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 Environment variable "G4FORCE_RUN_MANAGER_TYPE" enabled with value == Serial. Forcing G4RunManager type...
 
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         !!! WARNING - FPE detection is activated !!!
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           ################################
           !!! G4Backtrace is activated !!!
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 **************************************************************
  Geant4 version Name: geant4-11-03-ref-06    (30-June-2025)
                        Copyright : Geant4 Collaboration
                       References : NIM A 506 (2003), 250-303
                                  : IEEE-TNS 53 (2006), 270-278
                                  : NIM A 835 (2016), 186-225
                              WWW : http://geant4.org/
 **************************************************************
 
 <<< Geant4 Physics List simulation engine: FTFP_BERT
 
 Visualization Manager instantiating with verbosity "warnings (3)"...
 Visualization Manager initialising...
 Registering graphics systems...
 
 You have successfully registered the following graphics systems.
 Registered graphics systems are:
   ASCIITree (ATree)
   DAWNFILE (DAWNFILE)
   G4HepRepFile (HepRepFile)
   RayTracer (RT)
   VRML2FILE (VRML2FILE)
   gMocrenFile (gMocrenFile)
   TOOLSSG_OFFSCREEN (TSG_OFFSCREEN, TSG_FILE)
   OpenGLImmediateQt (OGLIQt, OGLI)
   OpenGLStoredQt (OGLSQt, OGLS)
   OpenGLImmediateXm (OGLIXm, OGLIQt_FALLBACK)
   OpenGLStoredXm (OGLSXm, OGLSQt_FALLBACK)
   OpenGLImmediateX (OGLIX, OGLIQt_FALLBACK, OGLIXm_FALLBACK)
   OpenGLStoredX (OGLSX, OGLSQt_FALLBACK, OGLSXm_FALLBACK)
   RayTracerX (RTX)
   RayTracerQt (RTQt)
   Qt3D (Qt3D)
   TOOLSSG_X11_GLES (TSG_X11_GLES, TSGX11, TSG_XT_GLES_FALLBACK)
   TOOLSSG_X11_ZB (TSG_X11_ZB, TSGX11ZB)
   TOOLSSG_XT_GLES (TSG_XT_GLES, TSGXt, TSG_QT_GLES_FALLBACK)
   TOOLSSG_XT_ZB (TSG_XT_ZB, TSGXtZB)
   TOOLSSG_QT_GLES (TSG_QT_GLES, TSGQt, TSG, OGL)
   TOOLSSG_QT_ZB (TSG_QT_ZB, TSGQtZB)
 You may choose a graphics system (driver) with a parameter of
 the command "/vis/open" or "/vis/sceneHandler/create",
 or you may omit the driver parameter and choose at run time:
 - by argument in the construction of G4VisExecutive
 - by environment variable "G4VIS_DEFAULT_DRIVER"
 - by entry in "~/.g4session"
 - by build flags.
 - Note: This feature is not allowed in batch mode.
 For further information see "examples/basic/B1/exampleB1.cc"
 and "vis.mac".
 
 Registering model factories...
 
 You have successfully registered the following model factories.
 Registered model factories:
   generic
   drawByAttribute
   drawByCharge
   drawByOriginVolume
   drawByParticleID
   drawByEncounteredVolume
 
 Registered models:
   None
 
 Registered filter factories:
   attributeFilter
   chargeFilter
   originVolumeFilter
   particleFilter
   encounteredVolumeFilter
 
 Registered filters:
   None
 
 You have successfully registered the following user vis actions.
 Run Duration User Vis Actions: none
 End of Event User Vis Actions: none
 End of Run User Vis Actions: none
 
 Some /vis commands (optionally) take a string to specify colour.
 "/vis/list" to see available colours.
 
 The materials defined are : 
 
 
 ***** Table : Nb of materials = 5 *****
 
  Material:   G4_AIR    density:  1.205 mg/cm3  RadL: 303.921 m    Nucl.Int.Length: 710.095 m  
                        Imean:  85.700 eV   temperature: 293.15 K  pressure:   1.00 atm
 
    --->  Element: C (C)   Z =  6.0   N =    12   A = 12.011 g/mole
          --->  Isotope:   C12   Z =  6   N =  12   A =  12.00 g/mole   abundance: 98.930 %
          --->  Isotope:   C13   Z =  6   N =  13   A =  13.00 g/mole   abundance:  1.070 %
           ElmMassFraction:   0.01 %  ElmAbundance   0.02 % 
 
    --->  Element: N (N)   Z =  7.0   N =    14   A = 14.007 g/mole
          --->  Isotope:   N14   Z =  7   N =  14   A =  14.00 g/mole   abundance: 99.632 %
          --->  Isotope:   N15   Z =  7   N =  15   A =  15.00 g/mole   abundance:  0.368 %
           ElmMassFraction:  75.53 %  ElmAbundance  78.44 % 
 
    --->  Element: O (O)   Z =  8.0   N =    16   A = 15.999 g/mole
          --->  Isotope:   O16   Z =  8   N =  16   A =  15.99 g/mole   abundance: 99.757 %
          --->  Isotope:   O17   Z =  8   N =  17   A =  17.00 g/mole   abundance:  0.038 %
          --->  Isotope:   O18   Z =  8   N =  18   A =  18.00 g/mole   abundance:  0.205 %
           ElmMassFraction:  23.18 %  ElmAbundance  21.07 % 
 
    --->  Element: Ar (Ar)   Z = 18.0   N =    40   A = 39.948 g/mole
          --->  Isotope:  Ar36   Z = 18   N =  36   A =  35.97 g/mole   abundance:  0.337 %
          --->  Isotope:  Ar38   Z = 18   N =  38   A =  37.96 g/mole   abundance:  0.063 %
          --->  Isotope:  Ar40   Z = 18   N =  40   A =  39.96 g/mole   abundance: 99.600 %
           ElmMassFraction:   1.28 %  ElmAbundance   0.47 % 
 
 
  Material:    G4_Ar    density:  1.662 mg/cm3  RadL: 117.621 m    Nucl.Int.Length: 719.888 m  
                        Imean: 188.000 eV   temperature: 293.15 K  pressure:   1.00 atm
 
    --->  Element: Ar (Ar)   Z = 18.0   N =    40   A = 39.948 g/mole
          --->  Isotope:  Ar36   Z = 18   N =  36   A =  35.97 g/mole   abundance:  0.337 %
          --->  Isotope:  Ar38   Z = 18   N =  38   A =  37.96 g/mole   abundance:  0.063 %
          --->  Isotope:  Ar40   Z = 18   N =  40   A =  39.96 g/mole   abundance: 99.600 %
           ElmMassFraction: 100.00 %  ElmAbundance 100.00 % 
 
 
  Material: G4_PLASTIC_SC_VINYLTOLUENE    density:  1.032 g/cm3   RadL:  42.544 cm   Nucl.Int.Length:  69.969 cm 
                        Imean:  64.700 eV   temperature: 293.15 K  pressure:   1.00 atm
 
