# FLUKA Project file Title: FLUKA Course Exercise Input: ex9.inp Exec: /home/soft/flukadev/flukadpm3 LinkPrg: lfluka F77bound: True F77dline: False FlukaVar: FLUPRO # Run information Run: Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 1222508958 # USRxxx data file Data: ex9_usrbin_40 Unit: 40 Type: b Rule: +,^ex9\d\d\d_fort.40$ Rule: +,^ex9\d\d\d_ftn.40$ EndData # USRxxx data file Data: ex9_usrbdx_50 Unit: 50 Type: x Rule: +,^ex9\d\d\d_fort.50$ Rule: +,^ex9\d\d\d_ftn.50$ EndData # USRxxx data file Data: ex9_usrbdx_51 Unit: 51 Type: x Rule: +,^ex9\d\d\d_fort.51$ Rule: +,^ex9\d\d\d_ftn.51$ EndData # USRxxx data file Data: ex9_usrbdx_52 Unit: 52 Type: x Rule: +,^ex9\d\d\d_fort.52$ Rule: +,^ex9\d\d\d_ftn.52$ EndData # USRxxx data file Data: ex9_usrbdx_53 Unit: 53 Type: x Rule: +,^ex9\d\d\d_fort.53$ Rule: +,^ex9\d\d\d_ftn.53$ EndData # USRxxx data file Data: ex9_usrbdx_54 Unit: 54 Type: x Rule: +,^ex9\d\d\d_fort.54$ Rule: +,^ex9\d\d\d_ftn.54$ EndData # USRxxx data file Data: ex9_usrtrack_55 Unit: 55 Type: t Rule: +,^ex9\d\d\d_fort.55$ Rule: +,^ex9\d\d\d_ftn.55$ EndData # USRxxx data file Data: ex9_usrtrack_56 Unit: 56 Type: t Rule: +,^ex9\d\d\d_fort.56$ Rule: +,^ex9\d\d\d_ftn.56$ EndData # USRxxx data file Data: ex9_usryield_57 Unit: 57 Type: y Rule: +,^ex9\d\d\d_fort.57$ Rule: +,^ex9\d\d\d_ftn.57$ EndData # USRxxx data file Data: ex9_resnuclei_60 Unit: 60 Type: r Rule: +,^ex9\d\d\d_fort.60$ Rule: +,^ex9\d\d\d_ftn.60$ EndData # USRxxx data file Data: ex9_usrbin_70 Unit: 70 Type: b Rule: +,^ex9\d\d\d_fort.70$ Rule: +,^ex9\d\d\d_ftn.70$ EndData # USRxxx data file Data: ex9_usryield_89 Unit: 89 Type: y Rule: +,^ex9\d\d\d_fort.89$ Rule: +,^ex9\d\d\d_ftn.89$ EndData # USRxxx data file Data: ex9_usryield_90 Unit: 90 Type: y Rule: +,^ex9\d\d\d_fort.90$ Rule: +,^ex9\d\d\d_ftn.90$ EndData EndRun # USR-1D plot "Charge spectrum" Plot: FragZ Title: Charge spectrum Format: .eps Type: USR-1D Keys: 1 AutoAspect: 1 XLabel: Ion charge YLabel: Yield [per primary] Commands: set key top left show.2: 1 xlog: 0 lt.2: 3 ylog: 1 lt.0: 1 lt.1: 2 name.1: FragZ2 name.0: FragZ1 name.2: FragZ3 ls.1: 0 ls.0: 0 ls.2: 0 xmin: 2 key.2: 1 ymin: 1e-3 det.0: 0 det.1: 1 det.2: 2 ndetectors: 3 with.2: yerrorbars block.2: 0 block.0: 0 block.1: 0 y2log: 0 axes.1: x1y1 norm.0: 6.28 norm.1: 6.28 norm.2: 6.28 norm: 6.28 lw.2: 1 ps.1: 1 show.1: 1 show.0: 1 with.0: yerrorbars with.1: yerrorbars key.0: 1 key.1: 1 x.0: 1 x.2: 1 x2tics: 0 axes.2: x1y1 axes.0: x1y1 x.1: 1 ps.0: 1 ps.2: 1 lw.1: 1 lw.0: 1 y2tics: 0 y.0: 0 pt.2: 1 pt.0: 1 pt.1: 1 file.0: ex9_usryield_90_tab.lis x2log: 0 file.2: ex9_usryield_90_tab.lis y.1: 0 y.2: 0 file.1: ex9_usryield_90_tab.lis EndPlot # USR-1D plot "LET in water" Plot: LET Title: LET in water Format: .eps Type: USR-1D Keys: 1 AutoAspect: 1 XLabel: LET (keV/um) YLabel: Yield [keV-1 um per primary] block.1: 0 block.0: 0 xlog: 0 ylog: 1 lt.0: 3 lt.1: 1 lw.1: 1 name.0: LETCh ls.1: 0 ls.0: 0 det.0: 1 det.1: 0 ndetectors: 2 key.1: 1 y2log: 0 name.1: LETHI axes.1: x1y1 norm.0: 12 norm.1: 7 axes.0: x1y1 norm: 7 x.1: 2 show.1: 1 show.0: 1 with.0: steps with.1: steps key.0: 1 ps.0: 1 x2tics: 0 ps.1: 1 x.0: 2 lw.0: 1 y2tics: 0 pt.0: 1 pt.1: 1 x2log: 0 y.0: 0 y.1: 0 file.0: ex9_usryield_89_tab.lis file.1: ex9_usryield_89_tab.lis EndPlot