mirror of
https://asciireactor.com/otho/as-500.git
synced 2024-11-22 18:55:05 +00:00
396 lines
17 KiB
R
396 lines
17 KiB
R
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fe = read.table("shock.fe")
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fe
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plot(fe)
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plot(fe[1,])
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fe[1.]
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fe[1,]
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fe[1,]
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fe[1,1]
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fe[1,2]
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fe[1,,]
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fe[2,]
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fe[0,]
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fe[1,]
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plot,x=c(1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28),y=fe[1,])
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plot(x=c(1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28),y=fe[1,])
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1..28
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1...28
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?seq
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seq(1..28)
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seq(1,28)
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plot(seq(1,28),fe[1,])
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plot(seq(1,27),fe[1,2..28])
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plot(seq(1,27),fe[1,2..27])
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plot(seq(1,27),fe[1,2...27])
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plot(seq(1,27),fe[1,])
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plot(seq(1,28),fe[1,])
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plot(seq(1,28),fe[1,2])
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plot(seq(1,28),fe[1,0])
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plot(seq(1,28),fe[1,])
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plot(seq(1,28),fe[1,>1])
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plot(seq(1,28),subset(fe[1,],>1)
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?subset
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fe[c(seq(2,28)]
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fe[c(seq(2,28))]
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fe[c(seq(1,28))]
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fe[c(seq(2,28)]
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plot(seq(1,28),fe[1,c(seq(2,28))])
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plot(seq(2,28),fe[1,c(seq(2,28))])
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b")
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pdf("fe_stages.pdf")
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction")
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dv.off()
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dev.off()
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction")
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(seq(1,28)))
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,28,1))
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,1,28))
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,28,28))
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,28,27))
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,28,27))
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,28,27))
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fe
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,28,0))
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(1,28,0))
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,0))
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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?for
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?
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for
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?for
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for
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axis(1,"yo")
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?axis
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axis(1,at=1,"yo"0
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axis(1,at=1,"yo)
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axis(1,at=1,"yo")
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axis(1,at=1,label="yo")
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fe[1,1]
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fe[0,1]
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fe[0,2]
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fe[1,1]
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fe[1,0]
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fe[1,]
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fe[1,1]
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fe[2,1]
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fe[2,2]
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fe[2,3]
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fe[1,3]
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fe[0,3]
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fe[0,5]
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fe[1,5]
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fe[1,1]
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name(fe[1,1])
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names(fe[1,1])
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names(fe[1,2])
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names(fe[1,3])
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fe
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fe[1,]
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fe[1,1]
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fe[1,2]
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fe[1,0]
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fe[1,1]
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fe[1,2]
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fe
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title
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title(fe[1,1])
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fe[1]
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fe[2]
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fe[3]
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names(fe[3])
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names(fe[4])
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names(fe[5])
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names(fe[6])
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names(fe[1])
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names(fe[2])
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fe
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names(fe[3])
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names(fe[4])
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axis(1,at=2,label="Fe")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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axis(1,at=2,label="Fe")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages.")
