Geant4 LXR

Cross-Referencing   Geant4
Geant4/examples/extended/hadronic/FissionFragment/FissionFragment.out

Diff markup

Differences between /examples/extended/hadronic/FissionFragment/FissionFragment.out (Version 11.3.0) and /examples/extended/hadronic/FissionFragment/FissionFragment.out (Version 10.1.p1)

   ####   Starting: /build/jenkins/workspace/exam <<    ####   Starting: /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/examples/extended/hadronic/FissionFragment/FissionFragment    ####
   Environment variable "G4FORCE_RUN_MANAGER_TYPE << 
                                                        
           ######################################               ############################################
           !!! WARNING - FPE detection is activat               !!! WARNING - FPE detection is activated !!!
           ######################################               ############################################
                                                        
                                                  <<    *************************************************************
             ################################     <<     Geant4 version Name: geant4-10-01-patch-01    (27-March-2015)
            !!! G4Backtrace is activated !!!     <<                          Copyright : Geant4 Collaboration
            ################################     <<                         Reference : NIM A 506 (2003), 250-303
                                                 <<                               WWW : http://cern.ch/geant4
                                                 <<   *************************************************************
  ********************************************** <<   
   Geant4 version Name: geant4-11-03-ref-00    ( <<   <<< Geant4 Physics List simulation engine: QGSP_BIC_HP 2.0
                         Copyright : Geant4 Coll <<   
                        References : NIM A 506 ( <<   Checking overlaps for volume Plate@Location    X:0.00    Y:1.20 ... OK! 
                                   : IEEE-TNS 53 <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-1.20 ... OK! 
                                   : NIM A 835 ( <<   Checking overlaps for volume Plate@Location    X:0.00    Y:1.50 ... OK! 
                               WWW : http://gean <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-1.50 ... OK! 
  ********************************************** <<   Checking overlaps for volume Plate@Location    X:0.00    Y:1.80 ... OK! 
                                                 <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-1.80 ... OK! 
      Threads requested:    1                    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:2.10 ... OK! 
      Threads started:      1                    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-2.10 ... OK! 
  <<< Geant4 Physics List simulation engine: QGS <<   Checking overlaps for volume Plate@Location    X:0.00    Y:2.40 ... OK! 
                                                 <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-2.40 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:2.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-2.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:3.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-3.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:3.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-3.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:3.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-3.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:3.90 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-3.90 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:4.20 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-4.20 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:4.50 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-4.50 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:4.80 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-4.80 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:5.10 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-5.10 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:5.40 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-5.40 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:5.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-5.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:6.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-6.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:6.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-6.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:6.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-6.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:6.90 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-6.90 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:7.20 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-7.20 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:7.50 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-7.50 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:7.80 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-7.80 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:8.10 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-8.10 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:8.40 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-8.40 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:8.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-8.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:9.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-9.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:9.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-9.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:9.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-9.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:9.90 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-9.90 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:10.20 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-10.20 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:10.50 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-10.50 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:10.80 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-10.80 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:11.10 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-11.10 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:11.40 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-11.40 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:11.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:0.00    Y:-11.70 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:5.00    Y:0.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:5.00    Y:-0.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:-5.00    Y:0.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:-5.00    Y:-0.00 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:5.00    Y:0.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:5.00    Y:-0.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:-5.00    Y:0.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:-5.00    Y:-0.30 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:5.00    Y:0.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:5.00    Y:-0.60 ... OK! 
  Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:-5.00    Y:0.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<   Checking overlaps for volume Plate@Location    X:-5.00    Y:-0.60 ... OK! 
 -------- WWWW ------- G4Exception-START ------ <<  Checking overlaps for volume Plate@Location    X:5.00    Y:0.90 ... OK! 
 *** G4Exception : GeomVol1002                  <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-0.90 ... OK! 
       issued by : G4PVPlacement::CheckOverlaps <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:0.90 ... OK! 
 Overlap with volume already placed !           <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-0.90 ... OK! 
           Overlap is detected for volume Plate <<  Checking overlaps for volume Plate@Location    X:5.00    Y:1.20 ... OK! 
           apparently fully encapsulating volum <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-1.20 ... OK! 
 NOTE: Reached maximum fixed number -1- of over <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:1.20 ... OK! 
 *** This is just a warning message. ***        <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-1.20 ... OK! 
 -------- WWWW -------- G4Exception-END ------- <<  Checking overlaps for volume Plate@Location    X:5.00    Y:1.50 ... OK! 
                                                <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-1.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:1.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-1.50 ... OK! 
 -------- WWWW ------- G4Exception-START ------ <<  Checking overlaps for volume Plate@Location    X:5.00    Y:1.80 ... OK! 
 *** G4Exception : GeomVol1002                  <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-1.80 ... OK! 
       issued by : G4PVPlacement::CheckOverlaps <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:1.80 ... OK! 
 Overlap with volume already placed !           <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-1.80 ... OK! 
           Overlap is detected for volume Plate <<  Checking overlaps for volume Plate@Location    X:5.00    Y:2.10 ... OK! 
           apparently fully encapsulating volum <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-2.10 ... OK! 
 NOTE: Reached maximum fixed number -1- of over <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:2.10 ... OK! 
 *** This is just a warning message. ***        <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-2.10 ... OK! 
 -------- WWWW -------- G4Exception-END ------- <<  Checking overlaps for volume Plate@Location    X:5.00    Y:2.40 ... OK! 
                                                <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-2.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:2.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-2.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:2.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-2.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:2.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-2.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:3.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-3.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:3.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-3.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:3.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-3.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:3.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-3.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:3.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-3.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:3.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-3.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:3.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-3.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:3.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-3.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:6.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-6.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:6.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-6.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:6.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-6.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:6.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-6.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:7.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-7.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:7.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-7.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:7.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-7.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:7.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-7.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:7.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-7.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:7.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-7.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:8.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-8.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:8.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-8.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:8.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-8.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:8.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-8.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:8.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-8.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:8.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-8.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:9.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-9.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:9.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-9.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:9.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-9.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:9.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-9.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:9.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-9.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:9.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-9.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:9.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-9.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:9.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-9.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:10.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-10.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:10.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-10.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:10.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-10.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:10.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-10.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:10.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:5.00    Y:-10.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:10.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-5.00    Y:-10.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:0.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-0.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:0.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-0.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:0.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-0.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:0.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-0.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:0.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-0.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:0.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-0.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:0.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-0.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:0.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-0.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:1.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-1.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:1.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-1.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:1.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-1.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:1.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-1.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:1.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-1.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:1.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-1.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:2.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-2.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:2.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-2.10 ... OK! 
 -------- WWWW ------- G4Exception-START ------ <<  Checking overlaps for volume Plate@Location    X:10.00    Y:2.40 ... OK! 
 *** G4Exception : GeomVol1002                  <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-2.40 ... OK! 
       issued by : G4PVPlacement::CheckOverlaps <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:2.40 ... OK! 
 Overlap with volume already placed !           <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-2.40 ... OK! 
           Overlap is detected for volume Plate <<  Checking overlaps for volume Plate@Location    X:10.00    Y:2.70 ... OK! 
           apparently fully encapsulating volum <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-2.70 ... OK! 
 NOTE: Reached maximum fixed number -1- of over <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:2.70 ... OK! 
 *** This is just a warning message. ***        <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-2.70 ... OK! 
 -------- WWWW -------- G4Exception-END ------- <<  Checking overlaps for volume Plate@Location    X:10.00    Y:3.00 ... OK! 
                                                <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-3.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:3.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-3.00 ... OK! 
 -------- WWWW ------- G4Exception-START ------ <<  Checking overlaps for volume Plate@Location    X:10.00    Y:3.30 ... OK! 
 *** G4Exception : GeomVol1002                  <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-3.30 ... OK! 
       issued by : G4PVPlacement::CheckOverlaps <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:3.30 ... OK! 
 Overlap with volume already placed !           <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-3.30 ... OK! 
           Overlap is detected for volume Plate <<  Checking overlaps for volume Plate@Location    X:10.00    Y:3.60 ... OK! 
           apparently fully encapsulating volum <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-3.60 ... OK! 
 NOTE: Reached maximum fixed number -1- of over <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:3.60 ... OK! 
 *** This is just a warning message. ***        <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-3.60 ... OK! 
 -------- WWWW -------- G4Exception-END ------- <<  Checking overlaps for volume Plate@Location    X:10.00    Y:3.90 ... OK! 
                                                <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-3.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:3.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-3.90 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-4.20 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-4.50 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-4.80 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-5.10 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-5.40 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-5.70 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-6.00 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-6.30 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:6.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:10.00    Y:-6.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:6.60 ... OK! 
 Checking overlaps for volume Plate@Location    <<  Checking overlaps for volume Plate@Location    X:-10.00    Y:-6.60 ... OK! 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 Checking overlaps for volume Plate@Location    << 
 312 plates were added to the subcritical assem     312 plates were added to the subcritical assembly
 @@@ G4ParticleHPInelasticData instantiated for << 
 NeutronHP: /Capture file for Z = 18, A = 36 is << 
 NeutronHP: /Elastic file for Z = 18, A = 36 is << 
 NeutronHP: /Inelastic file for Z = 18, A = 36  << 
 NeutronHP: /Capture file for Z = 18, A = 38 is << 
 NeutronHP: /Elastic file for Z = 18, A = 38 is << 
 NeutronHP: /Inelastic file for Z = 18, A = 38  << 
 Visualization Manager instantiating with verbo     Visualization Manager instantiating with verbosity "warnings (3)"...
 Visualization Manager initialising...              Visualization Manager initialising...
 Registering graphics systems...                    Registering graphics systems...
                                                    