    --->  Element: C (C)   Z =  6.0   N =    12   A = 12.011 g/mole
          --->  Isotope:   C12   Z =  6   N =  12   A =  12.00 g/mole   abundance: 98.930 %
          --->  Isotope:   C13   Z =  6   N =  13   A =  13.00 g/mole   abundance:  1.070 %
           ElmMassFraction:  91.47 %  ElmAbundance  47.37 % 
 
    --->  Element: H (H)   Z =  1.0   N =     1   A =  1.008 g/mole
          --->  Isotope:    H1   Z =  1   N =   1   A =   1.01 g/mole   abundance: 99.989 %
          --->  Isotope:    H2   Z =  1   N =   2   A =   2.01 g/mole   abundance:  0.011 %
           ElmMassFraction:   8.53 %  ElmAbundance  52.63 % 
 
 
  Material: G4_CESIUM_IODIDE    density:  4.510 g/cm3   RadL:   1.860 cm   Nucl.Int.Length:  39.306 cm 
                        Imean: 553.100 eV   temperature: 293.15 K  pressure:   1.00 atm
 
    --->  Element: Cs (Cs)   Z = 55.0   N =   133   A = 132.905 g/mole
          --->  Isotope: Cs133   Z = 55   N = 133   A = 132.91 g/mole   abundance: 100.000 %
           ElmMassFraction:  51.15 %  ElmAbundance  50.00 % 
 
    --->  Element: I (I)   Z = 53.0   N =   127   A = 126.904 g/mole
          --->  Isotope:  I127   Z = 53   N = 127   A = 126.90 g/mole   abundance: 100.000 %
           ElmMassFraction:  48.85 %  ElmAbundance  50.00 % 
 
 
  Material:    G4_Pb    density: 11.350 g/cm3   RadL:   5.613 mm   Nucl.Int.Length:  18.248 cm 
                        Imean: 823.000 eV   temperature: 293.15 K  pressure:   1.00 atm
 
    --->  Element: Pb (Pb)   Z = 82.0   N =   207   A = 207.217 g/mole
          --->  Isotope: Pb204   Z = 82   N = 204   A = 203.97 g/mole   abundance:  1.400 %
          --->  Isotope: Pb206   Z = 82   N = 206   A = 205.97 g/mole   abundance: 24.100 %
          --->  Isotope: Pb207   Z = 82   N = 207   A = 206.98 g/mole   abundance: 22.100 %
          --->  Isotope: Pb208   Z = 82   N = 208   A = 207.98 g/mole   abundance: 52.400 %
           ElmMassFraction: 100.00 %  ElmAbundance 100.00 % 
 
 
 
 Checking overlaps for volume magneticPhysical:0 (G4Tubs) ... OK! 
 Checking overlaps for volume firstArmPhysical:0 (G4Box) ... OK! 
 Checking overlaps for volume fSecondArmPhys:0 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:0 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:1 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:2 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:3 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:4 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:5 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:6 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:7 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:8 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:9 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:10 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:11 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:12 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:13 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope1Physical:14 (G4Box) ... OK! 
 Checking overlaps for volume chamber1Physical:0 (G4Box) ... OK! 
 Checking overlaps for volume chamber1Physical:1 (G4Box) ... OK! 
 Checking overlaps for volume chamber1Physical:2 (G4Box) ... OK! 
 Checking overlaps for volume chamber1Physical:3 (G4Box) ... OK! 
 Checking overlaps for volume chamber1Physical:4 (G4Box) ... OK! 
 Checking overlaps for volume wirePlane1Physical:0 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:0 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:1 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:2 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:3 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:4 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:5 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:6 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:7 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:8 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:9 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:10 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:11 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:12 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:13 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:14 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:15 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:16 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:17 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:18 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:19 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:20 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:21 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:22 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:23 (G4Box) ... OK! 
 Checking overlaps for volume hodoscope2Physical:24 (G4Box) ... OK! 
 Checking overlaps for volume chamber2Physical:0 (G4Box) ... OK! 
 Checking overlaps for volume chamber2Physical:1 (G4Box) ... OK! 
 Checking overlaps for volume chamber2Physical:2 (G4Box) ... OK! 
 Checking overlaps for volume chamber2Physical:3 (G4Box) ... OK! 
 Checking overlaps for volume chamber2Physical:4 (G4Box) ... OK! 
 Checking overlaps for volume wirePlane2Physical:0 (G4Box) ... OK! 
 Checking overlaps for volume EMcalorimeterPhysical:0 (G4Box) ... OK! 
 Checking overlaps for volume HadCalorimeterPhysical:0 (G4Box) ... OK! 
 Checking overlaps for volume HadCalScintiPhysical:0 (G4Box) ... OK! 
  G4ChordFinder: stepperDriverId: 2
 
  hInelastic FTFP_BERT : threshold between BERT and FTFP is over the interval 
  for pions :   3 to 6 GeV
  for kaons :   3 to 6 GeV
  for proton :  3 to 6 GeV
  for neutron : 3 to 6 GeV
 
 ### Adding tracking cuts for neutron  TimeCut(ns)= 10000  KinEnergyCut(MeV)= 0
 =======================================================================
 ======                 Electromagnetic Physics Parameters      ========
 =======================================================================
 LPM effect enabled                                 1
 Enable creation and use of sampling tables         0
 Apply cuts on all EM processes                     0
 Use combined TransportationWithMsc                 Disabled
 Use general process                                1
 Enable linear polarisation for gamma               0
 Enable photoeffect sampling below K-shell          1
 Enable sampling of quantum entanglement            0
 X-section factor for integral approach             0.8
 Min kinetic energy for tables                      100 eV 
 Max kinetic energy for tables                      100 TeV
 Number of bins per decade of a table               7
 Verbose level                                      1
 Verbose level for worker thread                    0
 Bremsstrahlung energy threshold above which 
   primary e+- is added to the list of secondary    100 TeV
 Bremsstrahlung energy threshold above which primary
   muon/hadron is added to the list of secondary    100 TeV
 Positron annihilation at rest model                SimplePositronium
 Enable 3 gamma annihilation on fly                 0
 Lowest triplet kinetic energy                      1 MeV
 Enable sampling of gamma linear polarisation       0
 5D gamma conversion model type                     0
 5D gamma conversion model on isolated ion          0
 Use RiGe 5D e+e- pair production model by muons    0
 Livermore data directory                           epics_2017
 =======================================================================
 ======                 Ionisation Parameters                   ========
 =======================================================================
 Step function for e+-                              (0.2, 1 mm)
 Step function for muons/hadrons                    (0.2, 0.1 mm)
 Step function for light ions                       (0.2, 0.1 mm)
 Step function for general ions                     (0.2, 0.1 mm)
 Lowest e+e- kinetic energy                         1 keV
 Lowest muon/hadron kinetic energy                  1 keV
 Use ICRU90 data                                    0
 Fluctuations of dE/dx are enabled                  1
 Type of fluctuation model for leptons and hadrons  Urban
 Use built-in Birks satuaration                     0
 Build CSDA range enabled                           0
 Use cut as a final range enabled                   0
 Enable angular generator interface                 0
 Max kinetic energy for CSDA tables                 1 GeV
 Max kinetic energy for NIEL computation            0 eV 
 Linear loss limit                                  0.01
 Read data from file for e+e- pair production by mu 0
 =======================================================================
 ======                 Multiple Scattering Parameters          ========
 =======================================================================
 Type of msc step limit algorithm for e+-           1
 Type of msc step limit algorithm for muons/hadrons 0
 Msc lateral displacement for e+- enabled           1
 Msc lateral displacement for muons and hadrons     0
 Urban msc model lateral displacement alg96         1
 Range factor for msc step limit for e+-            0.04
 Range factor for msc step limit for muons/hadrons  0.2
 Geometry factor for msc step limitation of e+-     2.5
 Safety factor for msc step limit for e+-           0.6
 Skin parameter for msc step limitation of e+-      1
 Lambda limit for msc step limit for e+-            1 mm
 Use Mott correction for e- scattering              0
 Factor used for dynamic computation of angular 
   limit between single and multiple scattering     1
 Fixed angular limit between single 
   and multiple scattering                          3.1416 rad
 Upper energy limit for e+- multiple scattering     100 MeV
 Type of electron single scattering model           0
 Type of nuclear form-factor                        1
 Screening factor                                   1
 =======================================================================
 
