5517.72 (CL III) 1 17.66 1 3P4S3/2 3P2D5/2 ABM 0.25 3342.68 (NE III) 2 »2.50 2 2P1D2 2P ISO AKB 0.34
|
||
5537.80 (CL III) 37.60 1 3P»S 3/2 3P2D3/2 ABM l.Ol 3342.68 (CL III) »2.90 1 3P4S3/2 3P2P3/2 AKB 0.3»
|
||
55-, 7.36 (0 1 ) 77.35 3 2PID2 2PIS0 ABM 0. 32 3345.89 (NE V ) »5.93 1 2P3P1 2P1D2 AKB 4.00
|
||
5592.17 0 III 92.37 5 3S1P1 3PIP1 ABM 0.20 3362.21 (NA IV ) 62.20 1 2P3P1 2P1D2 AKB 0.23
|
||
5604.00 (K VI ) 3.20 1 3P3PI 3PLD2 ABM 0.06 3381.25 81.28 3 3S»0 3/2 3P4P5/2 AKB 0.18
|
||
5614.65 (CA VII) 16.00 1 3P3P2 3PID2 ABM 0.0 3385.53 85.55 3 3S4P5/2 3P4D7/2 AKB 0.16
|
||
5630.88 (FF VI ) 30.82 1 3D4F7/2 3D4P3/2 ABM 0.15 3396.80 96.83 3 3S4P3/2 3P»03/2 AKB 0.10
|
||
5677.01 (FF VI ) l 76.96 1 3D4F9/2 3D4P5/2 ABM 0.28 3403.52 IV 1 3.58 2 3P2PI/2 3D 203/2 AKB 0.17
|
||
5696.06 C III l 96.00 2 3 IP l 3 1D2 ABM 0.0 3405.81 I I I l 5.7» 15 3P3P0 3D3PI AKB 0.38
|
||
5721.13 (FE VII) 1 21.11 1 3D3F2 3D1D2 ABM 0,56 3407.40 IT 1 7. 38 4» 3P2D5/2 »S2D AKB 0, 1 1
|
||
5754.59 (N II) 1 54.57 3 2PID1 2P1S0 ABM 10.00 3411.8» 0 IV l 11.76 2 3 2R3/2 3 2D5/2 AKB 0.32
|
||
5776.37 (MN VI ) 1 75.00 2 3D3F3 3D3P1 ABM 0.0 3415.19 0 III l 15.29 15 3P3P1 3D3PI AKB 0.4»
|
||
5801.38 C IV 1 1.51 1 3 2S1/2 3 2P3/2 ABM 0.75 3425.9» ( NE V ) 1 25.87 1 2P3P2 2P1D2 AKB 9.25
|
||
5812.12 C IV l 12.1» 1 3 2S1/2 3 2PI/2 ABM 0.41 3428.69 I I I l 28.67 15 3P3P1 3D3P2 AKB 3.88
|
||
5862.3» (MN V ) 1 63.00 2 3D4F7/2 3D2G7/2 ABM 0.0 3430.51 I I I l 30.60 15 3P3P2 3D3P1 AKB 0.56
|
||
5864.81 ( MN V ) 1 63.00 2 3D4F7/2 3D2G7/2 ABM 0.3 3444.09 III 1 »4.10 15 3P3P2 3D3P2 AKB 17.20
|
||
5867.82 SI II 2 j7.50 8 4S»P5/2 4P4P5/2 ABM 0.16 3447.60 HP I l »7.59 7 2 l SO 6lPl AKB 0.11
|
||
5875.63 HE I 1 75.99 11 2 3P0, 3 3D ABM 22.40 3512.51 HF I l 12.51 38 23P 12 3D AKB 0.12
|
||
5890.98 (MN V ) 1 89.00 2 3D»F 9/2 3D2G9/2 ABM 0.0 3530.50 HP I 1 30.»9 36 23P 11 3D AKB 0.08
|
||
5894.01 (MN VI ) 1 95.00 3D3F» 3D3P2 ABM 0.0 3554.40 HF I l 54.39 3» 23P2 1030 AKB 0. 1 3
|
||
6037.16 HE II 1 36.70 5 2G 21 2H ABM 0.18 3587.30 HF 1 1 87.40 31 23P0 93D AKB 0.28
|
||
6074.30 HE II 74.10 2G 20 2H ABM 0.25 3613.60 HP I 1 13.64 21 SO 51 PI AKB 0.26
|
||
6086.88 (CA V ) 2 86.92 1 3P3P1 3P1D2 ABM 1.15 3634.20 HE I 2 34.24 28 23P2<1 8 3D AKB 0.37
|
||
6086.88 (FE VII) 2 86.92 1 3D3F3 3DID2 ABM 1.15 3661.20 H I 1 61.22 6 22P 312D AKB 0.27
|
||
6101.76 (K IV ) 1 1.83 1 3P3P2 3P1D2 ABM 1.03 3662.30 H I 1 62.26 6 22P 302D AKB 0.31
|
||
6118.31 HE II 1 18.20 5 2G 19 2H ABM 0.28 3663.40 1 63.41 6 22P 2 92D AKB
|
||
6166.22 (MN V ) l 68.00 4F7/2 4P5/2 ABM 0.34 3664.70 l 64.68 6 22P 282D AKB
|
||
6170.73 HE II 1 70.60 2G 18 2*8 ABM 0.34 3666.10 1 66.10 5 22P 2 7 2P AKB
|
||
6218.64 ( MN V ) l 21.00 1 4F5/2 4P1/2 ABM 0.03 3667.70 1 67.68 5 22 P 2620 AKB 0.43
|
||
6221.04 (MN V ) l 21.00 l 4F 5/2 4P 1 / 2 ABM 0.0 3669.50 l 69.47 5 22P 252D AKB 0.39
|
||
6228.41 (K VI ) 1 29.20 1 3P3P2 3P 1D2 ABM 0.44 3671.50 1 71.48 5 22P 2420 AKB 0,49
|
||
6233.80 HE II 1 33.80 7 5 2G 17 2H ABM 0.44 3673.BO 1 73.76 22P 2320 AKB 0.53
|
||
6300.31 (G I ) 1 0.32 l 2P3P2 2P 1D2 ABM 28.50 3676.40 l 76.37 22P 22 2D AKB 0.67
|
||
6310.80 HP II 2 10.80 7 5 2G 16 2H KACE 1 1. 10 3679.40 1 79.36 22P 21 2D AKB 0.72
|
||
6312.10 (S III) l 12.06 3 3P1D2 3P1S0 ABM 11.10 3682.80 l 82.81 22 P 20 2D AKB 0.96
|
||
6347.54 SI II 1 47.09 2 4 2S1/2 4 2P3/2 ABM 0.40 3686.80 1 86.83 22P 1920 AKB 0.94
|
||
6363.82 (PI ) 1 63.81 1 2P3P1 2P1D2 ABM 9,96 3690.00 1 90.00 42F 362G AKB 0. 14
|
||
6371.34 SI II 1 71.36 2 4 2SI/2 4 2P1/2 ABM 0.30 3691.60 1 91.56 22P 1 8 2D AKB 1.28
|
||
6393.62 (MN V ) l 96.00 l 3D4F9/2 3D4P5/2 ABM 0.0 3697.20 l 97.15 22P 17 2D AKB 1.49
|
||
6406.53 HE II 1 6.30 7 5 2G 15 2H ABM 0.70 3698.70 1 98.70 42F 332G AKB 0.21
|
||
6435.11 ( AR V ) l 33.10 1 3P3P1 3PID2 ABM 4.80 3703.90 3.86 3 22P l 62D AKB 1.72
|
||
6548.09 (N II) 1 48.06 1 2P3P1 2P1D2 ABM 87.80 3705.00 5.00 25 23P2 730 AKB 0.38
|
||
NGC 7027 (PK NO. 84 -3 1) NGC 7662 (PK NO. 106-17 1)
|
||
|
||
|
||
|
||
|
||
683
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
NGC 7662 (PK NO. 106-17 1) NGC 7662 (PK NO. 106-17 11
|
||
WAVF IDENT NT TRANSI T T ON REF OBS I WAVE IDENT HT TRANSITION REF OBS I
|
||
3707.20 0 III 14 3P3P1 3D3D2 AKB 0.36 4275 .95 O II 68 30403/ 2 4F2F5/2 AKB 0.15
|
||
3709.50 1 9.52 21 3S5P1 3P5D0 AKB 0.0 4295.24 O II l 94.82 54 3D4P3/2 4F4D5/2 AKB 0.04
|
||
