# FLUKA Project file Version: 1 Title: FLUKA Course Exercise Input: ex4.inp Submit: Local Notes: Plotting exercise DefMain: True LinkPrg: lfluka F77bound: True F77dline: False material.NITROGEN: #59735E material.BERYLLIU: #33239E material.CALCIUM: #9ABFB0 material.SODIUM: #C981C6 material.WATER: #e8f1f9 material.SILVER: #816218 material.LEAD: #898c8e material.SILICON: #413A1B material.TITANIUM: #CB5A79 material.IRON: #6EC47C material.TUNGSTEN: #CF3F1D material.NICKEL: #205C7C material.ARGON: #918B78 material.MAGNESIU: #400B1D material.MERCURY: #9BA26A material.TANTALUM: #46BEBE material.TIN: #2A684B FlukaVar: FLUKA # Run information Run: Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 1301058739 # USRxxx data file: ex4_usrbin_40 Data: ex4_usrbin_40 Unit: 40 Type: b Recursive: 0 Rule: +,^\I\d\d\d_fort.\U$ Rule: +,^\I\d\d\d_ftn.\U$ EndData # USRxxx data file: ex4_usrbdx_50 Data: ex4_usrbdx_50 Unit: 50 Type: x Recursive: 0 Rule: +,^\I\d\d\d_fort.\U$ Rule: +,^\I\d\d\d_ftn.\U$ EndData # USRxxx data file: ex4_usrbdx_54 Data: ex4_usrbdx_54 Unit: 54 Type: x Recursive: 0 Rule: +,^\I\d\d\d_fort.\U$ Rule: +,^\I\d\d\d_ftn.\U$ EndData # USRxxx data file: ex4_usrtrack_55 Data: ex4_usrtrack_55 Unit: 55 Type: t Recursive: 0 Rule: +,^\I\d\d\d_fort.\U$ Rule: +,^\I\d\d\d_ftn.\U$ EndData # USRxxx data file: ex4_usryield_57 Data: ex4_usryield_57 Unit: 57 Type: y Recursive: 0 Rule: +,^\I\d\d\d_fort.\U$ Rule: +,^\I\d\d\d_ftn.\U$ EndData # USRxxx data file: ex4_resnuclei_60 Data: ex4_resnuclei_60 Unit: 60 Type: r Recursive: 0 Rule: +,^\I\d\d\d_fort.\U$ Rule: +,^\I\d\d\d_ftn.\U$ EndData EndRun # Geometry Information Geometry: EndGeometry # Geometry plot "Geometry" Plot: geometry Title: Geometry Format: .eps Type: Geometry LineType: Keys: 1 XLabel: z [cm] YLabel: y [cm] origin: 0 0 5 showcenter: 0 vectscale: 0.1 labels: 1 coord: Z-Y boundaries: 0 subtype: Material extends: 10 10 basisu: 0 0 1 basisv: 0 1 0 nu: 200 nv: 200 EndPlot # USRBIN plot "Energy deposition density" Plot: TargEne Title: Energy deposition density Format: .eps Type: USRBIN LineType: Keys: 1 TitleOpts: font 'Times,18' XLabel: z [cm] YLabel: r [cm] CBLabel: GeV/cm3 cbround: 1 cbcpd: 3 zmax: 15 int: 0.412282247 lt.0: 1 lw.0: 1 ls.0: 0 xmin: 0 AutoAspect: 1 cbcolors: 30 errors: 0 log: 1 min: 8.45761991E-13 xrebin: 1 axes: Auto hist: 2D Projection proj: Y swap: 0 with.0: steps zrebin: 1 max: 0.702069342 yrebin: 1 geo: -Auto- axes.0: x1y1 ps.0: 1 datafile: ex4_usrbin_40 det: 1 cbpalette: FLUKA pt.0: 1 xmax: 10 EndPlot # USRBIN plot "Charged hadron fluence" Plot: TargChH Title: Charged hadron fluence Format: .eps Type: USRBIN LineType: Index: 1 Keys: 1 TitleOpts: font 'Times,18' tc lt 3 XLabel: z [cm] YLabel: r [cm] CBLabel: cm^{-2} per proton Commands: set term x11 enhanced cbround: 1 cbcpd: 3 zmax: 15 int: 21.1668219 lt.0: 1 lw.0: 1 ls.0: 0 xmin: 0 AutoAspect: 1 cbcolors: 30 errors: 0 log: 1 min: 2.48882827E-07 xrebin: 1 axes: Auto hist: 2D Projection proj: Y swap: 0 with.0: steps zrebin: 1 max: 32.509903 yrebin: 1 geo: -Auto- axes.0: x1y1 ps.0: 1 datafile: ex4_usrbin_40 det: 2 cbpalette: FLUKA pt.0: 1 xmax: 10 EndPlot # USRBIN plot "Neutron fluence" Plot: TargN Title: Neutron fluence Format: .eps Type: USRBIN LineType: Index: 2 Keys: 1 TitleOpts: font 'Times,18' tc rgb 'red' XLabel: z [cm] YLabel: r [cm] CBLabel: cm-2 per proton cbround: 1 cbcpd: 3 zmax: 15 int: 195.943334 lt.0: 1 lw.0: 1 ls.0: 0 xmin: 0 AutoAspect: 1 cbcolors: 30 errors: 0 log: 1 min: 0.00459370576 xrebin: 1 axes: Auto hist: 2D Projection proj: Y swap: 0 with.0: steps zrebin: 1 max: 8.41116714 yrebin: 1 geo: -Auto- axes.0: x1y1 ps.0: 1 datafile: ex4_usrbin_40 det: 3 cbpalette: FLUKA pt.0: 1 xmax: 10 EndPlot # USR-1D plot "Charged hadron differential fluence" Plot: SpChH Title: Charged hadron differential fluence Format: .eps Type: USR-1D LineType: Index: 3 Keys: 1 XLabel: E [GeV] YLabel: dN/d(logE) [cm-2 per primary] Commands: set key top left lw.1: 1 lw.0: 1 lw.3: 1 lw.2: 1 lw.5: 1 lw.4: 1 show.3: 1 show.2: 1 show.1: 1 show.0: 1 show.5: 1 show.4: 1 axes.5: x1y1 axes.4: x1y1 axes.3: x1y1 axes.2: x1y1 axes.1: x1y1 axes.0: x1y1 x2log: 0 ndetectors: 6 ymin: 1e-6 block.2: 0 block.3: 0 block.0: 0 block.1: 0 y2log: 0 block.4: 0 block.5: 0 key.4: 1 key.5: 0 key.2: 1 key.3: 0 key.0: 1 key.1: 0 file.2: ex4_usrbdx_50_tab.lis y.1: 2 y.2: 2 file.1: ex4_usrbdx_50_tab.lis ylog: 1 name.1: *Sp1ChH name.0: Sp1ChH name.3: * Sp2ChH name.2: Sp2ChH name.5: * Sp3ChH name.4: Sp3ChH det.4: 2 det.5: 2 AutoAspect: 1 det.0: 0 det.1: 0 det.2: 1 det.3: 1 xlog: 1 x.1: 2 x.0: 0 x.3: 2 x.2: 0 x.5: 2 x.4: 0 y2tics: 0 pt.2: 1 pt.3: 1 pt.0: 3 pt.1: 3 pt.4: 7 pt.5: 7 y.4: 2 y.5: 2 file.4: ex4_usrbdx_50_tab.lis file.5: ex4_usrbdx_50_tab.lis y.0: 2 file.3: ex4_usrbdx_50_tab.lis file.0: ex4_usrbdx_50_tab.lis y.3: 2 lt.4: 7 lt.5: 7 lt.2: 1 lt.3: 1 lt.0: 3 lt.1: 3 ls.5: 0 ls.4: 0 ls.1: 0 ls.0: 0 ls.3: 0 ls.2: 0 with.4: xyerrorbars with.5: steps with.0: xyerrorbars with.1: steps with.2: xyerrorbars with.3: steps x2tics: 0 ps.1: 1 ps.0: 1 ps.3: 1 ps.2: 1 ps.5: 1 ps.4: 1 EndPlot # USR-1D plot "Charged hadron double differential fluence" Plot: Sp2ChH-2D Title: Charged hadron double differential fluence Format: .eps Type: USR-1D LineType: Index: 4 Keys: 1 XLabel: E [GeV] YLabel: d2N/(dE dOmega) [cm-2 GeV-1 sr-1 per proton] xlog: 1 x.1: 4 lt.2: 3 ylog: 1 lt.0: 1 lt.1: 2 name.1: Ang 60-120 name.0: Ang 0-60 name.2: Ang 120-180 ls.1: 0 ls.0: 0 ls.2: 0 key.2: 1 AutoAspect: 1 det.0: 0 det.1: 1 det.2: 1 with.1: steps key.0: 1 block.2: 3 block.0: 1 block.1: 2 y2log: 0 ps.0: 1 lw.2: 1 show.2: 1 show.1: 1 show.0: 1 with.0: steps ndetectors: 3 with.2: steps key.1: 1 ps.2: 1 x2tics: 0 axes.2: x1y1 axes.1: x1y1 axes.0: x1y1 ps.1: 1 x.0: 4 x.2: 4 lw.1: 1 lw.0: 1 y2tics: 0 file.2: ex4_usrbdx_54_tab.lis pt.2: 1 pt.0: 1 pt.1: 1 y.2: 8 x2log: 0 y.0: 8 y.1: 8 file.0: ex4_usrbdx_54_tab.lis file.1: ex4_usrbdx_54_tab.lis EndPlot # USR-2D plot "Charged hadron double differential fluence" Plot: Sp2ChH-3D Title: Charged hadron double differential fluence Format: .eps Type: USR-2D LineType: Index: 5 Keys: 1 XLabel: Energy [GeV] YLabel: Solid angle [sr] CBLabel: d2N/(dOmega dE) [cm-2 GeV-1 sr-1 per proton] datafile: ex4_usrbdx_54_tab.lis cbcpd: 3 zmax: 0.0002 log: 0 xlog: 1 det: 1 ylog: 0 cbround: 1 cbpalette: gnuplot zlog: 0 AutoAspect: 1 cbcolors: 30 EndPlot # USR-1D plot "Charged hadron differential fluence in lead target" Plot: TrChH Title: Charged hadron differential fluence in lead target Format: .eps Type: USR-1D LineType: Index: 6 Keys: 1 XLabel: Energy [GeV] YLabel: dN/d(logE) [cm-2 per proton] Commands: set key top left xlog: 1 ylog: 1 lt.0: 1 name.0: TrChH ls.0: 0 AutoAspect: 1 det.0: 0 block.0: 0 y2log: 0 show.0: 1 with.0: yerrorbars ndetectors: 1 key.0: 1 x.0: 0 x2tics: 0 axes.0: x1y1 ps.0: 1 lw.0: 1 y2tics: 0 pt.0: 1 x2log: 0 y.0: 2 file.0: ex4_usrtrack_55_tab.lis EndPlot # USR-1D plot "Angular distribution of charged pions exiting lead target" Plot: YieAng Title: Angular distribution of charged pions exiting lead target Format: .eps Type: USR-1D LineType: Index: 7 Keys: 1 XLabel: Lab polar angle [rad] YLabel: d2N/(dOmega dE) [GeV-1 sr-1 per proton] xlog: 0 ylog: 1 lt.0: 1 name.0: YieAng ls.0: 0 AutoAspect: 1 det.0: 0 block.0: 0 y2log: 0 show.0: 1 with.0: yerrorbars ndetectors: 1 key.0: 1 ps.0: 1 x2tics: 0 axes.0: x1y1 x.0: 1 lw.0: 1 y2tics: 0 pt.0: 1 xmax: 3.14 x2log: 0 y.0: 0 file.0: ex4_usryield_57_tab.lis EndPlot # RESNUCLE plot "Residual nuclei in lead target" Plot: activ Title: Residual nuclei in lead target Format: .eps Type: RESNUCLE LineType: Index: 8 Keys: 1 XLabel: Atomic Charge [Z] YLabel: Atomic Mass [A] CBLabel: [nuclei per proton] plot: Z/A datafile: ex4_resnuclei_60 cbcpd: 3 log: 1 xlog: 0 det: 1 cbpalette: FLUKA cbround: 1 ylog: 0 AutoAspect: 1 cbcolors: 30 EndPlot