 phot:  for gamma SubType=12 BuildTable=0
       LambdaPrime table from 200 keV to 100 TeV in 61 bins 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
  LivermorePhElectric : Emin=    0 eV  Emax=  100 TeV  SauterGavrila Fluo
 
 compt:  for gamma SubType=13 BuildTable=1
       Lambda table from 100 eV  to 1 MeV, 7 bins/decade, spline: 1
       LambdaPrime table from 1 MeV to 100 TeV in 56 bins 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
        Klein-Nishina : Emin=    0 eV  Emax=  100 TeV
 
 conv:  for gamma SubType=14 BuildTable=1
       Lambda table from 1.022 MeV to 100 TeV, 18 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
      BetheHeitlerLPM : Emin=    0 eV  Emax=  100 TeV  ModifiedTsai
 
 Rayl:  for gamma SubType=11 BuildTable=1
       Lambda table from 100 eV  to 150 keV, 7 bins/decade, spline: 0
       LambdaPrime table from 150 keV to 100 TeV in 62 bins 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
    LivermoreRayleigh : Emin=    0 eV  Emax=  100 TeV  CullenGenerator
 
 msc:  for e-  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             UrbanMsc : Emin=    0 eV  Emax=  100 MeV Nbins=42 100 eV  - 100 MeV
           StepLim=UseSafety Rfact=0.04 Gfact=2.5 Sfact=0.6 DispFlag:1 Skin=1 Llim=1 mm
         WentzelVIUni : Emin=  100 MeV Emax=  100 TeV Nbins=42 100 MeV - 100 TeV
           StepLim=UseSafety Rfact=0.04 Gfact=2.5 Sfact=0.6 DispFlag:1 Skin=1 Llim=1 mm
 
 eIoni:  for e-  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         MollerBhabha : Emin=    0 eV  Emax=  100 TeV
 
 eBrem:  for e-  XStype:4  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       LPM flag: 1 for E > 1 GeV,  VertexHighEnergyTh(GeV)= 100000
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
              eBremSB : Emin=    0 eV  Emax=    1 GeV  ModifiedTsai
             eBremLPM : Emin=    1 GeV Emax=  100 TeV  ModifiedTsai
 
 CoulombScat:  for e- XStype:1 SubType=1 BuildTable=1
       Lambda table from 100 MeV to 100 TeV, 7 bins/decade, spline: 0
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=  100 MeV Emax=  100 TeV
 
 msc:  for e+  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             UrbanMsc : Emin=    0 eV  Emax=  100 MeV Nbins=42 100 eV  - 100 MeV
           StepLim=UseSafety Rfact=0.04 Gfact=2.5 Sfact=0.6 DispFlag:1 Skin=1 Llim=1 mm
         WentzelVIUni : Emin=  100 MeV Emax=  100 TeV Nbins=42 100 MeV - 100 TeV
           StepLim=UseSafety Rfact=0.04 Gfact=2.5 Sfact=0.6 DispFlag:1 Skin=1 Llim=1 mm
 
 eIoni:  for e+  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         MollerBhabha : Emin=    0 eV  Emax=  100 TeV
 
 eBrem:  for e+  XStype:4  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       LPM flag: 1 for E > 1 GeV,  VertexHighEnergyTh(GeV)= 100000
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
              eBremSB : Emin=    0 eV  Emax=    1 GeV  ModifiedTsai
             eBremLPM : Emin=    1 GeV Emax=  100 TeV  ModifiedTsai
 
 annihil:  for e+ XStype:2 SubType=5 AtRestModel:Simple BuildTable=0
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             eplus2gg : Emin=    0 eV  Emax=  100 TeV
 
 CoulombScat:  for e+ XStype:1 SubType=1 BuildTable=1
       Lambda table from 100 MeV to 100 TeV, 7 bins/decade, spline: 0
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=  100 MeV Emax=  100 TeV
 
 msc:  for proton  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 hIoni:  for proton  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                Bragg : Emin=    0 eV  Emax=    2 MeV
           BetheBloch : Emin=    2 MeV Emax=  100 TeV
 
 hBrems:  for proton  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 hPairProd:  for proton  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 17x1001 from 7.50618 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for proton XStype:1 SubType=1 BuildTable=1
       Lambda table from threshold  to 100 TeV, 7 bins/decade, spline: 0
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 msc:  for GenericIon  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             UrbanMsc : Emin=    0 eV  Emax=  100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 ionIoni:  for GenericIon  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.02
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                Bragg : Emin=    0 eV  Emax=    2 MeV
           BetheBloch : Emin=    2 MeV Emax=  100 TeV
 
 msc:  for alpha  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             UrbanMsc : Emin=    0 eV  Emax=  100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 ionIoni:  for alpha  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.02
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             BraggIon : Emin=    0 eV  Emax=7.9452 MeV
           BetheBloch : Emin=7.9452 MeV Emax=  100 TeV
 
 msc:  for anti_proton  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 hIoni:  for anti_proton  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             ICRU73QO : Emin=    0 eV  Emax=    2 MeV
           BetheBloch : Emin=    2 MeV Emax=  100 TeV
 