3712.00 1 11.97 3 22P 1520 AKB 2.10 4303.83 O II 1 3.82 54 304P5/2 4F407/2 AKB 0.04
|
||
3715.00 2 15.00 42F 292G AKB 0.48 4338.97 HF II 1 38.67 3 4 2F 10 2G AKB 0.0
|
||
3715.00 2 15.08 14 3P3P2 3D3D2 AKB 0.48 4340. 49 I 1 40.47 1 2 2P 5 20 AKB 44.30
|
||
3721.98 2 21.94 3 22P 142D AKB 3.08 4349, 73 0 I I 1 49.43 2 3S4P5/2 3P4P5/2 AKB 0.0
|
||
3721.98 2 21.69 3P3P 1 3P1S0 AKB 3.08 4363. 26 (H i m 1 63.21 2 2P1D2 2P ISO AKB 16.00
|
||
3726.13 1 26.05 1 2P4S3/2 2P2D3/2 AKB 6.00 4366, 66.90 2 3S4P5/2 3P4P3/2 AKB 0.0
|
||
3728.84 1 28.80 l 2P4S3/2 2P2D5/2 AKB 3.33 4368. I 68.30 5 3 3S1 4 3P AKB 0.0
|
||
3731.60 1 32.13 14 3P3P2 3D3D1 AKB 0.41 4379. III 1 79.09 17 4 2F 5 2G AKB 0.18
|
||
3734.40 1 34.37 3 22P 132D AKB 3.10 4387, 1 87.93 51 2 1P1 5 102 AKB 0.41
|
||
3736.70 1 36.73 6 3P4D7/2 3D4F9/2 AKB 0.11 4414. 1 14.37 60 3S2P3/2 3P205/2 AKB 0.14
|
||
3750.19 1 50.15 2 22P 12 2D AKB 3.50 4437, 1 37.55 50 2 IP! ISO AKB 0.11
|
||
3754.69 I I I l 54.67 2 3S3PI 3P3D2 AKB 1.57 4447. II 1 48.21 35 3P2F7/2 3D2F7/2 AKB 0.12
|
||
3757.29 I I I 1 57.21 2 3S3P0 3P3DI AKB 0.68 4452. I I 1 52.38 5 3S2P3/2 3P2D3/2 AKB 0.17
|
||
3759.87 I I I 1 59.87 2 3S3P2 3P3D3 AKB 5.60 4471. I 1 71.48 14 2 3P 4 3P AKB 3.20
|
||
3770.61 I 1 70.63 2 22 P 11 2D AKB 4.40 4510. 97 IK IV ) l 10.93 2 3PID2 3P1S0 AKB 0.19
|
||
3773.90 I I T 1 74.00 2 3S3P1 3P3D1 AKB 0.34 4535. 00 N I I I 1 35.11 13 3P4S3/2 3D4P3/2 AKB 0.08
|
||
3776.93 I I 1 77.16 1 3S4P1/2 3P4P3/2 AKB 0.07 4541, 52 HE I I 1 41.59 2 4 2F 9 2G AKB 3.50
|
||
3781.70 HF I I 1 81.68 5 42F 212G AKB 0.24 4568. I 68.00 15 5 2F 6 20 AKB 0.05
|
||
3783.77 I FF V l 83.56 3 3D5D2 3D3F3 AKB 0.08 4571, l 71.10 1 3 ISO 3 3P1 AKB 0.0
|
||
3734.94 HF I 1 84.89 64 21 P 1 12 1D2 AKB 0.05 4620. 1 18.85 50 3D2F 4F2G AKB
|
||
3791.28 I I I 1 91.26 2 3S3P2 3P3D2 AKB 0.51 4634. I I I 1 34.16 2 3 2P1/2 3 203/2 AKB 2.70
|
||
3796.38 I I 1 96.33 5 42F 202G AKB 0.23 4640. III 1 40.64 2 3 2P3/2 3 205/2 AKB 0.0
|
||
3797.91 _I 1 97.90 10 2D AKB 6.70 4641, III 1 41.90 2 3 2P3/2 3 203/2 AKB 4.00
|
||
3806.21 HF I 1 5.77 63 2 1P1 11 102 AKB 0.07 4647. 34 C Ill 1 47.40 1 3 3S1 3 3P2 AKB 0.82
|
||
3810.80 nr in 1 10.96 2 3S3P2 3P3D1 AKB 0.05 4648. 67 n 11 1 49.14 1 3S4P5/2 3P4D7/2 AKB 0.0
|
||
3813.43 H I I 1 13.50 19 2G AKB 0.46 -Ç.. 111 1 50.16 1 ? 3S1 3 ?P1
|
||
3819.65 HF I 1 19.61 22 2 3P AKB 0.74 4657, Z?..
|
||
82 (FE 1 58.10 3 A 5D4 3F4
|
||
AKB
|
||
AKB
|
||
Q.A7 .
|
||
0.0
|
||
3833.74 HF I 2 33.57 62 2 1P1 10 ID2 AKB Ö.59 4658. 55 C l 58.64 8 5 2F 6 2G AKB 0.75
|
||
3833.74 HF I I 2 33.80 4 4 2F 18 2G AKB 0.59 4661, hi Q_ -1-61,6 A . L364P 3/2 3PAD3/2 AKB Q. 1.5-
|
||
3835.40 1 35.39 2 2 2P AKB 8.00 4685. 72 HE II 1 85.68 1 3 2D 2F AKB 64.30
|
||
3839.80 ( FF V l 39.52 3 3D 50 3 3D3F3 AKB 0.05 4711. 40 (AR IV > 11.34 1 3P4S3/2 3P2D5/2 AKB 8.80
|
||
3858.12 HF I I 1 58.07 4 4 2F 17 2G AKB 0.58 4712, 66 HE. 1_ I 13.14 12 2 3P 4 3S1 AKB Q,Q...
|
||
3862.4? S! II 1 62.59 1 3P2D3/2 4P2P1/2 AKB 0.06 4714. 11 (NE IV ) 1 14.25 1 2P2D5/2 2P2P3/2 AKB .75
|
||
3868.70 (NE III» 1 68.76 1 2P3P2 2PID? AKB 66.30 4715. 73 (NE IV ) 1 15.61 1 2P205/2 2P2PI/2 AKB 0.08
|
||
3875.50 Gc I I I 75.82 13 3P4D7/2 3D2F5/2 AKB 0.06 -4,72 51 51 i MP. »V > 1 25.62 1 2P2D3/2 2P2P1/2 AKB ,.A_1
|
||
3837.00 H I I 87.44 4 4 2F 16 2G AKB 14.10 4724. 08 (NE IV ) 1 24.15 1 2P203/2 2P2P3/2 AKB 0.73
|
||
3888.79 HF I 88.65 2 2 3S l 3 3P2< i AKB 14.10 4740. 22 (AR IV » l 40.20 1 3P4S3/2 3P2D3/2 AKB 8.40
|
||
3889.00 H I 89.05 .2 2 2P 8 2D AKB 14.10 .4861. m ü_ l 61.33 1 2-2 P 4 20 AKB... 100.00
|
||
3891.20 (TF V 1 91.23 3D5D4 3D3F4 AKB 0.09 4906, 60 11 l 6.8 28 3P4S3/2 3D4P3/2 AKB 0.16
|
||
3894.90 (FF V 1 91.28 3 3D5D4 3D3F4 AKB 0.04 4922. 0 0 HF I 1 21.93 48 2 1P1 1D2 AKB 2.50
|
||
3 9 l.8_t_fej3_ _£ LI_ 1 18.98 3 2P1/2 4 2S1/2 AKB... 0.04 -A931. PQ (P.... III) 1 31.QO 1 2P3PQ 2P1.P2 AKB . ■ Q.«.44_
|
||
3920.79 C I I l 20.63 4 3 2P3/2 2S1/2 AKB 0.05 4959. 00 ( 0 III) l 58.92 2P3P1 2P102 AKB 335.00
|
||
3923.43 HF I I l 23.48 4 4 2P 15 2G AKB 0.94 5007. 00 (n III ) 1 6.85 1 2P3P2 2P1D2 AKB 990.00
|
||
3926.56 1 26.53 _5.9 2 -liLl- 9 ^-2- AKB 0.06 5015. 10 HE J 1 15.68 2. ISP ? IPI AKB 10*90
|
||
3965.04 HE I l 64.73 5 2 ISO IPI AK8 0.39 5047.00 HF I 1 47.74 47 2 IP l
|
||
3967.50 (NE III) 1 67.47 1 2P3PI 2P ID2 AKB 19.20
|
||
3968.00 HE I I 1 68.43 3 2 2F -14 2,Ç_ AKB 0.0 END NGC 7662 (PK ND. 106-17 1)