 You have successfully registered the following     You have successfully registered the following graphics systems.
 Registered graphics systems are:               <<  Current available graphics systems are:
   ASCIITree (ATree)                                  ASCIITree (ATree)
   DAWNFILE (DAWNFILE)                                DAWNFILE (DAWNFILE)
                                                   >>    G4HepRep (HepRepXML)
   G4HepRepFile (HepRepFile)                          G4HepRepFile (HepRepFile)
                                                   >>    OpenGLImmediateQt (OGLI, OGLIQt)
                                                   >>    OpenGLImmediateX (OGLIX)
                                                   >>    OpenGLImmediateXm (OGLIXm, OGLI_FALLBACK, OGLIQt_FALLBACK)
                                                   >>    OpenGLStoredQt (OGL, OGLS, OGLSQt)
                                                   >>    OpenGLStoredX (OGLSX)
                                                   >>    OpenGLStoredXm (OGLSXm, OGL_FALLBACK, OGLS_FALLBACK, OGLSQt_FALLBACK)
   RayTracer (RayTracer)                              RayTracer (RayTracer)
                                                   >>    RayTracerX (RayTracerX)
                                                   >>    VRML1FILE (VRML1FILE)
   VRML2FILE (VRML2FILE)                              VRML2FILE (VRML2FILE)
   gMocrenFile (gMocrenFile)                          gMocrenFile (gMocrenFile)
   TOOLSSG_OFFSCREEN (TSG_OFFSCREEN, TSG_FILE)  << 
   OpenGLImmediateQt (OGLIQt, OGLI)             << 
   OpenGLStoredQt (OGLSQt, OGL, OGLS)           << 
   OpenGLImmediateXm (OGLIXm, OGLIQt_FALLBACK)  << 
   OpenGLStoredXm (OGLSXm, OGLSQt_FALLBACK)     << 
   OpenGLImmediateX (OGLIX, OGLIQt_FALLBACK, OG << 
   OpenGLStoredX (OGLSX, OGLSQt_FALLBACK, OGLSX << 
   RayTracerX (RayTracerX)                      << 
   Qt3D (Qt3D)                                  << 
   TOOLSSG_X11_GLES (TSG_X11_GLES, TSGX11, TSG_ << 
   TOOLSSG_X11_ZB (TSG_X11_ZB, TSGX11ZB)        << 
   TOOLSSG_XT_GLES (TSG_XT_GLES, TSGXt, TSG_QT_ << 
   TOOLSSG_XT_ZB (TSG_XT_ZB, TSGXtZB)           << 
   TOOLSSG_QT_GLES (TSG_QT_GLES, TSGQt, TSG)    << 
   TOOLSSG_QT_ZB (TSG_QT_ZB, TSGQtZB)           << 
 You may choose a graphics system (driver) with << 
 the command "/vis/open" or "/vis/sceneHandler/ << 
 or you may omit the driver parameter and choos << 
 - by argument in the construction of G4VisExec << 
 - by environment variable "G4VIS_DEFAULT_DRIVE << 
 - by entry in "~/.g4session"                   << 
 - by build flags.                              << 
 - Note: This feature is not allowed in batch m << 
 For further information see "examples/basic/B1 << 
 and "vis.mac".                                 << 
                                                    
 Registering model factories...                     Registering model factories...
                                                    
 You have successfully registered the following     You have successfully registered the following model factories.
 Registered model factories:                        Registered model factories:
   generic                                            generic
   drawByAttribute                              << 
   drawByCharge                                       drawByCharge
   drawByOriginVolume                           << 
   drawByParticleID                                   drawByParticleID
   drawByEncounteredVolume                      <<    drawByOriginVolume
                                                <<    drawByAttribute
 Registered models:                             << 
   None                                         << 
                                                    
 Registered filter factories:                       Registered filter factories:
   attributeFilter                              << 
   chargeFilter                                       chargeFilter
   originVolumeFilter                           << 
   particleFilter                                     particleFilter
   encounteredVolumeFilter                      <<    originVolumeFilter
                                                <<    attributeFilter
 Registered filters:                            << 
   None                                         << 
                                                    
 You have successfully registered the following     You have successfully registered the following user vis actions.
 Run Duration User Vis Actions: none                Run Duration User Vis Actions: none
 End of Event User Vis Actions: none                End of Event User Vis Actions: none
 End of Run User Vis Actions: none                  End of Run User Vis Actions: none
                                                    