 hBrems:  for anti_proton  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 hPairProd:  for anti_proton  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 17x1001 from 7.50618 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for anti_proton XStype:1 SubType=1 BuildTable=1
       Lambda table from threshold  to 100 TeV, 7 bins/decade, spline: 0
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 msc:  for kaon+  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 hIoni:  for kaon+  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                Bragg : Emin=    0 eV  Emax=1.05231 MeV
           BetheBloch : Emin=1.05231 MeV Emax=  100 TeV
 
 hBrems:  for kaon+  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 hPairProd:  for kaon+  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 18x1001 from 3.94942 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for kaon+ XStype:1 SubType=1 BuildTable=1
       Lambda table from threshold  to 100 TeV, 7 bins/decade, spline: 0
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 msc:  for kaon-  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 hIoni:  for kaon-  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             ICRU73QO : Emin=    0 eV  Emax=1.05231 MeV
           BetheBloch : Emin=1.05231 MeV Emax=  100 TeV
 
 hBrems:  for kaon-  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 hPairProd:  for kaon-  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 18x1001 from 3.94942 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for kaon- XStype:1 SubType=1 BuildTable=1
       Used Lambda table of kaon+
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 msc:  for mu+  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 muIoni:  for mu+  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                Bragg : Emin=    0 eV  Emax=  200 keV
         MuBetheBloch : Emin=  200 keV Emax=  100 TeV
 
 muBrems:  for mu+  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
               MuBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 muPairProd:  for mu+  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 21x1001 from 0.85 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
           muPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for mu+ XStype:1 SubType=1 BuildTable=1
       Lambda table from threshold  to 100 TeV, 7 bins/decade, spline: 0
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 msc:  for mu-  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 muIoni:  for mu-  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             ICRU73QO : Emin=    0 eV  Emax=  200 keV
         MuBetheBloch : Emin=  200 keV Emax=  100 TeV
 
 muBrems:  for mu-  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
               MuBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 muPairProd:  for mu-  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 21x1001 from 0.85 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
           muPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for mu- XStype:1 SubType=1 BuildTable=1
       Used Lambda table of mu+
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 msc:  for pi+  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 hIoni:  for pi+  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                Bragg : Emin=    0 eV  Emax=297.505 keV
           BetheBloch : Emin=297.505 keV Emax=  100 TeV
 
 hBrems:  for pi+  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 hPairProd:  for pi+  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 20x1001 from 1.11656 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for pi+ XStype:1 SubType=1 BuildTable=1
       Lambda table from threshold  to 100 TeV, 7 bins/decade, spline: 0
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 msc:  for pi-  SubType= 10
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  100 TeV Nbins=84 100 eV  - 100 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5 Sfact=0.6 DispFlag:0 Skin=1 Llim=1 mm
 
 hIoni:  for pi-  XStype:3  SubType=2
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       StepFunction=(0.2, 0.1 mm), integ: 3, fluct: 1, linLossLim= 0.01
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             ICRU73QO : Emin=    0 eV  Emax=297.505 keV
           BetheBloch : Emin=297.505 keV Emax=  100 TeV
 
 hBrems:  for pi-  XStype:1  SubType=3
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 hPairProd:  for pi-  XStype:1  SubType=4
       dE/dx and range tables from 100 eV  to 100 TeV in 84 bins
       Lambda tables from threshold to 100 TeV, 7 bins/decade, spline: 1
       Sampling table 20x1001 from 1.11656 GeV to 100 TeV 
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  100 TeV  ModifiedMephi
 
 CoulombScat:  for pi- XStype:1 SubType=1 BuildTable=1
       Used Lambda table of pi+
       ThetaMin(p) < Theta(degree) < 180, pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  100 TeV
 