|
||
3970.09 1 70.07 20 AKB 14.60
|
||
3997.44 (F IV ) 1 97.31 1 2P3P1 2P1D2 AKB 0.04
|
||
4003.54 1 3.64 16 4 20 5/ 2 5 2F7/2 AKB 0.03
|
||
4008.10 (FFc III) l 8.40 4 A5D4 A3G4 AKB 0.03 BEGIN IC 4997 IPK NO. 58+10 1)
|
||
4009.27 H I 1 9.27 55 2 1P1 7 102 AKB 0.12
|
||
4026.04 HE I 1 26.19 18 2 3P _5_ AKB 2*37 WAVE N HT TRANSITION REF
|
||
4041.50 l 41.31 50 3D4F5/2 4F 4F5/2 AKB .03 3186.29 HF I l 87.74 3 23S 43P AK2 0.82
|
||
4047.80 1 48.22 50 3D4F7/2 4F4F7/2 AKB 0.3 3 3209.40 NE II 1 9.38 16 3P4D1/2 3D4P3/2 KA 0.05
|
||
4060.18 1 60.2? l 2P3P2 2P102 AKB 0.13 3216.80 0 I I 1 16.76 107 3P6P5/2 4S6S5/2 KA 0.35
|
||
4068.48 i C 8.60 1 3P4S3/2 3P2P3/2 AKB 0.78 3232.90 S III 1 31.10 3 3D3P0 4P3S1 KA 0.33
|
||
4069.90 ? b 9.64 10 3P4D1/2 3D4F3/2 AKB 0.3 3239.10 n ni 2 38.57 9 3P3D1 3D 102 KA 0.35
|
||
4069.90 ? 69.90 10 3P403/2 3D4F5/2 AKB 0.0 3239.10 (FE III) 2 39.70 6 A 5D4 A 3D3 KA 0.35
|
||
4070.26 I I I l 70.30 16 4 3F 4 5 3G5 AKB 0.32 3260.70 n ni 1 60.98 8 3P3D2 3D3F3 KA 0.02
|
||
4072.0« I I 1 72.16 10 3P4D5/2 3D4F7/2 AKB 0.19 3278.70 si in 2 79.25 12 30301 4P3P0 KA 0.34
|
||
_4 0 7 6 ._1_0__ I I ) 1 76.35 1 3P4S3/2 3P2P3/2 AKB 0.21 3278.70 K III 1.79 1 4S4P5/2 4P4P3/2 KA 0.34
|
||
"4078.67 U ? 78.86 10 4 S 2P1/2 AKB 0.03 3297.00 HF I 1 96.79 9 2 ISO 81P 1 AK2 0.37
|
||
4081.60 T I I ? 81.10 23 3S3P2 3P303 AKB 0.33 3301.47 n 11 1 1.56 23 3P4P1/2 4S4PI/2 AK2 0.04
|
||
4084.71 1 85. 12 10 3P4Ü5/2 3D4F5/2 AKB 0.35 3306.10 n t i 1 6.60 23 3P4P3/2 4S4P1/2 KA 0.34
|
||
4087.15 1 87.16 48 3D4F3/2 4F4G5/2 AKB 0.04 3335.02 NE II 1 34.87 2 3S4P5/2 3P4D7/2 AK2 0.03
|
||
4089.23 1 89.33 48 3D4F9/2 4F4G /2 AKB 0.1 l 3342.58 (NE III) 1 42.50 2 2PID2 2P1S0 AK2 0.43
|
||
6092.80 1 92.94 10 3P4D7/2 3D 4F7/2 AKB 0.03 3354.79 HC ! 1 54.55 8 21 SO 71 P1 AK2 0.09
|
||
4097.39 I I I l 97.31 1 3 ?S 1/2 3 ?P3/2 AKB 2.75 3387.19 1 I I l 87.13 2 3D3P1 4P3P0 A K2 0.04
|
||
4100.10 I I l 0.06 ? 6 ,2F 12 2G AK R 0.0 3443.20 I I I 1 44.10 15 3P3P2 3D3P2 AK2 0.33
|
||
6101.73 I 1 1.76 AKB 20.30 3447.54 HE I 1 47.59 7 21 SO 6 1P 1 AK2 0.12
|
||
4103.37 I I I 1 3.37 1 3 2 S 1 / 2 3 2PI/2 1.42 3451.09 0 III 2 50.94 3D5F4 A K2 0.02
|
||
4107.18 I I 1 7.07 47 3D4F5/2 4F 4D7/2 AKB 0.33 3451.09 HF I 2 50.20 AK2 0.32
|
||
4115.83 I V 1 16.13 1 4 2 S 1/2 4 2P1/2 AKB 0.32 3453.00 HF I 1 53.21 203D AK2 0.03
|
||
4119.16 n 11 1 19.22 20 3P4P5/2 3D4D7/2 AKB 0.08 3456.80 HE I 1 56.80 0.03
|
||
4120.86 HE I 1 20.81 16 2 3P 5 3S1 AKB 0.1 7 3465.92 HF I 2 65.89 23P 1730 AK2 0.05
|
||
4122.00 ( K V ) 1 22.63 AKB 0.34 3465.92 0 III 2 66,15 25 3P5D4 3D5F4 AK2 0.05
|
||
4143.76 1 43.76 2 1P1 6 102 AKB 0.27 3467.30 0 III 1 66.90 25 3P5D3 3D5F2 AK2 0.35
|
||
4146.06 2 45.90 106 3P6P7/2 3D607/2 AKB 0.33 34M.80 HE T l 71.80 44 23P 1630 AK2 0.03
|
||
4146.06 2 46.39 106 3P6P7/2 3D 609/2 AKB 0.33 3478.79 HF I 1 78.97 43 23P 1530 AK2 0.04
|
||
4153.31 2 52.43 21 3P3D1 3F2 AKB 0.04 3481.35 K III 2 81.U 3 4S2P3/2 4P405/2 AK2 0.33
|
||
4153.31 2 53.30 19 3P4P3/2 3D4P5/2 AKB 0.04 3481.35 NF I I 2 80.75 49 3S2S1/2 3P2P1/2 AK2 0.03
|
||
4156.45 ? 56.50 21 3P3P2 5 3F3 AKB 0.37 3487.55 HE I 1 87.72 42 23P 1430 AK2 0.08
|
||
4156.45 2 56.54 19 3P4P5/2 3D 4P 3/ 2 AKB 3488.30 0 I I l 88.18 7 3P2S1/2 3D4PI/2 AK2 0.02
|
||
4163.05 (K V l 63.30 1 3P4S3/2 3P2D3/2 AKB 0.16 3497.29 S III l 97.34 AK2 0.03
|
||
4169.1 3 HE 1 1 68.97 52 2 1P1 6 ISO AKB 0.11 3498.71 HE I 1 98.64 133D AK2 0.09
|
||
4181.57 ( FE V ) l 80.87 1 3D5D1 3D3P0 AKB 0.16 3512.53 HE I l 12.51 38 23P 12 3D AK2 0.39
|
||
4186.94 C III 1 87.05 18 4 1F 3 5 IG4 AKB 0.50 3517.54 HE I 1 17.33 37 23P 123S AK2 0.02
|
||
4189.93 n 11 1 89.79 36 3P2F7/2 3D2G9/2 AKB 0.05 3530.61 HE I 1 30.49 36 23P 113D AK2 0.12
|
||
4195.59 N III 1 95.70 6 3S2P1/2 3P2D3/2 AKB 0.33 3540.64 NE II 1 39.94 50 3P2D3/2 3D2P3/2 AK2 0.06
|
||
4199.87 HE I I 1 99.83 3 4 2F 11 2G AKB 1.94 3554.40 HE I 1 54.39 34 23P2 1030 AK2 0.14
|
||
4227.60 ( fc y ) 1 27.49 2 3D5D4 3D3H4 AKB 0.2 3 3561.19 NE I I 1 61.23 31 3P4S3/2 3D4F5/2 AK2 0.04
|
||
4267.11 1 67.27 6 3 2D5/2 4 2F7/2 AKB 0.71 3562.50 HF T l 62.95 33 2 3P 103S 0.34
|
||
4275.95 ? 75.5? 67 3D4D7/2 4F4F9/2 AKB 0.15 3568.59 NE I I 1 68.53 9 3S2D5/2 3P2F7/2 AK2 0.34
|
||
NGC 7662 (PK NO. 106-17 1) IC 4997 (PK NO. 58+10 1)
|
||
|
||
|
||
|
||
|
||
684
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
IC 4997 (PK NO. 58»1Q L) IC 4997 (PK NO.