 Some /vis commands (optionally) take a string      Some /vis commands (optionally) take a string to specify colour.
 "/vis/list" to see available colours.          <<  Available colours:
 ============================================== <<    black, blue, brown, cyan, gray, green, grey, magenta, red, white, yellow
 ======                 Electromagnetic Physics <<  
 ============================================== <<  
 LPM effect enabled                             <<  phot:   for  gamma    SubType= 12  BuildTable= 0
 Enable creation and use of sampling tables     <<        LambdaPrime table from 200 keV to 10 TeV in 54 bins 
 Apply cuts on all EM processes                 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Use combined TransportationWithMsc             <<         PhotoElectric :  Emin=        0 eV    Emax=       10 TeV   AngularGenSauterGavrila  FluoActive
 Use general process                            <<  
 Enable linear polarisation for gamma           <<  compt:   for  gamma    SubType= 13  BuildTable= 1
 Enable photoeffect sampling below K-shell      <<        Lambda table from 100 eV  to 1 MeV, 7 bins per decade, spline: 1
 Enable sampling of quantum entanglement        <<        LambdaPrime table from 1 MeV to 10 TeV in 49 bins 
 X-section factor for integral approach         <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Min kinetic energy for tables                  <<         Klein-Nishina :  Emin=        0 eV    Emax=       10 TeV
 Max kinetic energy for tables                  <<  
 Number of bins per decade of a table           <<  conv:   for  gamma    SubType= 14  BuildTable= 1
 Verbose level                                  <<        Lambda table from 1.022 MeV to 10 TeV, 20 bins per decade, spline: 1
 Verbose level for worker thread                <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Bremsstrahlung energy threshold above which    <<          BetheHeitler :  Emin=        0 eV    Emax=       80 GeV
   primary e+- is added to the list of secondar <<       BetheHeitlerLPM :  Emin=       80 GeV   Emax=       10 TeV
 Bremsstrahlung energy threshold above which pr <<  
   muon/hadron is added to the list of secondar <<  msc:   for e-    SubType= 10
 Positron annihilation at rest model            <<        RangeFactor= 0.04, stepLimitType: 1, latDisplacement: 1
 Enable 3 gamma annihilation on fly             <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Lowest triplet kinetic energy                  <<              UrbanMsc :  Emin=        0 eV    Emax=      100 MeV  Table with 42 bins Emin=    100 eV    Emax=    100 MeV
 Enable sampling of gamma linear polarisation   <<          WentzelVIUni :  Emin=      100 MeV   Emax=       10 TeV  Table with 35 bins Emin=    100 MeV   Emax=     10 TeV
 5D gamma conversion model type                 <<  
 5D gamma conversion model on isolated ion      <<  eIoni:   for  e-    SubType= 2
 Use Ricardo-Gerardo pair production model      <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
 Livermore data directory                       <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
 ============================================== <<        finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
 ======                 Ionisation Parameters   <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 ============================================== <<          MollerBhabha :  Emin=        0 eV    Emax=       10 TeV
 Step function for e+-                          <<  
 Step function for muons/hadrons                <<  eBrem:   for  e-    SubType= 3
 Step function for light ions                   <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
 Step function for general ions                 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
 Lowest e+e- kinetic energy                     <<        LPM flag: 1 for E > 1 GeV
 Lowest muon/hadron kinetic energy              <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Use ICRU90 data                                <<               eBremSB :  Emin=        0 eV    Emax=        1 GeV   DipBustGen
 Fluctuations of dE/dx are enabled              <<              eBremLPM :  Emin=        1 GeV   Emax=       10 TeV   DipBustGen
 Type of fluctuation model for leptons and hadr <<  
 Use built-in Birks satuaration                 <<  CoulombScat:   for  e-, integral: 1     SubType= 1  BuildTable= 1
 Build CSDA range enabled                       <<        Lambda table from 100 MeV to 10 TeV, 7 bins per decade, spline: 1
 Use cut as a final range enabled               <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
 Enable angular generator interface             <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Max kinetic energy for CSDA tables             <<    eCoulombScattering :  Emin=      100 MeV   Emax=       10 TeV
 Max kinetic energy for NIEL computation        <<  
 Linear loss limit                              <<  msc:   for e+    SubType= 10
 Read data from file for e+e- pair production b <<        RangeFactor= 0.04, stepLimitType: 1, latDisplacement: 1
 ============================================== <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 ======                 Multiple Scattering Par <<              UrbanMsc :  Emin=        0 eV    Emax=      100 MeV  Table with 42 bins Emin=    100 eV    Emax=    100 MeV
 ============================================== <<          WentzelVIUni :  Emin=      100 MeV   Emax=       10 TeV  Table with 35 bins Emin=    100 MeV   Emax=     10 TeV
 Type of msc step limit algorithm for e+-       <<  
 Type of msc step limit algorithm for muons/had <<  eIoni:   for  e+    SubType= 2
 Msc lateral displacement for e+- enabled       <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
 Msc lateral displacement for muons and hadrons <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
 Urban msc model lateral displacement alg96     <<        finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
 Range factor for msc step limit for e+-        <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Range factor for msc step limit for muons/hadr <<          MollerBhabha :  Emin=        0 eV    Emax=       10 TeV
 Geometry factor for msc step limitation of e+- <<  
 Safety factor for msc step limit for e+-       <<  eBrem:   for  e+    SubType= 3
 Skin parameter for msc step limitation of e+-  <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
 Lambda limit for msc step limit for e+-        <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
 Use Mott correction for e- scattering          <<        LPM flag: 1 for E > 1 GeV
 Factor used for dynamic computation of angular <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   limit between single and multiple scattering <<               eBremSB :  Emin=        0 eV    Emax=        1 GeV   DipBustGen
 Fixed angular limit between single             <<              eBremLPM :  Emin=        1 GeV   Emax=       10 TeV   DipBustGen
   and multiple scattering                      <<  
 Upper energy limit for e+- multiple scattering <<  annihil:   for  e+, integral: 1     SubType= 5  BuildTable= 0
 Type of electron single scattering model       <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Type of nuclear form-factor                    <<              eplus2gg :  Emin=        0 eV    Emax=       10 TeV
 Screening factor                               <<  
 ============================================== <<  CoulombScat:   for  e+, integral: 1     SubType= 1  BuildTable= 1
 ======                 Atomic Deexcitation Par <<        Lambda table from 100 MeV to 10 TeV, 7 bins per decade, spline: 1
 ============================================== <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
 Fluorescence enabled                           <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Directory in G4LEDATA for fluorescence data fi <<    eCoulombScattering :  Emin=      100 MeV   Emax=       10 TeV
 Auger electron cascade enabled                 <<  
 PIXE atomic de-excitation enabled              <<  msc:   for proton    SubType= 10
 De-excitation module ignores cuts              <<        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
 Type of PIXE cross section for hadrons         <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Type of PIXE cross section for e+-             <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
 ============================================== <<  
                                                <<  hIoni:   for  proton    SubType= 2
 ### ===  Deexcitation model UAtomDeexcitation  <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
           DefaultRegionForTheWorld  1  1  0    <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
 ### ===  Auger flag: 1                         <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
 ### ===  Ignore cuts flag:   1                 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                                                <<                 Bragg :  Emin=        0 eV    Emax=        2 MeV
 phot:  for gamma SubType=12 BuildTable=0       <<            BetheBloch :  Emin=        2 MeV   Emax=       10 TeV
       LambdaPrime table from 200 keV to 100 Te <<  
       ===== EM models for the G4Region  Defaul <<  hBrems:   for  proton    SubType= 3
  LivermorePhElectric : Emin=    0 eV  Emax=  1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
                                                <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
 compt:  for gamma SubType=13 BuildTable=1      <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       Lambda table from 100 eV  to 1 MeV, 20 b <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
       LambdaPrime table from 1 MeV to 100 TeV  <<  
       ===== EM models for the G4Region  Defaul <<  hPairProd:   for  proton    SubType= 4
    LowEPComptonModel : Emin=    0 eV  Emax=    <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
         KleinNishina : Emin=   20 MeV Emax=  1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
                                                <<        Sampling table 13x1001 from 7.50618 GeV to 10 TeV 
 conv:  for gamma SubType=14 BuildTable=1       <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       Lambda table from 1.022 MeV to 100 TeV,  <<             hPairProd :  Emin=        0 eV    Emax=       10 TeV
       ===== EM models for the G4Region  Defaul <<  
       BetheHeitler5D : Emin=    0 eV  Emax=  1 <<  CoulombScat:   for  proton, integral: 1     SubType= 1  BuildTable= 1
                                                <<        Used Lambda table of anti_proton
 Rayl:  for gamma SubType=11 BuildTable=1       <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       Lambda table from 100 eV  to 150 keV, 20 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       LambdaPrime table from 150 keV to 100 Te <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
       ===== EM models for the G4Region  Defaul <<  
    LivermoreRayleigh : Emin=    0 eV  Emax=  1 <<  msc:   for GenericIon    SubType= 10
                                                <<        RangeFactor= 0.2, stepLimitType: 0, latDisplacement: 0
 msc:  for e-  SubType= 10                      <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       ===== EM models for the G4Region  Defaul <<              UrbanMsc :  Emin=        0 eV    Emax=       10 TeV
   GoudsmitSaunderson : Emin=    0 eV  Emax=  1 <<  
           StepLim=SafetyPlus Rfact=0.08 Gfact= <<  ionIoni:   for  GenericIon    SubType= 2
         WentzelVIUni : Emin=  100 MeV Emax=  1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
           StepLim=SafetyPlus Rfact=0.08 Gfact= <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
                                                <<        finalRange(mm)= 0.01, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.02
 eIoni:  for e-  XStype:3  SubType=2            <<        Stopping Power data for 17 ion/material pairs 
       dE/dx and range tables from 100 eV  to 1 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       Lambda tables from threshold to 100 TeV, <<              BraggIon :  Emin=        0 eV    Emax=        2 MeV
       StepFunction=(0.2, 0.01 mm), integ: 3, f <<            BetheBloch :  Emin=        2 MeV   Emax=       10 TeV
       ===== EM models for the G4Region  Defaul <<  
              PenIoni : Emin=    0 eV  Emax=  1 <<  msc:   for alpha    SubType= 10
         MollerBhabha : Emin=  100 keV Emax=  1 <<        RangeFactor= 0.2, stepLimitType: 0, latDisplacement: 0
                                                <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 eBrem:  for e-  XStype:4  SubType=3            <<              UrbanMsc :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
       dE/dx and range tables from 100 eV  to 1 <<  
       Lambda tables from threshold to 100 TeV, <<  ionIoni:   for  alpha    SubType= 2
       LPM flag: 1 for E > 1 GeV,  VertexHighEn <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       ===== EM models for the G4Region  Defaul <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
              eBremSB : Emin=    0 eV  Emax=    <<        finalRange(mm)= 0.01, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.02
             eBremLPM : Emin=    1 GeV Emax=  1 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                                                <<              BraggIon :  Emin=        0 eV    Emax=   7.9452 MeV
 ePairProd:  for e-  XStype:1  SubType=4        <<            BetheBloch :  Emin=   7.9452 MeV   Emax=       10 TeV
       dE/dx and range tables from 100 eV  to 1 <<  