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axis(1,at=2,label="Fe")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages, AGN Shock Winds")
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subtitle("v=10,000 km/s, T = 2e9 K")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K")
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?title
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(3,28),axis(1,at=coord,label=paste("FE+",coord-2)))
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(3,28)){axis(1,at=coord,label=paste("FE+",coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(3,28,2)){axis(1,at=coord,label=paste("FE+",coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste("FE+",coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste("FE-",coord-2))}
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?paste
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste0("FE-",coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste0("FE^+",coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste0("FE",^+,coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste0("FE",^"+",coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste0("FE","^+",coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste0("FE",parse("^+"),coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=paste0("FE",parse(text="^+"),coord-2))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("FE","^+",coord-2)))
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("FE","^+",coord-2))}
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("FE","^+",coord-2)))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("FE","^+",coord-2)))}
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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#title("Ionization Fraction for Iron Stages, AGN Shock Winds\rv=10,000 km/s, T = 2e9 K",main="")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("Fe","^+",coord-2)))}
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pdf("fe_ion.pdf")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages, AGN Shock Winds (v=10,000 km/s, T = 2e9 K)")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("Fe","^+",coord-2)))}
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pdf("fe_ion.pdf")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages, AGN Shock Winds (v=10,000 km/s, T = 2e9 K)")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("Fe","^+",coord-2)))}
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pdf("fe_ion.pdf")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages, AGN Shock Winds (v=10,000 km/s, T = 2e9 K)")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("Fe","^+",coord-2)))}
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dev.off()
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pdf("fe_ion.pdf")
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fe = read.table("shock.fe",header=T)
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plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Iron Stages, AGN Shock Winds (v=10,000 km/s, T = 2e9 K)")
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axis(1,at=2,label="Fe")
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for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("Fe","^+",coord-2)))}
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dev.off()
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oxy= read.table("shock.oxy",header=T)
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oxy
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pdf("oxy_ion.pdf")
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oxy= read.table("shock.oxy",header=T)
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plot(seq(2,12),oxy[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
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title("Ionization Fraction for Oxygen Stages, AGN Shock Winds (v=10,000 km/s, T = 2e9 K)")
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axis(1,at=2,label="O")
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for(coord in seq(4,12,2)){axis(1,at=coord,label=parse(text=paste0("O","^+",coord-2)))}
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dev.off()
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oxy= read.table("shock.oxy",header=T)
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plot(seq(2,12),oxy[1,c(seq(2,12))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
|
||
|
xy[1,c(seq(2,12))]
|
||
|
oxy[1,c(seq(2,12))]
|
||
|
pdf("oxy_ion.pdf")
|
||
|
oxy= read.table("shock.oxy",header=T)
|
||
|
plot(seq(2,12),oxy[1,c(seq(2,12))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
|
||
|
title("Ionization Fraction for Oxygen Stages, AGN Shock Winds (v=10,000 km/s, T = 2e9 K)")
|
||
|
axis(1,at=2,label="O")
|
||
|
for(coord in seq(4,12,2)){axis(1,at=coord,label=parse(text=paste0("O","^+",coord-2)))}
|
||
|
dev.off()
|
||
|
pdf("oxy_ion.pdf")
|
||
|