|
||
WAVE IDENT N R MT TRANSI TION REF DBS I WAVE IDENT TRANS IT I ON REF OBS I
|
||
3587.30 HE I I 87.25 31 23P2 93D AK2 0.18 3961.39 S III 3D3D1 4P3PI AK2 0.35
|
||
3613.67 HE I 1 13.64 6 2ISO 5lPl AK2 0.20 3964.80 HE I 1 64.73 21S0 41P l AK2 0.80
|
||
3634.29 HE I 1 34.24 28 23P2 83D AK2 0.2 5 3967.41 (NE III) 2 67.47 2P3P1 2P1D2 AK2 33.00
|
||
3654.06 S II 1 54.51 4 3P2P1/2 4P2P3/2 AK2 0.0 3970.04 ? 70.07 2 2P 7 2D AK2 33.00
|
||
3659.30 l 59.42 22P 332D AK2 0.27 3972.94 I I 1 73.26 3S2P3/2 3P2P3/2 AK2 0.03
|
||
3660.22 1 60.28 22P 32 2D AK2 0.25 3983.25 I I 1 82.72 3S2P3/2 3P2P1/2 AK2 0.04
|
||
3661.23 1 61.22 22P 312D AK2 0.26 3985.48 I I 1 85,46 3P4P 1/2 3D2P3/2 AK2 0.05
|
||
3662.23 l 62.26 22P 3020 AK2 0.28 4008.50 (FE III) 1 8.40 A 5D4 A3G4 AK2 0.07
|
||
3663.44 1 63.41 22P 292D AK2 0.29 4009.26 HF I l 9.27 2 IP1 7 ID2 AK2 0.21
|
||
3664.69 1 64. 22P 2820 AK2 0.31 4023.81 HE I 1 23.99 2 1P1 7 ISO AK2 0.04
|
||
3666.07 l 66.10 5 22P 272D AK2 0.32 4026.14 1 26.19 2 3P 5 3D AK2 2.33
|
||
3667.68 1 67.68 5 22P 262D AK2 0.34 4041.36 2 41.32 3D3F4 4F3G5 AK2 0.02
|
||
3669.47 1 69,47 22P 252D AK2 0.38 4041.36 2 41.31 3D4F5/2 4F4F5/2 AK2 0.02
|
||
3671.48 1 71.48 5 22P 242D AK2 0.42 4056.51 C III 1 56.06 4 102 5 IF 3 AK2 0.03
|
||
3673.00 1 73.76 5 22P 232D AK2 0.45 4060.46 D II 2 60.98 3D2F7/2 4F2G9/2 AK2 0.03
|
||
3676.34 1 76.37 4 22P 222D AK2 0.49 4060.46 (FE IV ) 2 60.22 2P3P2 2P 1D2 AK2 0.03
|
||
3679.35 1 79.36 4 22P 212D AK2 0.53 4068.62 1 68.60 3P4S3/2 3P2P3/2 AK2 2.50
|
||
3682.79 1 82.81 4 22P 202D AK2 0.67 4069.84 2 69.64 3P4D1/2 3D4F3/2 AK2 0.17
|
||
3686.82 1 86.83 4 22P 192D AK2 0.70 4069.84 2 69.90 3P4D3/2 3D4F5/2 AK2 0.17
|
||
3691.58 91.56 4 22P 182D AK2 0.83 4072.09 I I 1 72.16 3P4D5/2 3D4F7/2 AK2 0. 10
|
||
3694.29 NE II 94.22 1 3S4P5/2 3P4P5/2 AK2 0.06 4073.90 I I I I 73.90 3S3P 1 3P3D2 AK2 0.01
|
||
3695.34 0 III 95.37 21 3S5P1 3P5P2 AK2 0.02 4076.31 I I ) 1 76.35 3P4S3/2 3P2P3/2 AK2 0.79
|
||
3697.17 I 1 97.15 172D AK2 1.08 4078.92 I I 1 78.86 3P4D3/2 3P4F3/2 AK2 0.04
|
||
3699.03 III 2 99.37 AK2 0.03 4081.40 I I I 1 81.10 3S3P2 3P3D3 AK2 0.03
|
||
3699.03 I I I 2 98.70 3P5D3 AK2 0.03 4083.69 I I 1 83.91 3D4F5/2 4F2G7/2 AK2 0.03
|
||
3703.83 l 3.86 3 22P 162D AK2 1.30 4084.88 0 I I ? 85.12 3P4D5/2 3D4F5/2 AK2 0.03
|
||
3705.02 1 5.00 25 23P2 73D AK2 0.52 4084.88 0 I I 2 84.66 3P4F5/2 3D2F7/2 AK2 0.03
|
||
3707.32 1 7.24 14 3P3P1 3D3D2 AK2 0.04 4086.77 NF I I 2 86.69 3D4D7/2 4F4G5/2 AK2 0.02
|
||
3709.24 3 9.64 1 3S4P3/2 3P4P1/2 AK2 0.04 4086.77 0 I I 2 87.16 3D4F3/2 4F4G5/2 AK2 0.02
|
||
3709.24 I I I 3 9.37 1 3D3P1 4P3D2 AK2 0.04 4088.92 0 I I 2 89.30 3D4F9/2 4F4G / 2 A K2 0.08
|
||
3709.24 I I I 3 9.52 21 3S5P1 3P5D0 AK2 0.04 4088.92 SI IV 2 88.86 4 2S1/2 4 2P3/2 AK2 0.08
|
||
3711.99 I l 11.97 3 22P 152D AK2 1.62 4092.97 92.94 3P4D7/2 3D4F7/2 AK2 0.03
|
||
3714.92 I I 1 1 15.08 14 3P3P2 3D3D2 AK2 0.05 4094.42 94.18 3P4D5/2 3D4F3/2 AK2 0.03
|
||
3718.14 1 18.21 131 4P2D3/2 4D2F5/2 AK2 0.04 4097.20 97.31 3 2S1/2 3 2P3/2 AK2 0.19
|
||
3721.86 3 21.94 3 22P 142D AK2 2.81 4097.20 II 97.26 3P4P 1/2 39403/2 AK2 0.19
|
||
3721.86 n in 3 21.95 21 3S5P2 3P5DI AK2 2.81 4097.20 II 97.26 3D4F7/2 4F4G9/2 AK2 0.19
|
||
3721.86 NE II 3 21.86 37 2P2P3/2 3D4F5/2 AK2 2.81 4101.70 1.74 2 ¿P 2D_ A* 2 22t»0
|
||
3726.11 (0 II) 1 26.05 1 2P4S3/2 2P2D3/2 AK2 14.70 4103.80 I I T 1 3.37 3 2S1/2 3 2P1/2 0.06
|
||
3728.35 (G II) 1 28.80 1 2P4S3/2 2P2D5/2 AK2 5.00 4104.85 I I 1 4.74 3P4P3/2 3D4D5/2 AK2 0.05
|
||
3730.64 HE I 1 30.80 AK2 0.04 4110.49 2 10.80 3P4P3/2 3D4D1/2 AK2 0.04
|
||
3732.69 1 32.86 24 23P2 73S1 AK2 0.03 4110.49 2 10.20 3P2F5/2 3D 203/2 AK2 0.04
|
||
3734.41 I l 34.37 3 22P i 32D AK2 2.06 4116.20 SI IV 1 16.10 4 2S1/2 4 2P1/2 KA 0.01
|
||
3739.55 I I 1 39.92 31 3P4S3/2 4S4P5/2 AK2 4119.11 o LL_ 1 3P4P5/2 3D407/2 AK2 0.06
|
||
3745.89 N III 2 45.83 4 3S4PI/2 3P4S3/2 AK2 0.03 4120.81 l 20.81 16 5 3SI AK2 0.29
|
||
3745.89 HE I 2 45.90 AK2 0.03 4132.79 32.81 19 3Pp 4Pp 1/2 3D4P3/2 AK2 0.04
|
||
3750.20 1 50.15 Z 22P 1.2.2.D ak¿_ _2i69_ 4142.30 41.96 106 3 6 3/2 3D6D3/2 KA Qt 95
|
||
3754.55 0 III 2 54.67 2 3S3P1 3P3D2 AK2 4142.30 0 I I 2 42.24 106 3P6P3/2 3D 605/2 KA 0.05
|
||
3754.55 N III 2 54.62 4 3S4P3/2 3P4S3/2 AK2 4143.77 HE I 3 43.76 53 2 IP l 6 102 AK2 0. 31
|
||
3755.99 HE I 1 56.19 66 ¿.IPl U1D2 A-K2 . ■ Q.Q5 4143.77 3 43.77 106 3P6P5/2 3D607/2 AK2 . -Q-»-3.1_-
|
||
3757.64 III 57.60 Il 3P4D1/2 3D4P3/2 AK2 0.04 4143.77 3 43.52 106 3p6P5/2 3D 605/2 AK2 0.31
|
||
3757.64 I I I 2 57.66 11 3P4D3/2 3D4P1/2 AK2 0.04 4145.64 I I 1 45.90 106 3P6P7/2 3D6D7/2 AK2 0.03
|
||
3766.58 NE II 1 66.29 1 3S4P3/2 3PAP5/2 AK2 0.03 4153.43 J \ I - 2 52.43 21 3Pp 3D 1 5 3F2 AK2 0.08
|
||
3768.89 68.81 65 21Pl 131D2 AK2 0.04 4153.43 I I 2 53.30 3 4P3/2 3D4P5/2 AK2 0.08
|
||
3770.56 I 1 70.63 2 22P 112D AK2 3.38 4156.40 I I I 2 56.50 3P3D2 5 3F3 AK2 0.04
|
||
3773.97 I I I 1 74.00 2 3S3P1 3P3D1 AK2 0.03 4156.40 TI 2 56.54 3P4P5/2 3D4P3/2 AK2 0.04
|
||
3777.24 NE II 1 77.16 1 3S4P1/2 3P4P3/2 AK2 0.0 3 4163.90 (K V ) 1 63.30 3P4S 3/2 3P2D3/2 AK2 0.02
|
||
3784.90 n 11 2 85.01 95 4P2P3/2 4D2D5/2 AK2 0.05 4166.82 MG I 2 67.26 3 lp l 7 1D2 AK 2 0.03
|
||
3784.90 HE I 2 84.89 64 21P 1 121D2 AK2 0.05 4166.82 MG I 2 67.27 3 I» 1 7 1D2 AK2 0.03
|
||
