mirror of
https://asciireactor.com/otho/phy-4660.git
synced 2024-11-25 06:25:08 +00:00
513 lines
16 KiB
R
513 lines
16 KiB
R
lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(2,at=189.12,"189.12")
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12)
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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?axis
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,hadj=1)
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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e")
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> abline(h = 3700,col="purple",lwd=1)
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> abline(v = 203.63,col="purple",lwd=1)
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e")
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> abline(h = 3700,col="purple",lwd=1)
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> abline(v = 203.63,col="purple",lwd=1)
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e")
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> abline(h = 3700,col="purple",lwd=1)
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> abline(v = 203.63,col="purple",lwd=1)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12)
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,vadj=1)
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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?axis
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1)
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.3)
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.3)
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(1,at=203.63,padj=1.3)
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.3,"189.12±0.6")
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(1,at=203.63,padj=1.3,"203.63±0.6")
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.5,"189.12±0.6")
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axis(3,at=189.12,"0.352±0.009 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(1,at=203.63,padj=1.5,"203.63±0.6")
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axis(3,at=203.63,"0.96±0.04 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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plot(data1)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.5,"189.12±0.6")
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axis(3,at=189.12,"1.706±0.05 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(1,at=203.63,padj=1.5,"203.63±0.6")
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axis(3,at=203.63,"1.838±0.05 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=4.5,height=3)
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203.63-189.12
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1.838-1.706
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.132/14.51
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1.706-.009*189.12
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energy_coords=data1$channel*.009+.00392
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energy_coords
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data2$energy=energy_coords
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plot(energy~count,data=data2)
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plot(count~energy,data=data2)
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data3$energy=energy_coords
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data1$energy=energy_coords
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0))
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plot(count~energy,data=data1,type='l')
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100),xlab="energy [MeV]")
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plot(pnorm(50,500)
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plot(pnorm(50,500))
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plot(dnorm(50,50,500))
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100),xlab="energy [MeV]")
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abline(v = 7.949,col="red")
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abline(v = 7.949,col="red")
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axis(3,at=7.949,"7.949 MeV")
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
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abline(v = 7.949,col="red")
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axis(3,at=7.949,"7.949 MeV")
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abline(v = 7.688,col="red")
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axis(3,at=7.688,"7.688 MeV")
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
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abline(v = 7.949,col="red")
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axis(3,at=7.949,"7.949 MeV")
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abline(v = 7.688,col="red")
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axis(3,at=7.688,"7.688 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/rutherford.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(50,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/rutherford.pdf",width=4.5,height=3)
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# Rutherford Overlay
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plot(data2,type='l',xlim=c(50,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/rutherford.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(50,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/rutherford.pdf",width=4.5,height=3)