       Lambda tables from threshold to 100 TeV, <<  msc:   for anti_proton    SubType= 10
       Sampling table 25x1001 from 0.1 GeV to 1 <<        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
       ===== EM models for the G4Region  Defaul <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            ePairProd : Emin=    0 eV  Emax=  1 <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
                                                <<  
 CoulombScat:  for e- XStype:1 SubType=1 BuildT <<  hIoni:   for  anti_proton    SubType= 2
       Lambda table from 100 MeV to 100 TeV, 20 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
   eCoulombScattering : Emin=  100 MeV Emax=  1 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                                                <<              ICRU73QO :  Emin=        0 eV    Emax=        2 MeV
 msc:  for e+  SubType= 10                      <<            BetheBloch :  Emin=        2 MeV   Emax=       10 TeV
       ===== EM models for the G4Region  Defaul <<  
   GoudsmitSaunderson : Emin=    0 eV  Emax=  1 <<  hBrems:   for  anti_proton    SubType= 3
           StepLim=SafetyPlus Rfact=0.08 Gfact= <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
         WentzelVIUni : Emin=  100 MeV Emax=  1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
           StepLim=SafetyPlus Rfact=0.08 Gfact= <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                                                <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
 eIoni:  for e+  XStype:3  SubType=2            <<  
       dE/dx and range tables from 100 eV  to 1 <<  hPairProd:   for  anti_proton    SubType= 4
       Lambda tables from threshold to 100 TeV, <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       StepFunction=(0.2, 0.01 mm), integ: 3, f <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul <<        Sampling table 13x1001 from 7.50618 GeV to 10 TeV 
              PenIoni : Emin=    0 eV  Emax=  1 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         MollerBhabha : Emin=  100 keV Emax=  1 <<             hPairProd :  Emin=        0 eV    Emax=       10 TeV
                                                <<  
 eBrem:  for e+  XStype:4  SubType=3            <<  CoulombScat:   for  anti_proton, integral: 1     SubType= 1  BuildTable= 1
       dE/dx and range tables from 100 eV  to 1 <<        Lambda table from threshold  to 10 TeV, 7 bins per decade, spline: 1
       Lambda tables from threshold to 100 TeV, <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       LPM flag: 1 for E > 1 GeV,  VertexHighEn <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       ===== EM models for the G4Region  Defaul <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
              eBremSB : Emin=    0 eV  Emax=    <<  
             eBremLPM : Emin=    1 GeV Emax=  1 <<  msc:   for kaon+    SubType= 10
                                                <<        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
 ePairProd:  for e+  XStype:1  SubType=4        <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       dE/dx and range tables from 100 eV  to 1 <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
       Lambda tables from threshold to 100 TeV, <<  
       Sampling table 25x1001 from 0.1 GeV to 1 <<  hIoni:   for  kaon+    SubType= 2
       ===== EM models for the G4Region  Defaul <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
            ePairProd : Emin=    0 eV  Emax=  1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
                                                <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
 annihil:  for e+ XStype:2 SubType=5 AtRestMode <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       ===== EM models for the G4Region  Defaul <<                 Bragg :  Emin=        0 eV    Emax=  1.05231 MeV
     eplusTo2or3gamma : Emin=    0 eV  Emax=  1 <<            BetheBloch :  Emin=  1.05231 MeV   Emax=       10 TeV
                                                <<  
 CoulombScat:  for e+ XStype:1 SubType=1 BuildT <<  hBrems:   for  kaon+    SubType= 3
       Lambda table from 100 MeV to 100 TeV, 20 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=  100 MeV Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
                                                <<  
 msc:  for proton  SubType= 10                  <<  hPairProd:   for  kaon+    SubType= 4
       ===== EM models for the G4Region  Defaul <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
         WentzelVIUni : Emin=    0 eV  Emax=  1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
           StepLim=Minimal Rfact=0.2 Gfact=2.5  <<        Sampling table 14x1001 from 3.94942 GeV to 10 TeV 
                                                <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 hIoni:  for proton  XStype:3  SubType=2        <<             hPairProd :  Emin=        0 eV    Emax=       10 TeV
       dE/dx and range tables from 100 eV  to 1 <<  
       Lambda tables from threshold to 100 TeV, <<  CoulombScat:   for  kaon+, integral: 1     SubType= 1  BuildTable= 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        Lambda table from threshold  to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
                Bragg : Emin=    0 eV  Emax=    <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
           BetheBloch : Emin=    2 MeV Emax=  1 <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
                                                <<  
 hBrems:  for proton  XStype:1  SubType=3       <<  msc:   for kaon-    SubType= 10
       dE/dx and range tables from 100 eV  to 1 <<        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
       Lambda tables from threshold to 100 TeV, <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       ===== EM models for the G4Region  Defaul <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
                hBrem : Emin=    0 eV  Emax=  1 <<  
                                                <<  hIoni:   for  kaon-    SubType= 2
 hPairProd:  for proton  XStype:1  SubType=4    <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       dE/dx and range tables from 100 eV  to 1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       Lambda tables from threshold to 100 TeV, <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
       Sampling table 17x1001 from 7.50618 GeV  <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       ===== EM models for the G4Region  Defaul <<              ICRU73QO :  Emin=        0 eV    Emax=  1.05231 MeV
            hPairProd : Emin=    0 eV  Emax=  1 <<            BetheBloch :  Emin=  1.05231 MeV   Emax=       10 TeV
                                                <<  
 CoulombScat:  for proton XStype:1 SubType=1 Bu <<  hBrems:   for  kaon-    SubType= 3
       Lambda table from threshold  to 100 TeV, <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul << 
   eCoulombScattering : Emin=    0 eV  Emax=  1 << 
                                                << 
 nuclearStopping:  for proton SubType=8 BuildTa << 
       ===== EM models for the G4Region  Defaul << 
    ICRU49NucStopping : Emin=    0 eV  Emax=    << 
                                                << 
 msc:  for GenericIon  SubType= 10              << 
       ===== EM models for the G4Region  Defaul << 
             UrbanMsc : Emin=    0 eV  Emax=  1 << 
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                << 
 ionIoni:  for GenericIon  XStype:3  SubType=2  << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       StepFunction=(0.1, 0.001 mm), integ: 3,  << 
       ===== EM models for the G4Region  Defaul << 
     LindhardSorensen : Emin=    0 eV  Emax=  1 << 
                                                << 
 nuclearStopping:  for GenericIon SubType=8 Bui << 
       ===== EM models for the G4Region  Defaul << 
    ICRU49NucStopping : Emin=    0 eV  Emax=    << 
 ============================================== << 
 ======          Radioactive Decay Physics Para << 
 ============================================== << 
 min MeanLife (from G4NuclideTable)             << 
 Max life time (from G4DeexPrecoParameters)     << 
 Internal e- conversion flag                    << 
 Stored internal conversion coefficients        << 
 Enabled atomic relaxation mode                 << 
 Enable correlated gamma emission               << 
 Max 2J for sampling of angular correlations    << 
 Atomic de-excitation enabled                   << 
 Auger electron emission enabled                << 
 Check EM cuts disabled for atomic de-excitatio << 
 Use Bearden atomic level energies              << 
 Use ANSTO fluorescence model                   << 
 Threshold for very long decay time at rest     << 
 ============================================== << 
                                                << 
 msc:  for alpha  SubType= 10                   << 
       ===== EM models for the G4Region  Defaul << 
             UrbanMsc : Emin=    0 eV  Emax=  1 << 
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                << 
 ionIoni:  for alpha  XStype:3  SubType=2       << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       StepFunction=(0.1, 0.02 mm), integ: 3, f << 
       ===== EM models for the G4Region  Defaul << 
             BraggIon : Emin=    0 eV  Emax=7.9 << 
           BetheBloch : Emin=7.9452 MeV Emax=   << 
                                                << 
 nuclearStopping:  for alpha SubType=8 BuildTab << 
       ===== EM models for the G4Region  Defaul << 
    ICRU49NucStopping : Emin=    0 eV  Emax=    << 
                                                << 
 msc:  for anti_proton  SubType= 10             << 
       ===== EM models for the G4Region  Defaul << 
         WentzelVIUni : Emin=    0 eV  Emax=  1 << 
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                << 
 hIoni:  for anti_proton  XStype:3  SubType=2   << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       StepFunction=(0.1, 0.05 mm), integ: 3, f << 
       ===== EM models for the G4Region  Defaul << 
             ICRU73QO : Emin=    0 eV  Emax=    << 
           BetheBloch : Emin=    2 MeV Emax=  1 << 
                                                << 
 hBrems:  for anti_proton  XStype:1  SubType=3  << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       ===== EM models for the G4Region  Defaul << 
                hBrem : Emin=    0 eV  Emax=  1 << 
                                                << 
 hPairProd:  for anti_proton  XStype:1  SubType << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       Sampling table 17x1001 from 7.50618 GeV  << 
       ===== EM models for the G4Region  Defaul << 
            hPairProd : Emin=    0 eV  Emax=  1 << 
                                                << 
 CoulombScat:  for anti_proton XStype:1 SubType << 
       Lambda table from threshold  to 100 TeV, << 
       ThetaMin(p) < Theta(degree) < 180, pLimi << 
       ===== EM models for the G4Region  Defaul << 
   eCoulombScattering : Emin=    0 eV  Emax=  1 << 
                                                << 
 msc:  for kaon+  SubType= 10                   << 
       ===== EM models for the G4Region  Defaul << 
         WentzelVIUni : Emin=    0 eV  Emax=  1 << 
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                << 
 hIoni:  for kaon+  XStype:3  SubType=2         << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       StepFunction=(0.1, 0.05 mm), integ: 3, f << 
       ===== EM models for the G4Region  Defaul << 
                Bragg : Emin=    0 eV  Emax=1.0 << 
           BetheBloch : Emin=1.05231 MeV Emax=  << 
                                                << 
 hBrems:  for kaon+  XStype:1  SubType=3        << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       ===== EM models for the G4Region  Defaul << 
                hBrem : Emin=    0 eV  Emax=  1 << 
                                                << 
 hPairProd:  for kaon+  XStype:1  SubType=4     << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       Sampling table 18x1001 from 3.94942 GeV  << 
       ===== EM models for the G4Region  Defaul << 
            hPairProd : Emin=    0 eV  Emax=  1 << 
                                                << 
 CoulombScat:  for kaon+ XStype:1 SubType=1 Bui << 
       Lambda table from threshold  to 100 TeV, << 
       ThetaMin(p) < Theta(degree) < 180, pLimi << 
       ===== EM models for the G4Region  Defaul << 
   eCoulombScattering : Emin=    0 eV  Emax=  1 << 
                                                << 
 msc:  for kaon-  SubType= 10                   << 
       ===== EM models for the G4Region  Defaul << 
         WentzelVIUni : Emin=    0 eV  Emax=  1 << 
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                << 
 hIoni:  for kaon-  XStype:3  SubType=2         << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       StepFunction=(0.1, 0.05 mm), integ: 3, f << 
       ===== EM models for the G4Region  Defaul << 
             ICRU73QO : Emin=    0 eV  Emax=1.0 << 
           BetheBloch : Emin=1.05231 MeV Emax=  << 
                                                << 
 hBrems:  for kaon-  XStype:1  SubType=3        << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       ===== EM models for the G4Region  Defaul << 
                hBrem : Emin=    0 eV  Emax=  1 << 
                                                << 
 hPairProd:  for kaon-  XStype:1  SubType=4     << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       Sampling table 18x1001 from 3.94942 GeV  << 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
                                                    