3791.58 SI III l 91.41 5 43P0 43D1 AK2 0.03 4169.21 HF I 1 68.97 2 IP1 6 ISO AK2 0.09
|
||
3797.86 H I 1 97.90 2 2 2P 10 2D AK2 3.73 4185.55 0 I I 1 85.46 3P2F5/2 3D2G7/2 AK2 0.07
|
||
3805.86 HE I 1 5.77 63 2 1P1 11 1D2 AK2 0.05 4186.83 C III 1 87.05 4 1F 3 5 1G4 AK2 0.04
|
||
3810.59 III 10.96 2 3S3P2 3P3D1 AK2 0.0 3 4189.73 n 11 l 39.79 3P2F7/2 3D2G9/2 AK2 0.06
|
||
3819.61 I 19.61 22 2 3P 6 3D AK 2 1.09 4231.59 NP I I 1 31.60 3D4D5/2 4F4D5/2 AK2 0.02
|
||
3829.76 29.80 30 3P3P1 4S3P2 AK2 0.02 4242.24 NF I I 1 42.20 304D 1/2 4P4D1/2 AK2 0.04
|
||
3829.76 NE II 29.77 39 3P2P3/2 3D2D5/2 A K2 0.02 4244.02 Ne I I 1 44.17 3D205/2 4F4F5/2 AK2 0.06
|
||
3829.76 MG I 29.35 3 3 3P0 3 3D1 AK2 0.02 4253.68 0 I I 2 53.74 3D2G9/2 4F2H9/2 AK2 0.04
|
||
3831.82 C I I 32.12 13 4 2P3/2 3P2D5/2 AK2 0.02 4253.68 S I I T 2 53.59 4S3P2 4P 303 AK2 0.04
|
||
3831.82 MG I 3 32.30 3 3 3P1 3 3D2 AK2 0.02 4257.70 MF I I 2 57. 82 30401/2 4F4D3/2 AK2 0.02
|
||
3831.82 S III 3 31.85 5 4S3P0 4P3P1 AK2 0.02 4257.70 S I I 2 57.42 4P 20 3/2 402F5/2 AK2 0.02
|
||
3833.62 HF I 2 33.57 62 2 1P1 10 1D2 AK2 0.07 4267.18 C T I l 67.27 3 2D 5/2 4 2F7/2 AK2 0.17
|
||
3833.62 2 33.80 4 4 2F 18 2G AK2 0.07 4275.56 I I 1 75.52 30407/2 4F4F9/2 AK2 0.04
|
||
3835.39 l 35.39 2 2 2P . 9 2D AK2 4.63 4276.88 I I 2 76.71 3D4P3/2 4P 401/2 AK2 0.05
|
||
3838.10 3 38.32 5 4S3P2 4P3P2 AK2 0.04 4276.88 I I 2 76.71 3D4D5/2 4F4F7/2 A K2 0. 05
|
||
3838.10 HF I 3 38.09 61 2 1P1 AK2 0.04 4282.99 2 82.82 3D4P3/2 4P 403/2 AK2 0.03
|
||
3838.10 MG I 3 38.29 3 3 3P2 AK2 0.04 4282.99 I I 2 82.96 3D4D3/2 4F4F5/2 AK2 0.03
|
||
3842.95 0 I I l 42.32 12 3P4D1/2 AK2 0.02 4285.09 I I I 1 84.99 4S3P 1 4P3D2 AK2 0.03
|
||
3853.88 SI II 1 53.66 1 3P2D3/2 4P2P3/2 AK2 0.02 4289.13 n 11 1 88.83 3D4P 1/2 4F4DI/2 AK 2 0.02
|
||
3856.06 n 11 2 56. 16 12 3P4D3/2 3D4D1/2 AK2 0. 10 4294.45 n 11 2 94.82 304P3/2 4F405/2 AK2 0.05
|
||
3856.06 SI II 2 56.02 1 3P2D5/2 4P2P3/2 AK2 0.10 4294.45 s 11 2 94.43 4P4P5/2 40407/2 AK2 0.05
|
||
3862.61 l 62.59 1 3° 20 3/ 2 4P2PI/2 AK2 0.11 4303.10 I I 3 3.82 3D4P5/2 4F4D7/2 AK2 0.01
|
||
3864.69 1 64.68 12 3P4D5/2 30 403/2 AK2 0.07 4303.10 II 3 3.06 3D2G7/2 4F2G7/2 AK2 0.01
|
||
3868.72 1 68.76 1 2P3P2 2P102 AK2 58.10 4303.10 3 2.81 3D2G9/2 4F2G9/2 AK2 0.01
|
||
3871.67 HE l 1 71.82 60 2 1PI 9 1D2 AK2 0.18 4317.11 l 17.14 3S 4P 1/2 3P4P3/2 AK2 0.07
|
||
3874.74 □ I I 1 74.10 Il 3P4D1/2 3D4P3/2 AK2 0.05 4319.69 1 19.63 3S4P3/2 3P4P5/2 AK2 0.06
|
||
3878.37 C I I 78.22 33 3D4F5/2 4F4G5/2 AK2 0.02 4325.76 1 25.77 3S4P 1/2 3P4P1/2 AK2 0.02
|
||
3881.50 n 11 1 82.20 12 3P4D7/2 3D4D7/2 KA 0.02 4328.58 I I l 28.62 3P2P 3/2 302S1/2 AK2 0.01
|
||
3888.93 H I 2 89.05 2 2P 2Dp AK2 14.60 4333.07 II 1 32.76 3D407/2 4F4G9/2 AK2 0.06
|
||
3888.93 HE I 2 88.65 2 3S1 3 2<l AK2 14.60 4340.33 I 1 40.47 2 2P 5 2D AK2 45.00
|
||
3918.88 l 18.98 4 3 2P 1/2 4 2S1/2 AK2 0.02 4342.95 2 42.83 3D 20 3/2 4P2D3/2 AK2 0.08
|
||
3920.56 l 20.68 4 3 2P3/2 4 2S1/2 AK2 0.05 4342.95 2 42.84 4P4D3/2 5S4P5/2 AK2 0.08
|
||
3926.56 1 26.53 58 2 1P1 8 1D2 AK2 0.11 4345.43 1 45.56 4S4P3/2 3P4P1/2 AK2 0.16
|
||
3935.73 l 35.91 57 2 1P1 8 ISO 0.0 3 4349.33 1 49.43 3S4P5/2 3P4P5/2 AK2 0.08
|
||
3945.90 46.35 32 3D4F 4F4F 0.03 4362.95 III) 1 63.21 2PID2 2P ISO AK2 30.70
|
||
3945.90 46.35 31 3D4F5/2 4F2F7/2 0.03 4366.80 I I 1 66.90 3S4P5/2 3P4P3/2 AK2 0.10
|
||
3954.64 I I 1 54.37 3S2P 1/2 3P2P1/2 AK2 0.03 4368.26 II 68.14 3D4P 4F4D A K2 0.12
|
||
3961.39 I I I 2 61.59 17 3PID2 3D1F3 AK2 0.05 4378.34 II 78.41 3D2D5/2 4F2F7/2 AK2 0.01
|
||
IC 4997 (PK NO. IC 4997 (PK NO. 58+10 1)
|
||
|
||
|
||
|
||
|
||
685
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
TC 4997 (PK NCI. 58+10 1)
|
||
WAVE IDENT N R MT TRANSITION REF ORS I WAVE IDENT HT TRANSITION REF OBS I
|
||
A387.94 HE I 1 87.93 51 2 1P1 5 1D2 AK2 0.55 3554.A9 HE I 34 23P0 1030 KAB 0.41
|
||
4391.85 NE I I 2 91.94 57 3D4F7/2 4F4G9/2 AK2 0.04 3587.33 HE I I 87.25 31 23P 930 KAB
|
||
4391.85 S I I 2 91.84 43 4P4D5/2 5S4P5/2 AK2 0.04 3613.65 HF I 1 13.64 6 21 SO 51P1 KAB
|
||
4409.29 NF I I 1 9.30 57 3D4F5/2 4F4G7/2 AK2 0,03 3634.27 HE I 1 34.24 28 23P 830 KAB
|
||
4413.24 NE I I 2 13.20 57 3D4F3/2 4F4G5/2 AK2 0.07 3652.05 l 51.97 27 23P 83S1 KAB 0.13
|
||
4413.24 NE I I 2 13.20 65 3D4P5/2 4F4F5/2 AK2 0.07 3656.05 1 56.14 7 22P 3820 KAB 0.0
|
||
4414.95 1 14.91 5 35293/2 3P2D5/2 AK2 0.09 3656.68 1 56.67 7 22P 3720 KAB 0.15
|
||
4416.87 n 11 2 16.98 5 3C2P1/2 3P2Q3/2 AK2 0.07 365
|
||
657.3 l 57.27 7 22P 3620 KAB 0.12
|
||
4416.87 NF T I 2 16.77 61 3D 2D 5/2 4F4D3/2 AK2 0.07 6?7.9
|
||
36? 1 57.93 7 22P 3520 KAB 0.37
|
||
4434.08 MG I I 1 33.99 9 4 2P3/2 6 2S1/2 AK2 0.02 3658.66 1 58.64 7 22P 3420 KAB 0.42
|
||
4437.47 HF I 1 37.55 50 2 i» l 5 ISO AK2 0. 11 3659.45 l 59.42 22P 3320 KAB 0.41
|
||
4439.50 Sc MT 2 39.87 7 3D 3D 1 4P3D2 KA 0.15 3660.30 1 60.28 22P 3220 KAB 0.44
|
||
4439.50 N I I 2 39.30 65 304° 3/2 4F4F3/2 0.15 3661.24 1 61.22 22P 3120 KAB 0.49
|
||
4442.43 N<= I T l 42.67 56 3D4F5/2 4F4F7/2 AK2 0.03 3662.22 1 62.26 22P 3020 KAB 0.59
|
||
4445.88 NF T I 1 46.46 56 3D4F5/2 4F4F3/2 AK2 0.03 3663.40 1 63.41 22 P 2920 KAB 0.63
|
||
4452.17 n T I 1 52.38 5 3S2P3/2 3P2D3/2 AK2 0.05 3664.70 l 64.68 22P 2820 KAB 0.70
|
||
4456.59 1 56.43 43 4P4D1/2 5S4P1/2 A K2 0.03 3666.10 1 66.10 5 22P 2720 KAB 0.70
|
||