 ====================================================================
                   HADRONIC PROCESSES SUMMARY (verbose level 1)
 -----------------------------------------------------------------------
                            Hadronic Processes for neutron
   Process: hadElastic
         Model:             hElasticCHIPS: 0 eV  ---> 100 TeV
      Cr_sctns:        G4NeutronElasticXS: 0 eV  ---> 100 TeV
   Process: neutronInelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:      G4NeutronInelasticXS: 0 eV  ---> 100 TeV
   Process: nCapture
         Model:               nRadCapture: 0 eV  ---> 100 TeV
      Cr_sctns:        G4NeutronCaptureXS: 0 eV  ---> 100 TeV
   Process: nKiller
 -----------------------------------------------------------------------
                            Hadronic Processes for B-
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: B-Inelastic
         Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for D-
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: D-Inelastic
         Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for GenericIon
   Process: ionInelastic
         Model:  Binary Light Ion Cascade: 0 eV /n ---> 6 GeV/n
         Model:                      FTFP: 3 GeV/n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
 -----------------------------------------------------------------------
                            Hadronic Processes for He3
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
   Process: He3Inelastic
         Model:  Binary Light Ion Cascade: 0 eV /n ---> 6 GeV/n
         Model:                      FTFP: 3 GeV/n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
 -----------------------------------------------------------------------
                            Hadronic Processes for alpha
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
   Process: alphaInelastic
         Model:  Binary Light Ion Cascade: 0 eV /n ---> 6 GeV/n
         Model:                      FTFP: 3 GeV/n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
 -----------------------------------------------------------------------
                            Hadronic Processes for anti_He3
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100.1 MeV/n
         Model:              AntiAElastic: 100 MeV/n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: anti_He3Inelastic
         Model:                      FTFP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: hFritiofCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for anti_alpha
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100.1 MeV/n
         Model:              AntiAElastic: 100 MeV/n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: anti_alphaInelastic
         Model:                      FTFP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: hFritiofCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for anti_deuteron
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100.1 MeV/n
         Model:              AntiAElastic: 100 MeV/n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: anti_deuteronInelastic
         Model:                      FTFP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: hFritiofCaptureAtRest
 -------------------------------------------------------------------------
                            Hadronic Processes for anti_hypertriton
   Process: hFritiofCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for anti_lambda
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: anti_lambdaInelastic
         Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: hFritiofCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for anti_neutron
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100.1 MeV
         Model:              AntiAElastic: 100 MeV ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: anti_neutronInelastic
         Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: hFritiofCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for anti_proton
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100.1 MeV
         Model:              AntiAElastic: 100 MeV ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: anti_protonInelastic
         Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: hFritiofCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for anti_triton
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100.1 MeV/n
         Model:              AntiAElastic: 100 MeV/n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: anti_tritonInelastic
         Model:                      FTFP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:              AntiAGlauber: 0 eV  ---> 25.6 PeV
   Process: hFritiofCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for deuteron
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
   Process: dInelastic
         Model:  Binary Light Ion Cascade: 0 eV /n ---> 6 GeV/n
         Model:                      FTFP: 3 GeV/n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
 -----------------------------------------------------------------------
                            Hadronic Processes for e+
   Process: positronNuclear
         Model:   G4ElectroVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:          ElectroNuclearXS: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for e-
   Process: electronNuclear
         Model:   G4ElectroVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:          ElectroNuclearXS: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for gamma
   Process: photonNuclear
         Model:               GammaNPreco: 0 eV  ---> 200 MeV
         Model:            BertiniCascade: 199 MeV ---> 6 GeV
         Model:           TheoFSGenerator: 3 GeV ---> 100 TeV
      Cr_sctns:            GammaNuclearXS: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for kaon+
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: kaon+Inelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for kaon-
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: kaon-Inelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: hBertiniCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for lambda
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: lambdaInelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for mu+
   Process: muonNuclear
         Model:      G4MuonVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:     KokoulinMuonNuclearXS: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for mu-
   Process: muonNuclear
         Model:      G4MuonVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:     KokoulinMuonNuclearXS: 0 eV  ---> 100 TeV
   Process: muMinusCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for pi+
   Process: hadElastic
         Model:           hElasticGlauber: 0 eV  ---> 100 TeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 eV  ---> 100 TeV
   Process: pi+Inelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for pi-
   Process: hadElastic
         Model:           hElasticGlauber: 0 eV  ---> 100 TeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 eV  ---> 100 TeV
   Process: pi-Inelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 eV  ---> 100 TeV
   Process: hBertiniCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for proton
   Process: hadElastic
         Model:             hElasticCHIPS: 0 eV  ---> 100 TeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 eV  ---> 100 TeV
   Process: protonInelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 eV  ---> 100 TeV
 -----------------------------------------------------------------------
                            Hadronic Processes for sigma-
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: sigma-Inelastic
         Model:                      FTFP: 3 GeV ---> 100 TeV
         Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:            Glauber-Gribov: 0 eV  ---> 100 TeV
   Process: hBertiniCaptureAtRest
 -----------------------------------------------------------------------
                            Hadronic Processes for triton
   Process: hadElastic
         Model:              hElasticLHEP: 0 eV /n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
   Process: tInelastic
         Model:  Binary Light Ion Cascade: 0 eV /n ---> 6 GeV/n
         Model:                      FTFP: 3 GeV/n ---> 100 TeV/n
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV  ---> 25.6 PeV
 =======================================================================
 ======       Geant4 Native Pre-compound Model Parameters       ========
 =======================================================================
 Type of pre-compound model                          0
 Type of pre-compound inverse x-section              1
 Pre-compound model active                           1
 Pre-compound excitation low energy                  100 keV
 Pre-compound excitation high energy                 30 MeV
 Angular generator for pre-compound model            1
 Use NeverGoBack option for pre-compound model       0
 Use SoftCutOff option for pre-compound model        0
 Use CEM transitions for pre-compound model          1
 Use GNASH transitions for pre-compound model        0
 Use HETC submodel for pre-compound model            0
 =======================================================================
 ======       Nuclear De-excitation Module Parameters           ========
 =======================================================================
 Type of de-excitation inverse x-section             3
 Type of de-excitation factory                       Evaporation+GEM
 Number of de-excitation channels                    68
 Type of Fermi BreakUp model                         ModelVI
 Min excitation energy                               10 eV 
 Min energy per nucleon for multifragmentation       200 GeV
 Limit excitation energy for Fermi BreakUp           20 MeV
 Level density (1/MeV)                               0.075
 Use simple level density model                      1
 Use discrete excitation energy of the residual      0
 Time limit for long lived isomeres                  1 ns 
 Isomer production flag                              1
 Internal e- conversion flag                         1
 Store e- internal conversion data                   1
 Correlated gamma emission flag                      0
 Max 2J for sampling of angular correlations         10
 =======================================================================
 ### Run 0 starts.
 
 -------- WWWW ------- G4Exception-START -------- WWWW -------
 *** G4Exception : Analysis_W001
       issued by : G4RootNtupleFileManager::SetNtupleMergingMode
 Merging ntuples is not applicable in sequential application.
 Setting was ignored.
 *** This is just a warning message. ***
 -------- WWWW -------- G4Exception-END --------- WWWW -------
 
 ... set ntuple merging row mode : row-wise - done
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 -------- WWWW ------- G4Exception-START -------- WWWW -------
 *** G4Exception : GeomNav1002
       issued by : G4Navigator::ComputeStep()
 Stuck Track: potential geometry or navigation problem.
   Track stuck, not moving for 10 steps.
   Current  phys volume: 'worldPhysical'
    - at position : (-93.4789867633268,-207.2957634844161,-995.6212528033448)
      in direction: (0.8655763250546924,-0.3861385597592805,0.3188646079009742)
     (local position: (-93.4789867633268,-207.2957634844161,-995.6212528033448))
     (local direction: (0.8655763250546924,-0.3861385597592805,0.3188646079009742)).
   Previous phys volume: 'magneticPhysical'
 
   Likely geometry overlap - else navigation problem !
    *** Trying to get *unstuck* using a push - expanding step to 1e-07 (mm) ...       Potential overlap in geometry !
 
 *** This is just a warning message. ***
 -------- WWWW -------- G4Exception-END --------- WWWW -------
 
 
 -------- WWWW ------- G4Exception-START -------- WWWW -------
 *** G4Exception : GeomNav1002
       issued by : G4Navigator::ComputeStep()
 Stuck Track: potential geometry or navigation problem.
   Track stuck, not moving for 10 steps.
   Current  phys volume: 'worldPhysical'
    - at position : (932.8773617475969,176.0352840373253,-360.1941531158485)
      in direction: (-0.5535649138060351,-0.624529714538789,0.5509342264381619)
     (local position: (932.8773617475969,176.0352840373253,-360.1941531158485))
     (local direction: (-0.5535649138060351,-0.624529714538789,0.5509342264381619)).
   Previous phys volume: 'magneticPhysical'
 
   Likely geometry overlap - else navigation problem !
    *** Trying to get *unstuck* using a push - expanding step to 1e-07 (mm) ...       Potential overlap in geometry !
 
