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@ -1,6 +1,6 @@
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0.0004 0.0003
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0.03 0.028
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0.03 0.028
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0.4 0.024
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3 0.013
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3 0.012
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50 0.029
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500 0.00017
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@ -1,6 +1,6 @@
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0.0004 3.2e10
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0.006 4.9e13
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.4 2.2e13
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2 1.4e13
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100 7.7e13
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500 1.5e13
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0.006 4.9e12
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.4 2.2e12
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2 1.4e12
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100 6.58e12
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500 1.5e12
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@ -1,7 +1,8 @@
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0.0013 9e12
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0.002 2e13
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0.004 4.5e13
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0.005 5e13
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1.3 1.3e13
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240 8.2e13
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300 8e13les
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0.0013 9e11
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0.002 2e12
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0.004 4.5e12
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0.005 5e12
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1.3 1.3e12
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200 8e12
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240 8.2e12
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300 8e12
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102
sed/plots.R
102
sed/plots.R
@ -1,5 +1,8 @@
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data = read.table("mehdipour2013.tab")
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plot (data,log="xy",type="l")
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coords=read.table("mehdipour2013_samples.tab")
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points(coords)
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data=read.table("magdziarz1997.tab")
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plot (data,log="xy",type="l")
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@ -8,10 +11,12 @@ plot (data,log="xy",type="l")
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data = read.table("mehdipour2013.tab")
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plot (data,log="xy",type="l",xlim=c(.001,300),ylim=c(10e11,10e13))
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plot (data,log="xy",type="l",xlim=c(.001,300),ylim=c(1e11,1e13))
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# mehdipour axes
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abline(v=0.001)
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abline(h=40e11)
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coords=read.table("mehdipour2013_samples.tab")
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points(coords)
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data = read.table("mehdipour2013.tab")
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plot (data,log="xy",type="l")
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@ -19,10 +24,15 @@ plot (data,log="xy",type="l")
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abline(v=0.001)
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abline(h=40e11)
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minorticks=
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data=read.table("magdziarz1997.tab")
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plot (data,log="xy",type="l",xlim=c(.001,300),ylim=c(1e-3,1e-1))
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plot (data,log="xy",type="l")
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coords=read.table("magdziarz1997_samples.tab")
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points(coords)
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#magdziarz boundaries
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abline(v=.0004)
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abline(v=.03)
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@ -43,9 +53,99 @@ abline(v=0.012)
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abline(h=0.03)
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abline(v=60)
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data=read.table("magdziarz1997.tab")
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plot (data,log="xy",type="l",xlim=c(.001,300),ylim=c(1e-3,1e-1))
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coords=read.table("magdziarz1997_samples.tab")
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points(coords)
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data=read.table("magdziarz1997.tab")
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plot (data,log="xy",type="l")
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coords=read.table("magdziarz1997_samples.tab")
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points(coords)
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data=read.table("mehdipour2013.tab")
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plot (data,log="xy",type="l",xlim=c(.001,300),ylim=c(1e11,1e13))
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coords=read.table("mehdipour2013_samples.tab")
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points(coords)
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data=read.table("mehdipour2013.tab")
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plot (data,log="xy",type="l")
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coords=read.table("mehdipour2013_samples.tab")
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points(coords)
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# model boundaries, if needed
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abline(v=.0004,col="black")
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abline(v=.03,col="black")
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abline(v=.4,col="black")
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abline(v=3,col="black")
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abline(v=50,col="black")
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abline(v=500,col="black")
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abline(v=0.0004,col="red")
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abline(v=0.006,col="red")
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abline(v=.4,col="red")
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abline(v=2,col="red")
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abline(v=100,col="red")
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abline(v=500,col="red")
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data1 = read.table("magdziarz_incident_continuum")
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data2 = read.table("mehdipour_incident_continuum")
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x1 = data1["V1"]
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y1 = data1["V2"]
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x2 = data2["V1"]
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y2 = data2["V2"]
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pdf("sed_overlay_with_boundaries.pdf")
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plot(x1[,],y1[,],log="xy",type="l",xlim=c(1e-6,1e7),lwd=2,xlab="eV",ylab="nuFnu")
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lines(x2[,],y2[,],type="l",col="red",lwd=2)
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powers = seq(-10,10,by=1)
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coefficients = c(2,5)
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for (i in powers) {
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abline(v=10^i,col="black",lty=1)
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for (j in coefficients) {
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abline(v=j*(10^i),col="black",lty=2)
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}
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}
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powers = seq(-45,45,by=1)
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coefficients = c(2,5)
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for (i in powers) {
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abline(h=10^i,col="black",lty=1)
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for (j in coefficients) {
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abline(h=j*(10^i),col="black",lty=2)
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}
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}
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dev.off()
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pdf("sed_overlay_with_boundaries_zoomed.pdf")
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plot(x1[,],y1[,],log="xy",type="l",lwd=2,xlim=c(0.001,1000),ylim=c(5e7,5e9),xlab="eV",ylab="nuFnu")
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lines(x2[,],y2[,],type="l",col="red",lwd=2)
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powers = seq(-10,10,by=1)
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coefficients = seq(2,8,by=1)
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for (i in powers) {
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abline(v=10^i,col="black",lty=1)
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for (j in coefficients) {
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abline(v=j*(10^i),col="black",lty=2)
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}
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}
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powers = seq(-45,45,by=1)
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coefficients = seq(2,8,by=1)
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for (i in powers) {
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abline(h=10^i,col="black",lty=1)
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for (j in coefficients) {
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abline(h=j*(10^i),col="black",lty=2)
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}
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}
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dev.off()
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# Logspace minor ticks
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15
src/sed.hpp
15
src/sed.hpp
@ -38,9 +38,11 @@ struct sed_table {
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// To account for the four main powerlaws in a typical
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// AGN SED.
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// Hardcoded infrared and gamma ray power laws.
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// Hardcoded infrared and gamma ray power laws and cutoffs.
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const double IR_POWER = 3;
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const double GAMMA_POWER = -2;
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const double GAMMA_POWER = -5;
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const double RADIO_CUTOFF = 1e-4; // IN KEV
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const double GAMMA_CUTOFF = 1e4; // IN KEV
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struct powerlaw_bounds {
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double ir_min;
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_power(power),
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_normal(exp(log(x0.second)-(_power*log(x0.first))))
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{}
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double eval(double hnu) { return _normal*pow(hnu,_power); }
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double eval(double hnu) {
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return
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_normal
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* pow(hnu,_power)
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* exp(-(hnu)/GAMMA_CUTOFF)
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* exp(-(RADIO_CUTOFF/hnu))
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;
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}
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};
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class sed {
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