4465.04 1 65.40 94 3S6S5/2 3P6P7/2 AK2 0.04 3667.70 l 67.68 5 22P 2620 KAB 0.79
|
||
4471.48 1 71.48 14 2 3P 4 3P AK2 5.31 3669.49 1 69.47 5 22P 2520 KAB 0.89
|
||
4475.00 ME I I 1 75.22 65 3D4P5/2 4F4F3/2 I 0.02 3671.48 1 71.48 5 22P 2420 KAB 0.96
|
||
4489.00 n i I 1 89.48 86 3D2P1/2 4F2D3/2 I 0.02 3673.75 1 73.76 5 22P 2320 KAB 1.06
|
||
4538.53 AR I I 1 38.73 104 4P2F7/2 30205/2 0.03 3676.37 1 76.37 4 22P 2220 KAB 1-18
|
||
4568.80 MG NE JI I 1 69.01 69 302P3/2 4F4G5/2 0.33 3682.80 1 82.81 4 22P 2020 KAB 1.49
|
||
4571.10 1 71.10 1 3 ISO 3 3P1 AK2 0.20 3686.83 1 86.83 4 22P 1920 KAB 1.59
|
||
4590.83 D I I 1 90.97 15 3S2D5/2 3P2F7/2 AK2 0.07 3691.56 1 91.56 4 22P 1820 KAB 1.90
|
||
4595.9? 1 96.17 15 3S2D3/2 3P2F5/2 AK2 0.05 3694.15 1 94.22 l 3S4P5/2 3P4P5/2 KAB 0.10
|
||
4601.87 1 2.11 93 30 20 3/ ? 4F2F5/2 AK2 0.03 3697.16 l 97.15 3 22P 1720 KAB 2.11
|
||
4607.12 2 7.13 3 A 5D4 A 3F3 AK2 0.07 3703.89 1 3.86 3 22P 1620 KAB 2.34
|
||
4607.12 ? 7.15 5 3S3P0 3P 3°I AK2 3705.00 HE I 5.00 25 23P 730 KAB
|
||
4609.4? l 9.42 93 3D 2D 5/ 2 4F 2F7/2 AK2 3709.46 NE I I 9.64 l 3S4P3/2 3P4P1/2 KAB
|
||
46?1.72 1 21.28 92 3D2D5/2 4F4F5/2 AK2 3709.46 S III 9.37 I 3P3P1 4P 302 KAB
|
||
4630.04 I I 2 30.52 49 3D2F7/2 4F4G9/2 AK2 0.05 3711.99 l 11.97 3 22P 1520 KAB 2.85
|
||
4630.04 I I 2 30.54 5 3S3P2 3P3P2 AK2 0.05 3717.84 1 17.78 6 4S3P2 4P3S1 KAB 0.20
|
||
4633.86 I I I 1 34.16 2 3 2P1/2 3 2D3/2 AK2 0.17 3721.92 2 21.94 3 22P 142D KAB 4.10
|
||
4639.03 38.85 1 3^ 4P 1/2 30403/2 AK2 0. 16 3721.92 (S III) 2 21.69 2 3P3PI 3P1S0 KAB 4.10
|
||
4640.44 III 40.64 2 3 2P3/2 3 205/2 A K2 0.34 3728.76 (0 II ) 1 28.80 1 2P4S3/2 2P205/2 KAB 127.00
|
||
4641.73 III 41.90 ? 3 2P3/2 3 203/2 AK2 0.26 3732.88 HF I 1 32.86 24 23P 7351 KAB 0-1 3_
|
||
4641.73 2 41.81 l 3S4P3/2 3P4D5/2 AK2 0.26 3734.30 I 1 34.37 3 22P 1320 KAB 3.70
|
||
4647.24 C III 2 4 7.40 1 3 3 S 1 3 3P2 AK2 0. 13 3747.98 III 1 47.90 1 3D3P0 4P 301 KAB 0.0
|
||
4647.24 NF T I ? 47.34 72 4S4P5/2 4F4F3/2 AK2 0.13 3750.11 1 50.15 2 22P 1220 KAB t!>0-
|
||
4649.10 I I l 49.14 1 3S4P5/2 3P4D7/2 AK2 0.34 3756.21 1 56.10 66 2 IP 1 14102 KAB 0.09
|
||
4650.45 I I 1 50.84 1 3S4° 1/2 3P4DI/2 AK 2 0.15 3770.61 1 70.63 2 22 P 1120 KAB 5.10
|
||
4658.09 AR I I 57.94 15 4S2P3/2 4P2P1/2 AK2 0.83 3777.05 1 77.16 1 3S4P1/2 3P4P3/2 KAB
|
||
4658.09 (FF III) ? 58.10 3 A 5D4 A 3F4 A K2 0. 33 3784.93 HE y l 84.89 64 21 P 1 12102 KAB 0.09
|
||
4661.48 n 11 1 61.64 1 3S4P3/2 3P4D3/2 AK2 0.12 3797.88 H I 1 97.90 2 2 2P 10 20 KAB 6.00
|
||
4676.30 1 76.23 1 354P5/2 3P4D5/2 AK2 Q.06 3805.73 HE I _i 5-77 63 Z 1P1_. 11 102 KAB 0.10
|
||
4695.80 1 95.91 68 3P5D1 3D 502 KA 0.04 3819.64 HE I 19.61 22 2 3P 6 30 KAB 1.8
|
||
4701.30 1 1.23 58 3P2P3/2 3D2P3/2 AK2 0.3? 3829.80 NE II 1 29.77 39 3P2P3/2 3D205/2 KAB 0.05
|
||
4711.34 1 11.34 1 3P4S3/2 3P2D5/2 AK2 0.23 3831.79
|
||
4712.55 1 13.14 12 2 3P 3SI AK2 1.36 3833.58 HF IIII -L2 31.35
|
||
33.57
|
||
5 4S3PQ- 4P3P1
|
||
10 102
|
||
KAB
|
||
KAB
|
||
0.09
|
||
0.13
|
||
4733.32 1 33.00 11 3P3D? 3D 30? AK? 0.21 3833.58 HF II ? 33.80 18 2G KAB 0.13
|
||
4740.00 3 40.00 11 3P3D2 3 0 3 D1 AK2 0.S7 3835.36 _H L_ L 35.39 ¿ 2 2P 9 20 KAB 7.63
|
||
4740.00 mg I I 3 39.59 18 4 2D 8 2F AK2 0.67 3837.79 S III 1 37.80 5 4S3P1 4P3PI KAB 0.10
|
||
4740.00 IAR TV ) 3 40.20 1 3P4S3/2 3P2D3/2 AK2 0.67 3838.35 N II 2 38.39 30 3P3P2 4S3P2 KAB 0.13
|
||
4768.83 a 11 1 68.aB ■.0 4S3P 1 4P 302 A K2 0.17 3838.35 S III 2 38.32 5 4S3P2 4P3P2 KAB 0.13
|
||
4774.40 74.22 20 3P3D1 3D3D2 0.04 3853.88 SI II l 53.66 1 3P203/2 4P2P3/2 KAB 0.02
|
||
4783.10 ME I I 1 31.95 71 4S4P5/2 4F 403/2 0.06 3856.14 SI II l 56.02 1 3P2D5/2 4P2P3/2 KAB 0.34
|
||
4813.66 SI III 1 13.29 9 4 3F2 5 3G3 AK2 0.11 3862.70 SI II 1 62.59 1 3P2D3/2 4P2PI/2 KAB 0.19
|
||
4861.33 1 61.33 1 2 ?p 4 2D AK2 100.00 3867.73 HE I 1 67.48 20 2 3P 6 3S1 KAB 0.0
|
||
4880.68 (F=17 III) 1 81.11 2 A 504 A 3H4 AK2 0.52 3871.76 HF I 1 71.82 60 2 1P1 9 102 KAB 0.16
|
||
4921.00 H I 1 20.93 IP 1 4 1F 3 1.40 3882.49 0 II 1 82.20 12 3P4D7/2 3D4D7/2 KAB 0.0
|
||
4931.00 ( FI HI) I 31.00 2 2P3P0 0.0 3888.92 H T 2 89.05 2 2 2P 8 20 KAB 18.10
|
||
3838.92 HE I 2 88.65 2 2 3 S 1 3 3P2<1 KAB 18.10
|
||
IE. 499 7 ( PK NO. 58+10 1) 3918.94 r 11 1 18.98 4 3 2P1/2 4 2S1/2 KAB 0.13
|
||
3920.66 C II 1 20.68 4 3 2P3/2 4 2S1/2 KAB 0.26
|
||
3926.53 HF I 1 26.53 58 2 1P1 8 102 KAB 0.22
|
||
3928.53 S III 1 28.62 8 3D3D3 4P 302 KAB 0.06
|
||
BEGIN NGC. 1976 3964.80 HE I 1 64.73 5 2D ISO 4 1P1 KAB 1.35
|
||
3967.47 (NE III) 1 67.47 l 2 3P 1 2P1D2 KAB 24.40
|
||
transition 3969.97 H I I 70.07 1 2 2P 7 20 KAB 24.40
|
||
3187.74 HE I 1 87.74 23S 43P KAB 6.3 0 3983.72 S III l 83.77 8 30302 4P3PI KAB 0.07
|
||
3286.21 (FF MI) l 86.20 A5D3 A 3D3 KAB 0.0 3985.87 S III 1 85.97 8 3D 3D 1 3p3P0 KAB 0.07
|
||
3296.69 HF I 1 96.79 2 1 SO 81P1 KAB 0.25 4009.27 HE I 1 9.27 55 2 1P1 7 102 KAB 0.28
|
||
3323.98 S III 1 24.01 2 30 3° 1 4P3P2 KAB 0.0 4026.19 HE I 1 26.19 18 2 3P2<1 5 30 KAB 2.62
|
||
3324.96 S III 1 24.87 2 3D3P2 4p3P2 KAB 0.13 4068.69 S II) 1 68.60 1 3P4S3/2 3P2P3/2 KAB 1.49
|
||
J 3J4.87 NE II 2 34.37 2 3S4P5/2 3P 4P 7/2 KAB 0.17 4069.76 2 69.64 10 3P4D1/2 3D4F3/2 KAB 0.11
|
||
3 3 34.87 (FFc T IÏ ) 2 34.90 6 A5D2 A 3D2 KAR 0.17 4069.76 II 2 69.90 10 3P4D3/2 3D4F5/2 KAB 0.11
|
||
3342.92 (N MI) 2 42.50 2 ?P ID 2 2P1S0 KAB 0. 1 7 4072.11 II l 72.16 10 3P4D5/2 3D4F7/2 KAB 0.12