 CoulombScat:  for kaon- XStype:1 SubType=1 Bui <<  hPairProd:   for  kaon-    SubType= 4
                                                   >>        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
                                                   >>        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
                                                   >>        Sampling table 14x1001 from 3.94942 GeV to 10 TeV 
                                                   >>        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                                                   >>             hPairProd :  Emin=        0 eV    Emax=       10 TeV
                                                   >>  
                                                   >>  CoulombScat:   for  kaon-, integral: 1     SubType= 1  BuildTable= 1
       Used Lambda table of kaon+                         Used Lambda table of kaon+
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  1 <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
                                                    
 msc:  for mu+  SubType= 10                     <<  msc:   for mu+    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  1 <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 muIoni:  for mu+  XStype:3  SubType=2          <<  muIoni:   for  mu+    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                Bragg : Emin=    0 eV  Emax=  2 <<                 Bragg :  Emin=        0 eV    Emax=      200 keV
         MuBetheBloch : Emin=  200 keV Emax=  1 <<            BetheBloch :  Emin=      200 keV   Emax=        1 GeV
                                                   >>          MuBetheBloch :  Emin=        1 GeV   Emax=       10 TeV
                                                    
 muBrems:  for mu+  XStype:1  SubType=3         <<  muBrems:   for  mu+    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
               MuBrem : Emin=    0 eV  Emax=  1 <<                MuBrem :  Emin=        0 eV    Emax=       10 TeV
                                                    
 muPairProd:  for mu+  XStype:1  SubType=4      <<  muPairProd:   for  mu+    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       Sampling table 21x1001 from 0.85 GeV to  <<        Sampling table 17x1001 from 1 GeV to 10 TeV 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
           muPairProd : Emin=    0 eV  Emax=  1 <<            muPairProd :  Emin=        0 eV    Emax=       10 TeV
                                                    
 CoulombScat:  for mu+ XStype:1 SubType=1 Build <<  CoulombScat:   for  mu+, integral: 1     SubType= 1  BuildTable= 1
       Lambda table from threshold  to 100 TeV, <<        Lambda table from threshold  to 10 TeV, 7 bins per decade, spline: 1
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  1 <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
                                                    
 msc:  for mu-  SubType= 10                     <<  msc:   for mu-    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  1 <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 muIoni:  for mu-  XStype:3  SubType=2          <<  muIoni:   for  mu-    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             ICRU73QO : Emin=    0 eV  Emax=  2 <<              ICRU73QO :  Emin=        0 eV    Emax=      200 keV
         MuBetheBloch : Emin=  200 keV Emax=  1 <<            BetheBloch :  Emin=      200 keV   Emax=        1 GeV
                                                   >>          MuBetheBloch :  Emin=        1 GeV   Emax=       10 TeV
                                                    
 muBrems:  for mu-  XStype:1  SubType=3         <<  muBrems:   for  mu-    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
               MuBrem : Emin=    0 eV  Emax=  1 <<                MuBrem :  Emin=        0 eV    Emax=       10 TeV
                                                    
 muPairProd:  for mu-  XStype:1  SubType=4      <<  muPairProd:   for  mu-    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       Sampling table 21x1001 from 0.85 GeV to  <<        Sampling table 17x1001 from 1 GeV to 10 TeV 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
           muPairProd : Emin=    0 eV  Emax=  1 <<            muPairProd :  Emin=        0 eV    Emax=       10 TeV
                                                    