 *** This is just a warning message. ***
 -------- WWWW -------- G4Exception-END --------- WWWW -------
 
 
 >>> Event 0 >>> Simulation truth : proton (0,0,100000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 4.9870027260872 (nsec)
 Hodoscope 2 has 0 hits.
 Drift Chamber 1 has 51 hits.
   Layer[0] : time 6.6726366536164 (nsec) --- local (x,y) -2.5592609162311, -15.366086931864
   Layer[0] : time 6.6724236928704 (nsec) --- local (x,y) -13.252741130967, 11.517593665723
   Layer[0] : time 6.7007926142258 (nsec) --- local (x,y) 24.733618278178, 72.678472549115
   Layer[0] : time 6.6746217962924 (nsec) --- local (x,y) -10.856958054228, -17.591801932068
   Layer[0] : time 6.6729939416766 (nsec) --- local (x,y) -19.13226167612, 4.9845075397205
   Layer[0] : time 6.6754097103601 (nsec) --- local (x,y) 26.242284041766, -24.357217147944
   Layer[0] : time 6.6750125458016 (nsec) --- local (x,y) 22.911172006558, -25.223685630669
   Layer[0] : time 6.9180917033336 (nsec) --- local (x,y) -142.241020449, -141.67661715218
   Layer[0] : time 6.6942245204157 (nsec) --- local (x,y) -17.726870306516, -60.833491175935
   Layer[0] : time 6.7004352472893 (nsec) --- local (x,y) -67.487247150994, -18.820472902512
   Layer[0] : time 6.6953690714901 (nsec) --- local (x,y) 71.247378280176, 21.920382333816
   Layer[1] : time 8.3419186330811 (nsec) --- local (x,y) -5.0758291542458, -30.66913938568
   Layer[1] : time 8.3414920793223 (nsec) --- local (x,y) -26.410372078996, 22.970922327271
   Layer[1] : time 8.3980366101286 (nsec) --- local (x,y) 49.313731138956, 144.84493571664
   Layer[1] : time 8.3458669056908 (nsec) --- local (x,y) -21.562673139778, -35.075001757106
   Layer[1] : time 8.3426244389661 (nsec) --- local (x,y) -38.115288490082, 9.9168301942411
   Layer[1] : time 8.3474498694801 (nsec) --- local (x,y) 52.420454193652, -48.466727546366
   Layer[1] : time 8.3466712304896 (nsec) --- local (x,y) 45.589572202984, -50.466836530195
   Layer[1] : time 8.8316328577637 (nsec) --- local (x,y) -283.61472272111, -282.73065609812
   Layer[1] : time 8.3848765916975 (nsec) --- local (x,y) -35.194284037678, -121.13036417112
   Layer[1] : time 8.3974696767814 (nsec) --- local (x,y) -134.75451128397, -37.830601986543
   Layer[1] : time 8.3872672377006 (nsec) --- local (x,y) 142.08622384053, 43.684495009609
   Layer[2] : time 10.01120046641 (nsec) --- local (x,y) -7.6036462676067, -45.968720085931
   Layer[2] : time 10.010556763973 (nsec) --- local (x,y) -39.539729594553, 34.408144178649
   Layer[2] : time 10.095292915606 (nsec) --- local (x,y) 73.895052126773, 217.03627609699
   Layer[2] : time 10.017126224372 (nsec) --- local (x,y) -32.279267292347, -52.671918180934
   Layer[2] : time 10.012256453752 (nsec) --- local (x,y) -57.104211515763, 14.872037581224
   Layer[2] : time 10.01934876643 (nsec) --- local (x,y) 79.541574624144, -70.570019485735
   Layer[2] : time 10.018398185961 (nsec) --- local (x,y) 68.340515654306, -76.048832065128
   Layer[2] : time 10.169779946179 (nsec) --- local (x,y) 87.275665508043, -76.534375555248
   Layer[2] : time 10.075587105815 (nsec) --- local (x,y) -52.627752362784, -181.57919947339
   Layer[2] : time 10.09460762109 (nsec) --- local (x,y) -202.25164001387, -56.827590434624
   Layer[2] : time 10.079014647828 (nsec) --- local (x,y) 212.61228754985, 65.414062061845
   Layer[3] : time 11.680478617544 (nsec) --- local (x,y) -10.134495089887, -61.231393302677
   Layer[3] : time 11.679618760077 (nsec) --- local (x,y) -52.646049823337, 45.836466065245
   Layer[3] : time 11.792560135288 (nsec) --- local (x,y) 98.450834098111, 289.25861006521
   Layer[3] : time 11.688388415213 (nsec) --- local (x,y) -43.027735964144, -70.272711541643
   Layer[3] : time 11.681890425067 (nsec) --- local (x,y) -76.100329932295, 19.858269607959
   Layer[3] : time 11.691242784977 (nsec) --- local (x,y) 106.75803275284, -92.52247950307
   Layer[3] : time 11.690084383572 (nsec) --- local (x,y) 90.894079412611, -101.56625210017
   Layer[3] : time 11.766287336562 (nsec) --- local (x,y) -70.102640466555, -241.98644995535
   Layer[3] : time 11.791908607627 (nsec) --- local (x,y) -270.13775244224, -75.710109890501
   Layer[3] : time 11.770687407826 (nsec) --- local (x,y) 282.94287471169, 87.253232699205
   Layer[4] : time 13.349768406156 (nsec) --- local (x,y) -12.771283564454, -76.589847137341
   Layer[4] : time 13.348677525801 (nsec) --- local (x,y) -65.776289109192, 57.194645543881
   Layer[4] : time 13.359657094717 (nsec) --- local (x,y) -53.847327735485, -87.88371633987
   Layer[4] : time 13.351517738492 (nsec) --- local (x,y) -95.065430554004, 24.760937847458
   Layer[4] : time 13.363134348319 (nsec) --- local (x,y) 133.64907128602, -114.85574398794
   Layer[4] : time 13.361875845908 (nsec) --- local (x,y) 113.76609958888, -127.41652908494
   Layer[4] : time 13.48928574668 (nsec) --- local (x,y) -338.13276988357, -94.791815345387
   Layer[4] : time 13.462382866226 (nsec) --- local (x,y) 353.30910692435, 109.12948864985
 Drift Chamber 2 has 0 hits.
 EM Calorimeter has 2 hits. Total Edep is 113.5754079415 (MeV)
 Hadron Calorimeter has 0 hits. Total Edep is 0 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 1 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : pi+ (-0,0,100000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 4.9867880803266 (nsec)
 Hodoscope 2 has 2 hits.
   Hodoscope[10] 42.694091772646 (nsec)
   Hodoscope[8] 1194.171013159 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 6.6709548376711 (nsec) --- local (x,y) -1.7855180970739e-05, -0.0066806958858486
   Layer[1] : time 8.3387769383477 (nsec) --- local (x,y) -0.0020780827213064, -0.01369127142353
   Layer[2] : time 10.006599039009 (nsec) --- local (x,y) -0.0040734380670606, -0.020314750255114
   Layer[3] : time 11.674421139682 (nsec) --- local (x,y) -0.0048780329760614, -0.027149975660794
   Layer[4] : time 13.342243240534 (nsec) --- local (x,y) -0.0040944354430806, -0.037247128745577
 Drift Chamber 2 has 5 hits.
   Layer[0] : time 34.366776879256 (nsec) --- local (x,y) -82.676693311204, -0.23851695604083
   Layer[1] : time 36.035511007098 (nsec) --- local (x,y) -99.214316539426, -0.25873430339572
   Layer[2] : time 37.704245016514 (nsec) --- local (x,y) -115.75086607346, -0.27860943468121
   Layer[3] : time 39.372978587042 (nsec) --- local (x,y) -132.28343673211, -0.2966548687594
   Layer[4] : time 41.041712084258 (nsec) --- local (x,y) -148.81534162621, -0.31525981426462
 EM Calorimeter has 37 hits. Total Edep is 325.3675585304 (MeV)
 Hadron Calorimeter has 11 hits. Total Edep is 3688.6928206236 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 2 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : e+ (0,0,100000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 4.9867832233615 (nsec)
 Hodoscope 2 has 2 hits.
   Hodoscope[9] 43.185650990227 (nsec)
   Hodoscope[2] 56.41132761603 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 6.6709483406689 (nsec) --- local (x,y) -0.019358876145209, 0.0090264471023918
   Layer[1] : time 8.3387688173217 (nsec) --- local (x,y) -0.032310558434413, 0.013769730883673
   Layer[2] : time 10.006589294188 (nsec) --- local (x,y) -0.047994566097847, 0.016893892812654
   Layer[3] : time 11.674409771229 (nsec) --- local (x,y) -0.065328026914659, 0.019351815075608
   Layer[4] : time 13.342230248314 (nsec) --- local (x,y) -0.082835327447769, 0.023084596559071
 Drift Chamber 2 has 5 hits.
   Layer[0] : time 34.848412225853 (nsec) --- local (x,y) -147.66846846347, 0.044721910849965
   Layer[1] : time 36.519134351702 (nsec) --- local (x,y) -177.17523775659, 0.048484035950686
   Layer[2] : time 38.18985699812 (nsec) --- local (x,y) -206.68465629019, 0.049219334393171