|
||
3342.92 (EL III) 2 42.90 1 3P4S3/2 3P2P3/2 KAB 0. 17 4075.82 1 75.87 10 3P4D7/2 3D4F9/2 KAB 0.0
|
||
3353.34 (CL HI) 1 53.33 2 3P4S3/2 3P2P1/2 KAB 0.08 4076.44 II ) 1 76.35 1 3P4S3/2 3P2P3/2 KAB 0.59
|
||
3354.60 HE I 1 54.55 8 2 1 SO 7 l Pl KAB 0.35 4087.12 II l 87.16 48 304F3/2 4F4G5/2 KAB 0.01
|
||
3356.69 (ff im 1 56.60 6 A5D1 A 3D2 KAB 0.0 4089.21 II 1 89.30 48 3D4F9/2 4F4G /2 KAB 0.03
|
||
3360.47 MF TI 1 60.63 2 3S4PI/2 3P4D3/2 KAB 0.0 4097.27 III 3 97.31 l 3 2S1/2 3 2P3/2 KAB 0.06
|
||
3370.39 S III l 70.38 2 3D3P2 4P 3PI KAB 0.0 4097.27 II 3 97.26 20 3P4P1/2 3D4D3/2 KAB 0.06
|
||
3387.01 S III 1 87.13 2 303P1 4P 3 PQ KAB 0.27 4097.27 II 3 97.26 48 3D4F7/2 4F4G9/2 KAB 0.06
|
||
3447.56 HE ’ 1 47.59 7 2 1 SO 61 PI KAB 0.51 4101.64 1.74 1 2 2P 20 KAB 25.00
|
||
3453.26 HE I 1 53.21 23P 2030 KAR 0.0 4104.96 4.74 20 3P4P3/2 3D 405/2 KAB 0.0
|
||
3465.89 HF I 1 65.89 23 P 1730 KAB 0.0 4104.96 5.00 20 3P4P3/2 3D4D3/2 KAB 0« Q
|
||
3471.86 HF T l 71.80 44 2 3P 1630 KAB O. 1 3 4110.69 n 11 1 10.80 20 3P4P3/2 3D401/2 KAB 0.05
|
||
3478.90 HF I 1 78.97 43 23P 1530 KAB 0. 1 3 4119.24 o 11 1 19.22 20 3P4P5/2 3D 407/2 KAB 0.06
|
||
3487.73 HF I 1 87.72 42 23P 1430 KAB 0.18 4120.82 HF I 1 20.81 16 2 3P 2<1 5 3S1 KAB
|
||
3497.33 c III l 97.34 KAB 0.06 4132.75 0 II 1 32.81 19 3P4P1/2 3D4P3/2 KAB 0.06
|
||
3498.62 HE I 1 98.64 40 23P 1330 KAB 0.22 4143.69 HF I 1 43.76 53 2 1P1 6 102 KAB 0.45
|
||
3512.60 HF I 12.51 3P 23P 1230 KAB 0.27 4153.27 1 53.30 19 3P4P3/2 3P4P5/2 KAB . o.O?
|
||
3530.47 HE I 1 30.49 36 2 3P 1130 KAB 0.3 4 4156.34 G II l 56.54 19 3P4P5/2 304P3/2 KAB 0.13
|
||
3554.49 HE I 2 54.39 34 2 3 P2 1030 KAB 0.4 L 4169.09 HE I l 68.97 52 2 1P1 6 ISO KAB 0.07
|
||
|
||
|
||
|
||
|
||
686
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
TABLE 9—Continued
|
||
|
||
WAVE IDENT MT TRANS IT ION REF OBS I WAVE IDENT TRANSITION REF DBS I
|
||
»185.^6 0 II 36 3P2F5/2 3D2G7/2 KA8 0.31 6371 50 SI II 2S 4 2P1/2 HQRG Q.»OA
|
||
6189.71 II 1 89.79 36 3P2F7/2 3D2G9/2 KAB 0.03 65684 60 (N II ) 1 48.10 MORG 0.0 A
|
||
6264.09 (FE IIIÍ 1 43.98 A 4F9/2 A 4G9/2 KAB 0.05 6563. 00 H I 1 62.80 MORG 0.0 A
|
||
4253.73 0 II 3 53.98 101 3D2G7/2 4F2H9/2 KAB 0.06 6583. 40 (N II ) 1 83.40 MORG 0.0 A
|
||
4253.73 II 3 53.74 101 3D2G9/2 4F2H9/2 KAB 0.06 6678. 20 H<= I 1 78.10 46 2 ID HORG 15.00A
|
||
4253.73 III 3 53.59 4 4S3P2 4P3D3 KAB 0.06 6716. 70 (S II ) 1 16.40 2 2D5/2 HQRG 10.00A
|
||
4267.13 II 1 67.27 6 3 205/2 4 2F7/2 KAB 0.35 6731. 10 CS II ) 1 30.80 2 203/2 MORG 10.00A
|
||
4276.95 (FE II ) 1 76.83 21 A 4F7/2 A 4G9/2 KAB 0.03 7001. 00 n i 1 2.20 21 3 3P 3D MORG 0.70A
|
||
4284.96 S III 1 84.99 4 4S3P1 4P3D2 KAB 0.0 3 7065. 00 HE I l 65.30 10 2 3P 3S MORG 10.00A
|
||
4287.53 (FE II ) 1 87.40 7 A 6D9/2 A 6S5/2 KAB 0.11 7135. 00 (AR III) 1 35.80 1 3P2 ID MORG 0.0 A
|
||
4303.77 0 II 1 3.82 54 3D4P5/2 4F4D7/2 KAB 0.03 7155. 00 (FE II ) 1 55.10 14 A 4F9/2 A 2G9/2 MORG O.&OA
|
||
4305.78 (FE II I 1 5.90 21 A 4F5/2 A 4G5/2 KAB 0.0 7231. 00 C II l 31.10 3 3 2P1/2 3 2D3/2 MORG 0.40 A
|
||
4317.05 0 II 1 17.14 2 3S4P1/2 3P4P3/2 KAB 0.06 7236, 60 C II 1 36,20 3 3 2P3/2 3 2D5/2 MORG 0.70A
|
||
4319.56 (FE II ) 2 19.62 21 A 4F5/2 4G7/2 KAB 0.03 7254, 00 0 I l 54.40 3P 5 MORG l.OOA
|
||
4319.56 0 11 2 19.63 2 3S4P3/2 3P4P5/2 KAB 0.03 7281. 20 HE I 1 81.30 45 2 IP 3 MORG 10.00A
|
||
4332.57 S III 1 32.71 4 4S3P0 4P3D1 KAB 0.03 7320. 10 (0 II ) 1 19.90 _2 2D5/2 MORG 0.0 A
|
||
4340.27 H I 1 40.47 1 2 2P 5 2D KAB 41.00 7330. 70 (O II ) 1 30.20 2 2D 3/2 2P MORG 0.0 A
|
||
4345.49 0 II 1 45.56 2 4S4P3/2 3P4PI/2 KAB 0.11 7387. 00 (FE II I 1 88.20 14 4F5/2 A 2G9/2 MORG 0.0 A
|
||
4346.75 (FE II ) 1 46.85 21 A 4F7/2 A 4G /2 KAB 0.03 7452. 00 (FE II ) 1 52.50 14 4F7/2 A 2G9/2 MORG 0.0 A
|
||
4347.50 0 II 1 47.43 16 3S2D3/2 3P2D3/2 KAB 0.03 7530. 70 (CL IV ) 1 30.90 3PI MORG 0.40A
|
||
4349.39 0 II l 49.43 2 3S4P5/2 3P4P5/2 KAB 0.08 7751. 30 (AR I I n l 51.00 3P1 MORG 5.00A
|
||
4351.32 0 II 1 51.27 16 3S2D5/2 3P2D5/2 KAB 0.01 7774. 50 O I 1 74.20 5S 3 MORG 0. 20 A
|
||
4359.45 ( FE I I I l 59.34 7 A 6D7/2 A 6S5/2 KAB 0.09 7816. 10 HE I 1 16.20 3S MORG 0.40A
|
||
4363.18 (0 III ) l 63.21 2 2PID2 2P1S0 KAB 1.65 8446. 00 0 I l 46.40 3S MORG 5.00A
|
||
4366.95 0 II ;1 6fri?0 3P4P3/2 KAB 0.06
|
||
4387.93 HE I 87.93 51 2 IP1 5 1D2 KAB 0.82 END NGC 1976
|
||
4413.91 (FE II 1 1 13.78 7 A 605/2 A 6S5/2 KAB 0.08
|
||
4414.98 0 II 1 14.91 5 3S2P3/2 3P205/2 KAB 0.06
|
||
4416.29 (FE II ) 1 16.27 6 A 6D9/2 B 4F9/2 KAB 0.06
|
||
4416.91 0 II 1 16.98 5 3S2P1/2 3P2D3/2 KAB 0.05
|
||
4437.66 HE I 1 37.55 50 2 1P1 5 ISO KAB -Qx-LQ
|
||
4446.87 N II 1 47.03 15 3P1P1 3D1D2 KAB 0.0
|
||
4452.30 n 11 2 52.38 5 3S2P3/2 3P2D3/2 KAB 0.06
|
||
4452.30 (FE II 2 52.11 7 A 6D3/2 A 6S5/-2. KAB 0^06
|
||
4458.12 (FE II Ï 57.95 6D7/2 B 4F7/2 KAB 0.05
|
||
4471.43 HE I 1 71.48 14 2 3P 4 3P KAB 5.04
|
||
4590.89 0 II 1 90.97 15 3S2D5/2 3P2F7/2 KAB 0.04
|
||
4607.06 N II 2 7.15 5 3S3P0 3P3PI KAB 0.06
|
||
4607.06 (FE I 11» 2 7.13 3 A 5D4 A 3F3 KAB 0.06
|
||
4621.41 N II 2 21.39 5 3S3P1 3P3P0 KAB 0.03
|
||
4621.41 (C I ) 2 21.50 2 2P3PI 2P ISO KAB 0.03
|
||
4630.60 N II 1 30.54 5 3S3P2 3P3P2 KAB 0.08
|
||
4634.01 N III I 34.16 2 3 2P1/2 3 203/2 KAB QtQ4
|
||
4638.81 1 38.85 1 3S4P1/2 3P4D3/2 KAB 0.