 CoulombScat:  for mu- XStype:1 SubType=1 Build <<  CoulombScat:   for  mu-, integral: 1     SubType= 1  BuildTable= 1
       Used Lambda table of mu+                           Used Lambda table of mu+
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  1 <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
 NeutronHP: /Capture file for Z = 18, A = 36 is <<  NeutronHP: /Capture file for Z = 6, A = 12 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Capture/CrossSection/6_nat_Carbon
 NeutronHP: /Elastic file for Z = 18, A = 36 is <<  NeutronHP: /Elastic file for Z = 6, A = 12 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Elastic/CrossSection/6_nat_Carbon
 NeutronHP: /Inelastic file for Z = 18, A = 36  <<  NeutronHP: /Inelastic file for Z = 6, A = 12 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Inelastic/CrossSection/6_nat_Carbon
 NeutronHP: /Capture file for Z = 18, A = 38 is <<  NeutronHP: /Capture file for Z = 6, A = 13 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Capture/CrossSection/6_nat_Carbon
 NeutronHP: /Elastic file for Z = 18, A = 38 is <<  NeutronHP: /Elastic file for Z = 6, A = 13 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Elastic/CrossSection/6_nat_Carbon
 NeutronHP: /Inelastic file for Z = 18, A = 38  <<  NeutronHP: /Inelastic file for Z = 6, A = 13 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Inelastic/CrossSection/6_nat_Carbon
 NeutronHP: /Elastic file for Z = 18, A = 36 is <<  NeutronHP: /Capture file for Z = 8, A = 18 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Capture/CrossSection/8_17_Oxygen
 NeutronHP: /Elastic file for Z = 18, A = 38 is <<  NeutronHP: /Elastic file for Z = 8, A = 18 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Elastic/CrossSection/8_17_Oxygen
                                                <<  NeutronHP: /Inelastic file for Z = 8, A = 18 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Inelastic/CrossSection/8_17_Oxygen
 ============================================== <<  NeutronHP: /Elastic file for Z = 6, A = 12 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Elastic/CrossSection/6_nat_Carbon
 ======       ParticleHP Physics Parameters     <<  NeutronHP: /Elastic file for Z = 6, A = 13 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Elastic/CrossSection/6_nat_Carbon
 ============================================== <<  NeutronHP: /Elastic file for Z = 8, A = 18 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Elastic/CrossSection/8_17_Oxygen
  Use only photo-evaporation      0             <<  NeutronHP: /Capture file for Z = 6, A = 12 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Capture/CrossSection/6_nat_Carbon
  Skip missing isotopes           0             <<  NeutronHP: /Capture file for Z = 6, A = 13 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Capture/CrossSection/6_nat_Carbon
  Neglect Doppler                 0             <<  NeutronHP: /Capture file for Z = 8, A = 18 is not found and NeutronHP will use /data/G4-builds/release/slc6-gcc49-RelWithDebInfo/build/data/G4NDL4.5/Capture/CrossSection/8_17_Oxygen
  Do not adjust final state       0             <<  Activate Fission Fragments Production for the target isotope of Z = 92, A = 235
  Produce fission fragments       1             <<  As the result, delayed neutrons are omitted and they should be taken care by RadioaActiveDecay.
  Use WendtFissionModel           0             <<  Activate Fission Fragments Production for the target isotope of Z = 92, A = 238
  Use NRESP71Model                0             <<  As the result, delayed neutrons are omitted and they should be taken care by RadioaActiveDecay.
  Use DBRC                        0             <<  
  PHP use Poisson                 0             <<  msc:   for pi+    SubType= 10
  PHP check                       1             <<        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
  CHECK HP NAMES                  0             <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
  Enable DEBUG                    0             <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
  Use probability tables from                   <<  
 ============================================== <<  hIoni:   for  pi+    SubType= 2
                                                <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
 @@@ G4ParticleHPInelastic instantiated for par <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
 NeutronHP: /Capture file for Z = 18, A = 36 is <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
 NeutronHP: /Capture file for Z = 18, A = 38 is <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
 Fission fragment production is now activated i <<                 Bragg :  Emin=        0 eV    Emax=  297.505 keV
 As currently modeled this option precludes pro <<            BetheBloch :  Emin=  297.505 keV   Emax=       10 TeV
 Fission fragment production is now activated i <<  
 As currently modeled this option precludes pro <<  hBrems:   for  pi+    SubType= 3
                                                <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
 msc:  for pi+  SubType= 10                     <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  <<  
                                                <<  hPairProd:   for  pi+    SubType= 4
 hIoni:  for pi+  XStype:3  SubType=2           <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       dE/dx and range tables from 100 eV  to 1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       Lambda tables from threshold to 100 TeV, <<        Sampling table 16x1001 from 1.11656 GeV to 10 TeV 
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       ===== EM models for the G4Region  Defaul <<             hPairProd :  Emin=        0 eV    Emax=       10 TeV
                Bragg : Emin=    0 eV  Emax=297 <<  
           BetheBloch : Emin=297.505 keV Emax=  <<  CoulombScat:   for  pi+, integral: 1     SubType= 1  BuildTable= 1
                                                <<        Lambda table from threshold  to 10 TeV, 7 bins per decade, spline: 1
 hBrems:  for pi+  XStype:1  SubType=3          <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       dE/dx and range tables from 100 eV  to 1 <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       Lambda tables from threshold to 100 TeV, <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
       ===== EM models for the G4Region  Defaul <<  
                hBrem : Emin=    0 eV  Emax=  1 <<  msc:   for pi-    SubType= 10
                                                <<        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
 hPairProd:  for pi+  XStype:1  SubType=4       <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       dE/dx and range tables from 100 eV  to 1 <<          WentzelVIUni :  Emin=        0 eV    Emax=       10 TeV  Table with 77 bins Emin=    100 eV    Emax=     10 TeV
       Lambda tables from threshold to 100 TeV, <<  
       Sampling table 20x1001 from 1.11656 GeV  <<  hIoni:   for  pi-    SubType= 2
       ===== EM models for the G4Region  Defaul <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
            hPairProd : Emin=    0 eV  Emax=  1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
                                                <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
 CoulombScat:  for pi+ XStype:1 SubType=1 Build <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       Lambda table from threshold  to 100 TeV, <<              ICRU73QO :  Emin=        0 eV    Emax=  297.505 keV
       ThetaMin(p) < Theta(degree) < 180, pLimi <<            BetheBloch :  Emin=  297.505 keV   Emax=       10 TeV
       ===== EM models for the G4Region  Defaul <<  
   eCoulombScattering : Emin=    0 eV  Emax=  1 <<  hBrems:   for  pi-    SubType= 3
                                                <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
 msc:  for pi-  SubType= 10                     <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul <<        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
         WentzelVIUni : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  <<  
                                                <<  hPairProd:   for  pi-    SubType= 4
 hIoni:  for pi-  XStype:3  SubType=2           <<        dE/dx and range tables from 100 eV  to 10 TeV in 77 bins
       dE/dx and range tables from 100 eV  to 1 <<        Lambda tables from threshold to 10 TeV, 7 bins per decade, spline: 1
       Lambda tables from threshold to 100 TeV, <<        Sampling table 16x1001 from 1.11656 GeV to 10 TeV 
       StepFunction=(0.1, 0.05 mm), integ: 3, f << 
       ===== EM models for the G4Region  Defaul << 
             ICRU73QO : Emin=    0 eV  Emax=297 << 
           BetheBloch : Emin=297.505 keV Emax=  << 
                                                << 
 hBrems:  for pi-  XStype:1  SubType=3          << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       ===== EM models for the G4Region  Defaul << 
                hBrem : Emin=    0 eV  Emax=  1 << 
                                                << 
 hPairProd:  for pi-  XStype:1  SubType=4       << 
       dE/dx and range tables from 100 eV  to 1 << 
       Lambda tables from threshold to 100 TeV, << 
       Sampling table 20x1001 from 1.11656 GeV  << 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  1 <<             hPairProd :  Emin=        0 eV    Emax=       10 TeV
                                                    
 CoulombScat:  for pi- XStype:1 SubType=1 Build <<  CoulombScat:   for  pi-, integral: 1     SubType= 1  BuildTable= 1
       Used Lambda table of pi+                           Used Lambda table of pi+
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  1 <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
                                                    