   Layer[3] : time 39.860579610521 (nsec) --- local (x,y) -236.1939017432, 0.048430132621253
   Layer[4] : time 41.531301903979 (nsec) --- local (x,y) -265.70152422043, 0.049301077478961
 EM Calorimeter has 50 hits. Total Edep is 89165.22858145 (MeV)
 Hadron Calorimeter has 7 hits. Total Edep is 44.419047026592 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 3 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : proton (-0,0,10000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 5.0086867064621 (nsec)
 Hodoscope 2 has 1 hits.
   Hodoscope[9] 43.375682174476 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 6.7002527671023 (nsec) --- local (x,y) -0.13587495161626, -0.0062877337482647
   Layer[1] : time 8.3754025333314 (nsec) --- local (x,y) -0.13025794468916, 0.0033250589131769
   Layer[2] : time 10.050552442287 (nsec) --- local (x,y) -0.12260768796764, 0.029239824903414
   Layer[3] : time 11.725702459796 (nsec) --- local (x,y) -0.11175178514456, 0.058071647575324
   Layer[4] : time 13.400852584556 (nsec) --- local (x,y) -0.10061992230371, 0.070846489353449
 Drift Chamber 2 has 5 hits.
   Layer[0] : time 35.001711400702 (nsec) --- local (x,y) -147.9976191357, -0.60095355499609
   Layer[1] : time 36.679799622101 (nsec) --- local (x,y) -177.61407022099, -0.70341813258812
   Layer[2] : time 38.357886296553 (nsec) --- local (x,y) -207.22213151987, -0.80650199081318
   Layer[3] : time 40.035971890471 (nsec) --- local (x,y) -236.82422432394, -0.88793825046345
   Layer[4] : time 41.714050970675 (nsec) --- local (x,y) -266.392452332, -0.99692782935654
 EM Calorimeter has 36 hits. Total Edep is 2592.1306563415 (MeV)
 Hadron Calorimeter has 9 hits. Total Edep is 320.24612255975 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 4 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : pi+ (0,0,10000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 4.9872689247262 (nsec)
 Hodoscope 2 has 1 hits.
   Hodoscope[10] 42.698705833054 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 6.6715981480746 (nsec) --- local (x,y) 0.029376313283663, -0.020834533554181
   Layer[1] : time 8.3395811417955 (nsec) --- local (x,y) 0.037033391475102, -0.045511304139313
   Layer[2] : time 10.007564143544 (nsec) --- local (x,y) 0.061192105410215, -0.084424414186866
   Layer[3] : time 11.675547150871 (nsec) --- local (x,y) 0.069375857282097, -0.12558557318929
   Layer[4] : time 13.343530168782 (nsec) --- local (x,y) 0.10380312250568, -0.17225937352059
 Drift Chamber 2 has 8 hits.
   Layer[0] : time 34.370460519276 (nsec) --- local (x,y) -83.560632457973, -0.7186407089802
   Layer[1] : time 36.039378819134 (nsec) --- local (x,y) -100.30664145319, -0.77262892425304
   Layer[2] : time 37.708297908326 (nsec) --- local (x,y) -117.05975143308, -0.80067417706207
   Layer[2] : time 37.708492386891 (nsec) --- local (x,y) -117.06170544657, -0.80067699980941
   Layer[2] : time 37.708492386891 (nsec) --- local (x,y) -117.06170544657, -0.80067699980941
   Layer[2] : time 37.709399461269 (nsec) --- local (x,y) -117.06462826076, -0.82115577482435
   Layer[3] : time 39.377219425889 (nsec) --- local (x,y) -133.83457809977, -0.80813950266706
   Layer[4] : time 41.04614059924 (nsec) --- local (x,y) -150.60631128312, -0.80646220647121
 EM Calorimeter has 44 hits. Total Edep is 1723.3418465538 (MeV)
 Hadron Calorimeter has 10 hits. Total Edep is 240.27742131812 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 5 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : e+ (0,0,10000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 4.98678323121 (nsec)
 Hodoscope 2 has 1 hits.
   Hodoscope[9] 43.183869108454 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 6.6709484346317 (nsec) --- local (x,y) -0.14217386111404, -0.047316802705884
   Layer[1] : time 8.3387690099969 (nsec) --- local (x,y) -0.26518382538989, -0.16537160927426
   Layer[2] : time 10.006589585769 (nsec) --- local (x,y) -0.39250118007495, -0.27946624746404
   Layer[3] : time 11.6744101461 (nsec) --- local (x,y) -0.50472711340697, -0.38898106393892
   Layer[4] : time 13.342230788082 (nsec) --- local (x,y) -0.62427999501804, -0.57436515878403
 Drift Chamber 2 has 5 hits.
   Layer[0] : time 34.8466427626 (nsec) --- local (x,y) -148.79806600068, -3.3916718800621
   Layer[1] : time 36.517358775138 (nsec) --- local (x,y) -178.27297790571, -3.5971878398049
   Layer[2] : time 38.18808023149 (nsec) --- local (x,y) -207.77566326045, -3.7953464850815
   Layer[3] : time 39.858800495981 (nsec) --- local (x,y) -237.27235047012, -3.9830759716131
   Layer[4] : time 41.529520371102 (nsec) --- local (x,y) -266.76710353599, -4.1628765184829
 EM Calorimeter has 19 hits. Total Edep is 9416.1041628716 (MeV)
 Hadron Calorimeter has 2 hits. Total Edep is 3.1654860884909 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 6 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : proton (0,0,1000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 6.8390026315943 (nsec)
 Hodoscope 2 has 1 hits.
   Hodoscope[9] 59.393436426839 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 9.1541754903679 (nsec) --- local (x,y) 0.27095213177322, -1.2184402633304
   Layer[1] : time 11.447208071485 (nsec) --- local (x,y) -0.10826159992832, -2.2114635642216
   Layer[2] : time 13.740438526141 (nsec) --- local (x,y) -0.43040483415631, -2.7542584939691
   Layer[3] : time 16.033860077037 (nsec) --- local (x,y) -1.00497218387, -3.318878828559
   Layer[4] : time 18.327468737817 (nsec) --- local (x,y) -1.6268934288897, -3.8553651977969
 Drift Chamber 2 has 5 hits.
   Layer[0] : time 47.905725641583 (nsec) --- local (x,y) -166.81959190398, -4.6605838471215
   Layer[1] : time 50.207013935924 (nsec) --- local (x,y) -199.24051686529, -5.5460929271583
   Layer[2] : time 52.508642232301 (nsec) --- local (x,y) -232.17000637413, -6.5909961994183
   Layer[3] : time 54.810764392432 (nsec) --- local (x,y) -266.13938732869, -7.2134456720899
   Layer[4] : time 57.113237826721 (nsec) --- local (x,y) -300.50723278628, -7.8699264354678
 EM Calorimeter has 11 hits. Total Edep is 376.99717102329 (MeV)
 Hadron Calorimeter has 0 hits. Total Edep is 0 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 7 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : pi+ (-0,0,1000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 5.0351353740523 (nsec)
 Hodoscope 2 has 1 hits.
   Hodoscope[10] 43.10450799777 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 6.735690737367 (nsec) --- local (x,y) 0.44597000593074, 1.5527481841072
   Layer[1] : time 8.4197460905033 (nsec) --- local (x,y) 0.52631429713044, 2.4028523669536
   Layer[2] : time 10.103805865224 (nsec) --- local (x,y) 0.49136705300862, 3.3387014850738
   Layer[3] : time 11.787871605074 (nsec) --- local (x,y) 0.35107586353062, 4.4845870063538
   Layer[4] : time 13.471941280845 (nsec) --- local (x,y) 0.26725969125807, 5.7445915199235
 Drift Chamber 2 has 5 hits.
   Layer[0] : time 34.695081260349 (nsec) --- local (x,y) -90.820937251422, 14.853743624206
   Layer[1] : time 36.380260902999 (nsec) --- local (x,y) -108.66462148555, 16.160680702893
   Layer[2] : time 38.065485431729 (nsec) --- local (x,y) -126.86055747639, 17.232162331677
   Layer[3] : time 39.750672480465 (nsec) --- local (x,y) -144.73576971104, 17.903379042641
   Layer[4] : time 41.435859742449 (nsec) --- local (x,y) -162.58753435034, 18.591709294401
 EM Calorimeter has 19 hits. Total Edep is 524.0351390465 (MeV)
 Hadron Calorimeter has 2 hits. Total Edep is 33.610946341959 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 ### Run 8 starts.
 ... create file : B5.root - done
 ... open analysis file : B5.root - done
 ... create file : B5ntuple.root - done
 ... open analysis file : B5.root - done
 --> Event 0 starts.
 