|
||
4640.73 N III 1 40.64 2 3 2P3/2 3 2D5/2 KAB 0.08
|
||
4641 <86. J 1 41.81 1 3 S 4P 3/2 3P4P5/2 KAB 0.15.
|
||
4649.15 n 11 1 49.14 1 3S4P5/2 3P4D7/2 KAB 0.25
|
||
4650.85 0 11 l 50.84 1 3S4P1/2 3P4D1/2 KAB 0.08
|
||
4658«19 (FE Hi) 1 58.10 3 A 504 A 3F4 KAB 0.82
|
||
4661.67 0 II 1 61.64 1 3S4P3/2 3P4D3/2 KAB 0.08
|
||
4676.11 0 II 1 76.23 l 3S4P5/2 3P4D5/2 KAB 0.06
|
||
4699.12 J3 LL_ 2 99.21 25 3P2D3/2 3D2F5/2. KAB 0.04
|
||
4699.12 II 2 99.21 40 3P2D5/2 3D2F7/2 KAB 0.04
|
||
4701.69 (FE III) l 1.62 3 A 5D3 3F3 KAB 0.24
|
||
4705.54 II 1 5 àâ 2JL 3P2D5/2 3D2F7/2 KAB 0.04
|
||
4711.48 (AR IV ) 1 11.34 1 3R4S3/2 3P2D5/2 KAB 0.17
|
||
4713.19 HE I 1 13.14 12 2 3P 4 3S1 KAB 1.05
|
||
4733.93 (FE III) 1 33.93 3 A 502 A 3F2 KAB 0.09
|
||
4740.28 (AR IV ) l 40.20 1 3P4S3/2 3P2D3/2 KAB 0.17
|
||
4754.87 (FE III) 1 54.83 3 A 5D3 A 3F4 KAB 0.11
|
||
4769.61 (FE III) 1 69.40 3 A 5D2 A 3F3 KAB 0.07
|
||
4774.42 (FE II ) l 74.74 20 A 4F9/2 B 4F7/2 KAB 0.0
|
||
4777.88 (FE I II » 1 77.70 3 A 5D1 A 3F2 KAB 0.05
|
||
4814.69 (FE II ) 1 14.55 20 A 4F9/2 B 4F9/2 KAB 0.10
|
||
4861.24 H I 1 61.33 1 2 2P 4 2D KAB 100.00
|
||
4881.14 (FE III) 1 81.00 2 A 5D4 A 3H4 KAB 0.31
|
||
4921.97 HE I 1 21.93 48 2 1P1 4 1D2 KAB 1.36
|
||
4931.05 (0 III ) 2 31.00 1 2P3P0 2P1D2 KAB 0.09
|
||
4931.05 (FE III) 2 30.70 1 A 5DI A 3P0 KAB 0.09
|
||
4958.90 (0 III ) 1 58.92 1 2P3P1 2P1D2 KAB 113.00
|
||
5007.00 (0 III I 1 6.85 1 2P3P2 2P1D2 KAB 342.00
|
||
5016.00 HE I 1 15.68 4 2 ISO 3 IP1 KAB 2.24
|
||
5041.90 SI II 1 41,10 5 4P2P1/2 4P 2D MORG 0.0 A
|
||
5047.30 HF I 1 47.70 2 IP 4 IS MORG 0. 40 A
|
||
5056.40 SI II l 56.10 5 4P2P3/2 4D2D MORG 0.40A
|
||
5191.40 (AR III) 1 91.40 3 10 IS MORG 0.20A
|
||
5198.30 (NI ) 1 98.50 1 4S 205/ 2 MORG 0.60A
|
||
5200.60 (NI ) 1 0.70 1 4S 2D3/2 MORG 0. 40 A
|
||
5270.80 FE III 1 70.30 1 A 5D3 A 3P2 MORG 1.20A
|
||
5321.80 (CL IV ) 1 22.20 3 ID IS MORG 0.0 A
|
||
5513.00 0 I l 12.70 25 3 3P 6 30 MORG 0.40A
|
||
5518.40 CL I 11 17.70 4S 205/2 MORG 10.00A
|
||
5538.20 CL III 1 37.60 l 4S 2D3/2 MORG 10.00A
|
||
5555.50 0 I 1 54.90 24 3 3P 7 3S MORG 0.0 A
|
||
5577.60 (0 1 ) 1 77.30 3 ID IS MORG 15.00A
|
||
5678.00 N II l 79.60 3 3S3P2 3P3D3 MORG 0. 40 A
|
||
5754.00 (N II) 1 54.60 3 ID IS MORG 15.00A
|
||
5876.00 HE I 1 75.60 11 2 3P 3 3D MORG 0.0 A
|
||
5958.00 SI II 2 57.60 4 4 2P1/2 5 2S MORG 0. 40 A
|
||
5958.00 0 I 2 58.50 23 3 3P 5 3D MORG 0. 40 A
|
||
5979.00 SI II 1 79.00 4 4 2P3/2 5 2S MORG 0.40A
|
||
6046.00 0 I 1 46.40 22 3 3P 6 3S MORG 0. 70 A
|
||
6300.60 (0 1 ) 1 0.30 l 3P2 ID MORG 10.00A
|
||
6312.40 ( S III) 1 12,10 3 in IS MORG 15.00 A
|
||
6347.30 SI II 1 47.10 2S 4 2P3/2 MORG 0.60A
|
||
6364.10 (0 I ) 1 63.80 3P1 ID MORG 1.20A
|
||
|
||
|
||
|
||
|
||
687
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
197 6ApJS. . .31. .517K
|
||
|
||
|
||
688 KALER
|
||
REFERENCES
|
||
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|
||
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|
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Astr. and Ap., 37, 33. Perek, L. 1971, Bull. Astr. Inst. Czechoslovakia, 22, 103.
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Bowen, I. S. 1960, Ap. /., 132, 1. Perek, L., and Kohoutek, L. 1967, Catalog of Galactic
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||
Brocklehurst, M. 1971, M.N.R.A.S., 153, 471. Planetary Nebulae (Prague: Czechoslovak Academy of
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Cahn, J. H. 1976, Ap. J., in press. Science).
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Cahn, J. H., and Kaler, J. B. 1971, Ap. J. Suppl., 22, 319. Rodgers, A. W., Campbell, C. T., and Whiteoak, J. B. 1960,
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||
Courtès, G., and Cruvellier, P. 1965, Ann. d’Ap., 28, 683. Searle, L. 1971, Ap. J., 168, 327.
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|
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Gum, C. S. 1955, Mem. R.A.S., 67, 155. General Catalog of Nonstellar Astronomical Objects
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Henize, K. G. 1956, Ap. J. Suppl, 2, 315. (Tucson: University of Arizona Press).
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. 1967, ibid., 14, 125. Vorontsov-Velyaminov, B. A., Kostjakova, E. B., Dokuchaeva,
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Higgs, L. A. 1971, Catalog of Radio Observations of Planetary O. D., and Arhipova, V. P. 1973, Mém. Soc. Roy. Sei.
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Nebulae and Related Optical Data (National Research Liège, ser. 6, 5, 79.
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Council of Canada, NRC 12129). Westerlund, B. E., and Smith, L. F. 1964, M.N.R.A.S., 127,
|
||
Hubble, E. P. 1925, Ap. J., 62, 409. 449.
|
||
Huggins, W. 1864, Proc. Roy. Soc. London, 13, 492. Whitford, A. E. 1958, A.J., 63, 201.
|
||
Johnson, H. M. 1968, in Nebulae and Interstellar Matter, ed. Zwicky, F. 1971, Catalog of Selected Compact Galaxies and of
|
||
B. Middlehurst and L. H. Aller (Chicago: University of Post-Eruptive Galaxies (privately published).
|
||
Chicago Press).
|
||
|
||
|
||
James B. Kaler: University of Illinois Observatory, Urbana, IL 61801
|
||
|
||
|
||
|
||
|
||
© American Astronomical Society • Provided by the NASA Astrophysics Data System
|
||
|