 ==============================================     ====================================================================
                   HADRONIC PROCESSES SUMMARY (                       HADRONIC PROCESSES SUMMARY (verbose level 1)
 ---------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                 Hadronic Processes for GenericIon
   Process: ionElastic                          <<  
         Model:          NNDiffuseElastic: 0 eV << 
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV << 
   Process: ionInelastic                              Process: ionInelastic
         Model:  Binary Light Ion Cascade: 0 eV <<          Model:  Binary Light Ion Cascade: 0 eV  ---> 4 GeV
         Model:                      FTFP: 3 Ge <<          Model:                      FTFP: 2 GeV ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 eV <<       Cr_sctns: Glauber-Gribov nucleus nucleus: 0 eV  ---> 2.88022e+295 J  
   Process: RadioactiveDecay                    <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for He3
   Process: hadElastic                         <<  
         Model:              hElasticLHEP: 0 e << 
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e << 
   Process: He3Inelastic                             Process: He3Inelastic
         Model:  Binary Light Ion Cascade: 0 e <<          Model:  Binary Light Ion Cascade: 0 eV  ---> 4 GeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 2 GeV ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e <<       Cr_sctns: Glauber-Gribov nucleus nucleus: 0 eV  ---> 2.88022e+295 J  
 --------------------------------------------- <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for alpha
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: alphaInelastic                           Process: alphaInelastic
         Model:  Binary Light Ion Cascade: 0 e <<          Model:  Binary Light Ion Cascade: 0 eV  ---> 4 GeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 2 GeV ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e <<       Cr_sctns: Glauber-Gribov nucleus nucleus: 0 eV  ---> 2.88022e+295 J  
 --------------------------------------------- <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for anti_He3
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100.1 MeV
         Model:              AntiAElastic: 100 <<          Model:              AntiAElastic: 100 MeV ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: anti_He3Inelastic                        Process: anti_He3Inelastic
         Model:                      FTFP: 0 e <<          Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: hFritiofCaptureAtRest                    Process: hFritiofCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for anti_alpha
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100.1 MeV
         Model:              AntiAElastic: 100 <<          Model:              AntiAElastic: 100 MeV ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: anti_alphaInelastic                      Process: anti_alphaInelastic
         Model:                      FTFP: 0 e <<          Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: hFritiofCaptureAtRest                    Process: hFritiofCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for anti_deuteron
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100.1 MeV
         Model:              AntiAElastic: 100 <<          Model:              AntiAElastic: 100 MeV ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: anti_deuteronInelastic                   Process: anti_deuteronInelastic
         Model:                      FTFP: 0 e <<          Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
   Process: hFritiofCaptureAtRest              <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
 --------------------------------------------- <<  
                            Hadronic Processes << 
   Process: hFritiofCaptureAtRest              << 
 --------------------------------------------- << 
                            Hadronic Processes << 
   Process: hadElastic                         << 
         Model:              hElasticLHEP: 0 e << 
      Cr_sctns:            Glauber-Gribov: 0 e << 
   Process: anti_lambdaInelastic               << 
         Model:                      QGSP: 12  << 
         Model:                      FTFP: 0 e << 
      Cr_sctns:            Glauber-Gribov: 0 e << 
   Process: hFritiofCaptureAtRest                    Process: hFritiofCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for anti_neutron
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100 TeV
         Model:              AntiAElastic: 100 <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<  
   Process: anti_neutronInelastic                    Process: anti_neutronInelastic
         Model:                      FTFP: 0 e             Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
   Process: hFritiofCaptureAtRest              <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for anti_proton
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e             Model:              hElasticLHEP: 0 eV  ---> 100.1 MeV
         Model:              AntiAElastic: 100             Model:              AntiAElastic: 100 MeV ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: anti_protonInelastic                     Process: anti_protonInelastic
         Model:                      FTFP: 0 e             Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: hFritiofCaptureAtRest                    Process: hFritiofCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for anti_triton
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100.1 MeV
         Model:              AntiAElastic: 100 <<          Model:              AntiAElastic: 100 MeV ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: anti_tritonInelastic                     Process: anti_tritonInelastic
         Model:                      FTFP: 0 e <<          Model:                      FTFP: 0 eV  ---> 100 TeV
      Cr_sctns:              AntiAGlauber: 0 e <<       Cr_sctns:              AntiAGlauber: 0 eV  ---> 2.88022e+295 J  
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: hFritiofCaptureAtRest                    Process: hFritiofCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for deuteron
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: dInelastic                               Process: dInelastic
         Model:  Binary Light Ion Cascade: 0 e <<          Model:  Binary Light Ion Cascade: 0 eV  ---> 4 GeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 2 GeV ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e <<       Cr_sctns: Glauber-Gribov nucleus nucleus: 0 eV  ---> 2.88022e+295 J  
 --------------------------------------------- <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for e+
                                                   >>  
   Process: positronNuclear                          Process: positronNuclear
         Model:   G4ElectroVDNuclearModel: 0 e             Model:   G4ElectroVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:          ElectroNuclearXS: 0 e          Cr_sctns:          ElectroNuclearXS: 0 eV  ---> 100 TeV
 --------------------------------------------- <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for e-
                                                   >>  
   Process: electronNuclear                          Process: electronNuclear
         Model:   G4ElectroVDNuclearModel: 0 e             Model:   G4ElectroVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:          ElectroNuclearXS: 0 e          Cr_sctns:          ElectroNuclearXS: 0 eV  ---> 100 TeV
 --------------------------------------------- <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for gamma
                                                   >>  
   Process: photonNuclear                            Process: photonNuclear
         Model:               GammaNPreco: 0 e <<          Model:            BertiniCascade: 0 eV  ---> 3.5 GeV
         Model:            BertiniCascade: 199 << 
         Model:           TheoFSGenerator: 3 G             Model:           TheoFSGenerator: 3 GeV ---> 100 TeV
      Cr_sctns:            GammaNuclearXS: 0 e <<       Cr_sctns:            PhotoNuclearXS: 0 eV  ---> 100 TeV
 --------------------------------------------- <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for kaon+
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e             Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 e <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: kaon+Inelastic                           Process: kaon+Inelastic
         Model:                      QGSP: 12              Model:                      QGSP: 12 GeV ---> 100 TeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 4 GeV ---> 25 GeV
         Model:            BertiniCascade: 0 e <<          Model:            BertiniCascade: 0 eV  ---> 5 GeV
      Cr_sctns:            Glauber-Gribov: 0 e <<       Cr_sctns:  ChipsKaonPlusInelasticXS: 0 eV  ---> 100 TeV
 --------------------------------------------- <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for kaon-
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e             Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 e <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: kaon-Inelastic                           Process: kaon-Inelastic
         Model:                      QGSP: 12              Model:                      QGSP: 12 GeV ---> 100 TeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 4 GeV ---> 25 GeV
         Model:            BertiniCascade: 0 e <<          Model:            BertiniCascade: 0 eV  ---> 5 GeV
      Cr_sctns:            Glauber-Gribov: 0 e <<       Cr_sctns: ChipsKaonMinusInelasticXS: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: hBertiniCaptureAtRest                    Process: hBertiniCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for lambda
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e             Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:            Glauber-Gribov: 0 e <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: lambdaInelastic                          Process: lambdaInelastic
         Model:                      QGSP: 12  << 
         Model:                      FTFP: 3 G << 
         Model:            BertiniCascade: 0 e             Model:            BertiniCascade: 0 eV  ---> 6 GeV
      Cr_sctns:            Glauber-Gribov: 0 e <<          Model:                      FTFP: 2 GeV ---> 100 TeV
 --------------------------------------------- <<       Cr_sctns:   ChipsHyperonInelasticXS: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for mu+
                                                   >>  
   Process: muonNuclear                              Process: muonNuclear
         Model:      G4MuonVDNuclearModel: 0 e             Model:      G4MuonVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:     KokoulinMuonNuclearXS: 0 e          Cr_sctns:     KokoulinMuonNuclearXS: 0 eV  ---> 100 TeV
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for mu-