 >>> Event 0 >>> Simulation truth : e+ (-0,0,1000)
 Hodoscope 1 has 1 hits.
   Hodoscope[7] 4.9867851910449 (nsec)
 Hodoscope 2 has 2 hits.
   Hodoscope[9] 43.1959284035 (nsec)
   Hodoscope[3] 55.863344937685 (nsec)
 Drift Chamber 1 has 5 hits.
   Layer[0] : time 6.6709507802169 (nsec) --- local (x,y) 0.83614386306368, 0.50804108990218
   Layer[1] : time 8.3387716513926 (nsec) --- local (x,y) 1.0425515148999, 0.57106093464762
   Layer[2] : time 10.006592737818 (nsec) --- local (x,y) 1.301862286883, 0.76597661073365
   Layer[3] : time 11.674413839107 (nsec) --- local (x,y) 1.5957127130491, 0.87486154890364
   Layer[4] : time 13.342234852086 (nsec) --- local (x,y) 1.9018067613672, 0.90499982100671
 Drift Chamber 2 has 20 hits.
   Layer[0] : time 34.857517933536 (nsec) --- local (x,y) -146.77689136171, -3.9975427453664
   Layer[1] : time 36.52843659296 (nsec) --- local (x,y) -177.25971310042, -4.6160502311994
   Layer[2] : time 38.199383979712 (nsec) --- local (x,y) -207.88763647803, -5.0132365391464
   Layer[2] : time 38.301401387339 (nsec) --- local (x,y) -208.29279883368, -5.6728981955734
   Layer[2] : time 38.302506323827 (nsec) --- local (x,y) -208.27958837967, -5.6351349152723
   Layer[2] : time 38.303630004115 (nsec) --- local (x,y) -208.28775573337, -5.6113103234309
   Layer[2] : time 38.304770141596 (nsec) --- local (x,y) -208.30228870797, -5.5810769515895
   Layer[2] : time 38.305910279076 (nsec) --- local (x,y) -208.34559235103, -5.5582734790365
   Layer[2] : time 38.307065721601 (nsec) --- local (x,y) -208.39406476561, -5.5527018304408
   Layer[2] : time 38.308225305615 (nsec) --- local (x,y) -208.44084263537, -5.5457438600881
   Layer[2] : time 38.312824635941 (nsec) --- local (x,y) -208.59479370909, -5.5201545968564
   Layer[2] : time 38.313872300051 (nsec) --- local (x,y) -208.60076983994, -5.4968142243163
   Layer[2] : time 38.314994243997 (nsec) --- local (x,y) -208.61958891599, -5.4749602822837
   Layer[2] : time 38.316119992174 (nsec) --- local (x,y) -208.64504557894, -5.5102514670512
   Layer[2] : time 38.317255313856 (nsec) --- local (x,y) -208.67998772205, -5.5405108020468
   Layer[2] : time 38.318426289873 (nsec) --- local (x,y) -208.71827195502, -5.5656454498052
   Layer[2] : time 38.319598470544 (nsec) --- local (x,y) -208.73513784036, -5.6038012666104
   Layer[2] : time 38.320770651216 (nsec) --- local (x,y) -208.74638991063, -5.5979062414439
   Layer[3] : time 39.870298934993 (nsec) --- local (x,y) -238.35871440417, -5.023939940129
   Layer[4] : time 41.541286843492 (nsec) --- local (x,y) -269.18671831098, -5.1829040514268
 EM Calorimeter has 7 hits. Total Edep is 957.3959812559 (MeV)
 Hadron Calorimeter has 1 hits. Total Edep is 1.8084580647247 (MeV)
 ... write file : B5.root - done
 ... write file : B5ntuple.root - done
 ... close file : B5.root - done
 ... close file : B5ntuple.root - done
 Graphics systems deleted.
 Visualization Manager deleting...

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