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plot(data2,type='l',xlim=c(50,205))
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plot(data2,type='line',xlim=c(50,205))
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plot(data2,type=l,xlim=c(50,205))
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plot(data2,type="l",xlim=c(50,205))
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?plot
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plot(data2,type="l",xlim=c(50,205))
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plot(data2,type="l",xlim=c(50,205))
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data2
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q
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plot(count~channel,data=data2,type='l',xlim=c(50,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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lines(count~channel,data=data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/rutherford.pdf",width=4.5,height=3)
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
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abline(v = 7.949,col="red")
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axis(3,at=7.949,"7.949 MeV")
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abline(v = 7.688,col="red")
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axis(3,at=7.688,"7.688 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/nuclear.pdf",width=4.5,height=3)
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# Rutherford Overlay
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plot(count~channel,data=data2,type='l',xlim=c(50,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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lines(count~channel,data=data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/rutherford.pdf",width=6,height=3)
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# calibration close-up
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.5,"189.12±0.6")
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axis(3,at=189.12,"1.706±0.05 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="pudatarple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(1,at=203.63,padj=1.5,"203.63±0.6")
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axis(3,at=203.63,"1.838±0.05 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=6,height=3)
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# nuclear reactions
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
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abline(v = 7.949,col="red")
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axis(3,at=7.949,"7.949 MeV")
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abline(v = 7.688,col="red")
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axis(3,at=7.688,"7.688 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
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plot(data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.5,"189.12±0.6")
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axis(3,at=189.12,"1.706±0.05 MeV")
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lines(data3,col='red')
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lines(c(0,1023),c(18500,18500),col="pudatarple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(1,at=203.63,padj=1.5,"203.63±0.6")
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axis(3,at=203.63,"1.838±0.05 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=6,height=3)
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plot(count~channel,data=data2,type='l',xlim=c(185,205))
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lines(c(0,1023),c(7600,7600),col="blue")
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abline(h = 1520,col="blue",lwd=1)
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abline(v = 189.12,col="blue",lwd=1)
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axis(1,at=189.12,padj=1.5,"189.12±0.6")
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axis(3,at=189.12,"1.706±0.05 MeV")
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lines(count~channel,data=data3,col='red')
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lines(c(0,1023),c(18500,18500),col="purple")
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abline(h = 3700,col="purple",lwd=1)
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abline(v = 203.63,col="purple",lwd=1)
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axis(1,at=203.63,padj=1.5,"203.63±0.6")
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axis(3,at=203.63,"1.838±0.05 MeV")
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minor.tick(nx=5,ny=2)
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dev.print(pdf,"../report/calibration.pdf",width=6,height=3)
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data1[7.8-7.9]
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data1[energy=7.8-7.9]
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data1[energy>7.8]
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data1[$energy>7.8]
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data1[data1$energy>7.8]
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plot(count~channel,data1)
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plot(count~channel,data1,xlim=c(840,870)))
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plot(count~channel,data1,xlim=c(840,870))
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plot(count~channel,data1,xlim=c(840,870),ylim=c(0,100))
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plot(count~channel,data1,xlim=c(800,870),ylim=c(0,100))