                                                   >>  
   Process: muonNuclear                              Process: muonNuclear
         Model:      G4MuonVDNuclearModel: 0 e             Model:      G4MuonVDNuclearModel: 0 eV  ---> 1 PeV
      Cr_sctns:     KokoulinMuonNuclearXS: 0 e          Cr_sctns:     KokoulinMuonNuclearXS: 0 eV  ---> 100 TeV
                                                   >>  
   Process: muMinusCaptureAtRest                     Process: muMinusCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for neutron
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:             hElasticCHIPS: 19.             Model:             hElasticCHIPS: 19.5 MeV ---> 100 TeV
         Model:          NeutronHPElastic: 0 e             Model:          NeutronHPElastic: 0 eV  ---> 20 MeV
      Cr_sctns:        NeutronHPElasticXS: 0 e          Cr_sctns:        NeutronHPElasticXS: 0 eV  ---> 20 MeV
      Cr_sctns:        G4NeutronElasticXS: 0 e <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: neutronInelastic                         Process: neutronInelastic
         Model:                      QGSP: 12              Model:                      QGSP: 12 GeV ---> 100 TeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 9.5 GeV ---> 25 GeV
         Model:            Binary Cascade: 19. <<          Model:            Binary Cascade: 19.9 MeV ---> 9.9 GeV
         Model:        NeutronHPInelastic: 0 e             Model:        NeutronHPInelastic: 0 eV  ---> 20 MeV
      Cr_sctns:      NeutronHPInelasticXS: 0 e          Cr_sctns:      NeutronHPInelasticXS: 0 eV  ---> 20 MeV
      Cr_sctns:      G4NeutronInelasticXS: 0 e <<       Cr_sctns:       Barashenkov-Glauber: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:       Barashenkov-Glauber: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: nCapture                                 Process: nCapture
         Model:          NeutronHPCapture: 0 e             Model:          NeutronHPCapture: 0 eV  ---> 20 MeV
         Model:               nRadCapture: 19.             Model:               nRadCapture: 19.9 MeV ---> 100 TeV
      Cr_sctns:        NeutronHPCaptureXS: 0 e <<       Cr_sctns:        NeutronHPCaptureXS: 0 eV  ---> 20 MeV
      Cr_sctns:        G4NeutronCaptureXS: 0 e          Cr_sctns:        G4NeutronCaptureXS: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:        NeutronHPCaptureXS: 0 eV  ---> 20 MeV
                                                   >>       Cr_sctns:          GheishaCaptureXS: 0 eV  ---> 100 TeV
                                                   >>  
   Process: nFission                                 Process: nFission
         Model:          NeutronHPFission: 0 e             Model:          NeutronHPFission: 0 eV  ---> 20 MeV
         Model:                G4LFission: 19. <<          Model:                G4LFission: 19.9 MeV ---> 2.88022e+295 J  
      Cr_sctns:        NeutronHPFissionXS: 0 e          Cr_sctns:        NeutronHPFissionXS: 0 eV  ---> 20 MeV
      Cr_sctns:                    ZeroXS: 0 e <<       Cr_sctns:          GheishaFissionXS: 0 eV  ---> 100 TeV
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for pi+
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:           hElasticGlauber: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 1.0001 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 e <<          Model:           hElasticGlauber: 1 GeV ---> 100 TeV
                                                   >>       Cr_sctns:       Barashenkov-Glauber: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: pi+Inelastic                             Process: pi+Inelastic
         Model:                      QGSP: 12              Model:                      QGSP: 12 GeV ---> 100 TeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 4 GeV ---> 25 GeV
         Model:            BertiniCascade: 0 e <<          Model:            BertiniCascade: 0 eV  ---> 5 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 e <<       Cr_sctns:      G4CrossSectionPairGG: 0 eV  ---> 100 TeV
 --------------------------------------------- <<                           G4CrossSectionPairGG: G4PiNuclearCrossSection cross sections 
                                                   >>                             below 91 GeV, Glauber-Gribov above 
                                                   >>       Cr_sctns:      G4CrossSectionPairGG: 0 eV  ---> 100 TeV
                                                   >>                           G4CrossSectionPairGG: G4PiNuclearCrossSection cross sections 
                                                   >>                             below 91 GeV, Glauber-Gribov above 
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for pi-
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:           hElasticGlauber: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 1.0001 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 e <<          Model:           hElasticGlauber: 1 GeV ---> 100 TeV
                                                   >>       Cr_sctns:       Barashenkov-Glauber: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: pi-Inelastic                             Process: pi-Inelastic
         Model:                      QGSP: 12              Model:                      QGSP: 12 GeV ---> 100 TeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 4 GeV ---> 25 GeV
         Model:            BertiniCascade: 0 e <<          Model:            BertiniCascade: 0 eV  ---> 5 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 e <<       Cr_sctns:      G4CrossSectionPairGG: 0 eV  ---> 100 TeV
                                                   >>                           G4CrossSectionPairGG: G4PiNuclearCrossSection cross sections 
                                                   >>                             below 91 GeV, Glauber-Gribov above 
                                                   >>       Cr_sctns:      G4CrossSectionPairGG: 0 eV  ---> 100 TeV
                                                   >>                           G4CrossSectionPairGG: G4PiNuclearCrossSection cross sections 
                                                   >>                             below 91 GeV, Glauber-Gribov above 
                                                   >>       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: hBertiniCaptureAtRest                    Process: hBertiniCaptureAtRest
 --------------------------------------------- <<  
                                                   >>  ---------------------------------------------------
                            Hadronic Processes                                Hadronic Processes for proton
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:             hElasticCHIPS: 0 e             Model:             hElasticCHIPS: 0 eV  ---> 100 TeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 e <<       Cr_sctns:      ChipsProtonElasticXS: 0 eV  ---> 100 TeV
                                                   >>       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: protonInelastic                          Process: protonInelastic
         Model:                      QGSP: 12              Model:                      QGSP: 12 GeV ---> 100 TeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 9.5 GeV ---> 25 GeV
         Model:            Binary Cascade: 0 e <<          Model:            Binary Cascade: 0 eV  ---> 9.9 GeV
      Cr_sctns:  BarashenkovGlauberGribov: 0 e <<       Cr_sctns:       Barashenkov-Glauber: 0 eV  ---> 100 TeV
 --------------------------------------------- <<       Cr_sctns:       Barashenkov-Glauber: 0 eV  ---> 100 TeV
                            Hadronic Processes <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
   Process: hadElastic                         <<  
         Model:              hElasticLHEP: 0 e <<  ---------------------------------------------------
      Cr_sctns:            Glauber-Gribov: 0 e << 
   Process: sigma-Inelastic                    << 
         Model:                      QGSP: 12  << 
         Model:                      FTFP: 3 G << 
         Model:            BertiniCascade: 0 e << 
      Cr_sctns:            Glauber-Gribov: 0 e << 
   Process: hBertiniCaptureAtRest              << 
 --------------------------------------------- << 
                            Hadronic Processes                                Hadronic Processes for triton
                                                   >>  
   Process: hadElastic                               Process: hadElastic
         Model:              hElasticLHEP: 0 e <<          Model:              hElasticLHEP: 0 eV  ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e <<       Cr_sctns:            GheishaElastic: 0 eV  ---> 100 TeV
                                                   >>  
   Process: tInelastic                               Process: tInelastic
         Model:  Binary Light Ion Cascade: 0 e <<          Model:  Binary Light Ion Cascade: 0 eV  ---> 4 GeV
         Model:                      FTFP: 3 G <<          Model:                      FTFP: 2 GeV ---> 100 TeV
      Cr_sctns:  Glauber-Gribov Nucl-nucl: 0 e <<       Cr_sctns: Glauber-Gribov nucleus nucleus: 0 eV  ---> 2.88022e+295 J  
   Process: RadioactiveDecay                   <<       Cr_sctns:          GheishaInelastic: 0 eV  ---> 100 TeV
 ============================================= <<  
 ======       Geant4 Native Pre-compound Model <<  ================================================================
 ============================================= << 
 Type of pre-compound inverse x-section        << 
 Pre-compound model active                     << 
 Pre-compound excitation low energy            << 
 Pre-compound excitation high energy           << 
 Angular generator for pre-compound model      << 
 Use NeverGoBack option for pre-compound model << 
 Use SoftCutOff option for pre-compound model  << 
 Use CEM transitions for pre-compound model    << 
 Use GNASH transitions for pre-compound model  << 
 Use HETC submodel for pre-compound model      << 
 ============================================= << 
 ======       Nuclear De-excitation Module Par << 
 ============================================= << 
 Type of de-excitation inverse x-section       << 
 Type of de-excitation factory                 << 
 Number of de-excitation channels              << 
 Min excitation energy                         << 
 Min energy per nucleon for multifragmentation << 
 Limit excitation energy for Fermi BreakUp     << 
 Level density (1/MeV)                         << 
 Use simple level density model                << 
 Use discrete excitation energy of the residua << 
 Time limit for long lived isomeres            << 
 Isomer production flag                        << 
 Internal e- conversion flag                   << 
 Store e- internal conversion data             << 
 Correlated gamma emission flag                << 
 Max 2J for sampling of angular correlations   << 
 ============================================= << 
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