oxy= read.table("shock.oxy",header=T)
|
||
|
plot(seq(2,10),oxy[1,c(seq(2,10))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
|
||
|
title("Ionization Fraction for Oxygen Stages, AGN Shock Winds (v=10,000 km/s, T = 2e9 K)")
|
||
|
axis(1,at=2,label="O")
|
||
|
for(coord in seq(4,10,2)){axis(1,at=coord,label=parse(text=paste0("O","^+",coord-2)))}
|
||
|
dev.off()
|
||
|
pdf("fe_ion.pdf")
|
||
|
fe = read.table("shock.fe",header=T)
|
||
|
plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
|
||
|
title("Ionization Fraction for Iron Stages, AGN Shock Winds (v=10,000 km/s)")
|
||
|
axis(1,at=2,label="Fe")
|
||
|
for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("Fe","^+",coord-2)))}
|
||
|
dev.off()
|
||
|
pdf("oxy_ion.pdf")
|
||
|
oxy= read.table("shock.oxy",header=T)
|
||
|
plot(seq(2,10),oxy[1,c(seq(2,10))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
|
||
|
title("Ionization Fraction for Oxygen Stages, AGN Shock Winds (v=10,000 km/s)")
|
||
|
axis(1,at=2,label="O")
|
||
|
for(coord in seq(4,10,2)){axis(1,at=coord,label=parse(text=paste0("O","^+",coord-2)))}
|
||
|
dev.off()
|
||
|
pdf("fe_ion.pdf")
|
||
|
fe = read.table("shock.fe",header=T)
|
||
|
plot(seq(2,28),fe[1,c(seq(2,28))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
|
||
|
title("Ionization Fraction for Fe Stages, AGN Shock Winds (v=10,000 km/s)")
|
||
|
axis(1,at=2,label="Fe")
|
||
|
for(coord in seq(4,28,2)){axis(1,at=coord,label=parse(text=paste0("Fe","^+",coord-2)))}
|
||
|
dev.off()
|
||
|
pdf("oxy_ion.pdf")
|
||
|
oxy= read.table("shock.oxy",header=T)
|
||
|
plot(seq(2,10),oxy[1,c(seq(2,10))],type="b",xlab="Ionization Stage",ylab="Ionization Fraction",xaxp=c(0,0,1))
|
||
|
title("Ionization Fraction for O Stages, AGN Shock Winds (v=10,000 km/s)")
|
||
|
axis(1,at=2,label="O")
|
||
|
for(coord in seq(4,10,2)){axis(1,at=coord,label=parse(text=paste0("O","^+",coord-2)))}
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con")
|
||
|
plot(cont[,1],cont[,7])
|
||
|
cont
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con")
|
||
|
plot(cont[,1],cont[,7])
|
||
|
dev.off()
|
||
|
?plot
|
||
|
?Read
|
||
|
?read
|
||
|
?read
|
||
|
?read.table
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,7])
|
||
|
dev.off()
|
||
|
cont
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4])
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="xy")
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="x")
|
||
|
dev.off()
|
||
|
plot(cont)
|
||
|
plot(cont)
|
||
|
plot(cont)
|
||
|
plot(cont[,1],cont[,4],log="x")
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab="Intensity (ergs/cm/cm/s)")
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab="Flux (ergs/cm/cm/s)")
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab="Flux (ergs/cm^2/s)")
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text="Flux (ergs/cm^2/s)"))
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux,(ergs/cm^2/s)")))
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("shock.con",fill=T)
|
||
|
plot(cont[,1],cont[,4],log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux","(ergs/cm^2/s)")))
|
||
|
dev.off()
|
||
|
cont[,1]
|
||
|
cont[,4]
|
||
|
cont[,3]
|
||
|
cont[,2]
|
||
|
cont = read.table("cont.preplot")
|
||
|
plot(cont)
|
||
|
plot(cont)
|
||
|
cont
|
||
|
cont[1]
|
||
|
cont[2]
|
||
|
plot(cont[1],cont[2])
|
||
|
cont[1,]
|
||
|
cont[,1]
|
||
|
cont[,2]
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("cont.preplot",fill=T)
|
||
|
plot(cont[,1],cont[,2],log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux","(ergs/cm^2/s)")))
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("cont.preplot",fill=T)
|
||
|
plot(cont[,1],cont[,2],type="l",log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux","(ergs/cm^2/s)")))
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("cont.preplot",fill=T)
|
||
|
plot(cont[,1],cont[,2],type="l",log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux","(ergs/cm^2/s)")))
|
||
|
title("Emitted Continuum, AGN Shock Winds (v=10,000 km/s, T=2e9 K) ")
|
||
|
dev.off()pdf("cont.pdf")
|
||
|
cont = read.table("cont.preplot",fill=T)
|
||
|
plot(cont[,1],cont[,2],type="l",log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux","(ergs/cm^2/s)")))
|
||
|
title("Emitted Continuum, AGN Shock Winds (v=10,000 km/s, T=2e9 K) ")
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("cont.preplot",fill=T)
|
||
|
plot(cont[,1],cont[,2],type="l",log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux","(ergs/cm^2/s)")))
|
||
|
title("Emitted Continuum, AGN Shock Winds (v=10,000 km/s, T=2e9 K) ")
|
||
|
dev.off()
|
||
|
pdf("cont.pdf")
|
||
|
cont = read.table("cont.preplot",fill=T)
|
||
|
plot(cont[,1],cont[,2],type="l",log="x",xlim=c(1e-5,1e4),xlab="Wavelength (microns)",ylab=parse(text=paste("Flux","(ergs/cm^2/s)")))
|
||
|
title("Emitted Continuum, AGN Shock Winds (v=10,000 km/s, T=2e9 K) ")
|
||
|
dev.off()
|
||
|
exit
|
||
|
quit()
|