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plot(count~channel,data1,xlim=c(750,870),ylim=c(0,100))
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plot(count~channel,data1,xlim=c(700,870),ylim=c(0,100))
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plot(count~channel,data1,xlim=c(700,970),ylim=c(0,100))
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plot(count~channel,data1,xlim=c(7800,850),ylim=c(0,100))
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plot(count~channel,data1,xlim=c(780,850),ylim=c(0,100))
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plot(count~channel,data1,xlim=c(780,850),ylim=c(0,100),type=l)
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plot(count~channel,data1,xlim=c(780,850),ylim=c(0,100),type='l')
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plot(count~channel,data1,xlim=c(780,850),ylim=c(0,100),pch='|')
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plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
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abline(v = 7.949,col="red")
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axis(3,at=7.949,"7.949 MeV")
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abline(v = 7.688,col="red")
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axis(3,at=7.688,"7.688 MeV")
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minor.tick(nx=6,ny=2)
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dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="red")
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="red")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~channel,data1,xlim=c(780,850),ylim=c(0,100),pch='|')
|
|
data1
|
|
peak1_interval = c(793,800)
|
|
peak2_interval = c(838,847)
|
|
interval
|
|
seq
|
|
seq(peak2_interval)
|
|
seq(838,847(
|
|
seq(838,847)
|
|
peak2 = seq(838,847)
|
|
peak1 = seq(793,800)
|
|
peak1
|
|
data1[peak1]
|
|
data1[index==peak1]
|
|
?subset
|
|
data1[,peak1]
|
|
data1[1,peak1]
|
|
data1[1,]
|
|
data1[,]
|
|
data1[,1]
|
|
data1[,peak1]
|
|
data1[,index]
|
|
data1[,$index]
|
|
data1[,2]
|
|
data1[,1]
|
|
data1[,1==peak1]
|
|
sum
|
|
?sum
|
|
data1[$count]
|
|
data1[count]
|
|
data1["count"]
|
|
data1["count"][peak1]
|
|
data1["count",peak1
|
|
data1["count",peak1]
|
|
data1["count"]
|
|
peak1
|
|
data1
|
|
names(data1)
|
|
data1["v1"]
|
|
data1["channel"]
|
|
data1["channel","count"]
|
|
data1["channel":"count",]
|
|
data1["channel":"count"]
|
|
data1["channel","count"]
|
|
data1["channel"]
|
|
data1[c("channel","count")]
|
|
data1[5:10]
|
|
5:10
|
|
data1[c(5:10)]
|
|
data1[,c(5:10)]
|
|
data1[c(5:10),]
|
|
data1[peak1,]
|
|
data1[peak2,]
|
|
data1[0,]
|
|
data1[1,]
|
|
data1[801,]
|
|
data1[802,]
|
|
data1[801,]
|
|
peak1
|
|
peak1=793:801
|
|
data1[801,]
|
|
data1[peak1,]
|
|
peak1=793:802
|
|
data1[peak1,]
|
|
data1[peak2,]
|
|
peak2=837:849
|
|
data1[peak2,]
|
|
peak2=837:850
|
|
data1[peak2,]
|
|
peak2=836:850
|
|
data1[peak2,]
|
|
peak2=835:850
|
|
data1[peak2,]
|
|
peak2=834:850
|
|
data1[peak2,]
|
|
peak2=833:850
|
|
data1[peak2,]
|
|
?sum
|
|
data1[peak2,"energy"]
|
|
data1[peak2,"count"]
|
|
sum(data1[peak2,"count"])
|
|
sum(data1[peak1,"count"])
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="red")
|
|
abline(v = 7.7,col="blue")
|
|
abline(v = 6.9,col="blue")
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="red")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
7.949-6.9
|
|
1.049/6.9
|
|
7.688-7.7
|
|
0.012/7.7
|
|
sum(data1[peak1,"count"])
|
|
sum(data1[peak2,"count"])
|
|
3.12/3
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
abline(v = 7.588,col="purple")
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
abline(v = 7.58,col="purple")
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
abline(v = 7.583,col="purple")
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
axis(3,at=7.175,"7.175 MeV")
|
|
abline(v = 7.583,col="purple")
|
|
axis(3,at=7.583,"7.583 MeV")
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
axis(3,at=7.175,"7.175 MeV",padj=1)
|
|
abline(v = 7.583,col="purple")
|
|
axis(3,at=7.583,"7.583 MeV",padj=1)
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
axis(3,at=7.175,"7.175 MeV",padj=1.2)
|
|
abline(v = 7.583,col="purple")
|
|
axis(3,at=7.583,"7.583 MeV",padj=1.2)
|
|
axis(3,at=7.949,"7.949 MeV")
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688 MeV")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100))
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
axis(3,at=7.175,"7.175 MeV",padj=1.2)
|
|
abline(v = 7.583,col="purple")
|
|
axis(3,at=7.583,"7.583 MeV",padj=1.2)
|
|
axis(3,at=7.949,"7.949 MeV",padj=-.3)
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688 MeV",padj=-.3)
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(7.0,8.0),ylim=c(0,100),xlab="energy (MeV)")
|
|
abline(v = 7.949,col="blue")
|
|
abline(v = 7.175,col="purple")
|
|
axis(3,at=7.175,"7.175")
|
|
abline(v = 7.583,col="purple")
|
|
axis(3,at=7.583,"7.583")
|
|
axis(3,at=7.949,"7.949")
|
|
abline(v = 7.688,col="blue")
|
|
axis(3,at=7.688,"7.688")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/nuclear.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(0.5,2.5),ylim=c(0,100),xlab="energy (MeV)")
|
|
minor.tick(nx=8,ny=2)
|
|
plot(count~energy,data=data1,type='l',xlim=c(0.5,2.5),ylim=c(0,20000),xlab="energy (MeV)")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/thickness.pdf",width=6,height=3)
|
|
plot(count~energy,data=data1,type='l',xlim=c(0.5,2.5),ylim=c(0,25000),xlab="energy (MeV)")
|
|
minor.tick(nx=8,ny=2)
|
|
dev.print(pdf,"../report/thickness.pdf",width=6,height=3)
|
|
quit()
|