Geant4 LXR

Cross-Referencing   Geant4
Geant4/examples/advanced/human_phantom/human_phantom.out

Diff markup

Differences between /examples/advanced/human_phantom/human_phantom.out (Version 11.3.0) and /examples/advanced/human_phantom/human_phantom.out (Version 10.2)

   Environment variable "G4FORCE_RUN_MANAGER_TYPE << 
                                                        
           ######################################               ############################################
           !!! WARNING - FPE detection is activat               !!! WARNING - FPE detection is activated !!!
           ######################################               ############################################
                                                        
                                                  <<    *************************************************************
             ################################     <<     Geant4 version Name: geant4-10-02-ref-00    (4-December-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    ( << 
                         Copyright : Geant4 Coll << 
                        References : NIM A 506 ( << 
                                   : IEEE-TNS 53 << 
                                   : NIM A 835 ( << 
                               WWW : http://gean << 
  ********************************************** << 
                                                      
  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)
    G4HepRepFile (HepRepFile)                    <<   G4HepRep (HepRepXML)
    RayTracer (RayTracer)                        <<   G4HepRepFile (HepRepFile)
    VRML2FILE (VRML2FILE)                        <<   RayTracer (RayTracer)
    gMocrenFile (gMocrenFile)                    <<   VRML1FILE (VRML1FILE)
    TOOLSSG_OFFSCREEN (TSG_OFFSCREEN, TSG_FILE)  <<   VRML2FILE (VRML2FILE)
    OpenGLImmediateQt (OGLIQt, OGLI)             <<   gMocrenFile (gMocrenFile)
    OpenGLStoredQt (OGLSQt, OGL, OGLS)           <<   OpenGLImmediateQt (OGLIQt, OGLI)
    OpenGLImmediateXm (OGLIXm, OGLIQt_FALLBACK)  <<   OpenGLStoredQt (OGLSQt, OGL, OGLS)
    OpenGLStoredXm (OGLSXm, OGLSQt_FALLBACK)     <<   OpenGLImmediateXm (OGLIXm, OGLIQt_FALLBACK)
    OpenGLImmediateX (OGLIX, OGLIQt_FALLBACK, OG <<   OpenGLStoredXm (OGLSXm, OGLSQt_FALLBACK)
    OpenGLStoredX (OGLSX, OGLSQt_FALLBACK, OGLSX <<   OpenGLImmediateX (OGLIX, OGLIQt_FALLBACK, OGLIXm_FALLBACK)
    RayTracerX (RayTracerX)                      <<   OpenGLStoredX (OGLSX, OGLSQt_FALLBACK, OGLSXm_FALLBACK)
    Qt3D (Qt3D)                                  <<   RayTracerX (RayTracerX)
    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
                                                   >>   
  #                                                   #
  #                                                   #
  #                                                   #
  # Initialize New Phantom                            # Initialize New Phantom
  #                                                   #
  # Choose model: ORNLFemale, ORNLMale, MIRD, MI <<   # Choose model: ORNL, MIRD, MIX
  #                                                   #
  /phantom/setPhantomModel MIRD                       /phantom/setPhantomModel MIRD
   >> Phantom MIRD will be built.                      >> Phantom MIRD will be built.
 #                                                   #
 # Choose Sex of Phantom: Male or Female             # Choose Sex of Phantom: Male or Female
 #                                                   #
 /phantom/setPhantomSex Male                         /phantom/setPhantomSex Male
 >> Male Phantom will be built.                      >> Male Phantom will be built.
 # Construct your Phantom                            # Construct your Phantom
 #                                                   #
 /phantom/buildNewPhantom                            /phantom/buildNewPhantom
  ****************>>>> NEW PHANTOM CONSTRUCTION       ****************>>>> NEW PHANTOM CONSTRUCTION <<<<***************** 
 /run/initialize                                     /run/initialize
 MotherVolume: physicalWorld                         MotherVolume: physicalWorld
 sensitivity : 0                                     sensitivity : 0
 Construct Head with mother physicalWorld            Construct Head with mother physicalWorld
 Checking overlaps for volume physicalHead:0 (G <<   Checking overlaps for volume physicalHead ... OK! 
 Volume of Head = 4654.79 cm^3                  <<   Volume of Head = 4651.91 cm^3
 Material of Head = soft_tissue                      Material of Head = soft_tissue
 Density of Material = 0.9869 g/cm^3                 Density of Material = 0.9869 g/cm^3
 Mass of Head = 4593.82 g                       <<   Mass of Head = 4590.97 g
 MotherVolume: physicalHead                          MotherVolume: physicalHead
 sensitivity : 0                                     sensitivity : 0
 Construct Skull with mother volume physicalHea      Construct Skull with mother volume physicalHead
 Checking overlaps for volume physicalSkull:0 ( <<   Checking overlaps for volume physicalSkull ... OK! 
 Skull created !!!!!!                                Skull created !!!!!!
 Volume of Skull = 846.921 cm^3                 <<   Volume of Skull = 843.246 cm^3
 Material of Skull = skeleton                        Material of Skull = skeleton
 Density of Material = 1.4862 g/cm^3                 Density of Material = 1.4862 g/cm^3
 Mass of Skull = 1258.69 g                      <<   Mass of Skull = 1253.23 g
 Construct Brain with mother physicalHead            Construct Brain with mother physicalHead
 Checking overlaps for volume physicalBrain:0 ( <<   Checking overlaps for volume physicalBrain ... OK! 
 Volume of Brain = 1470.27 cm^3                      Volume of Brain = 1470.27 cm^3
 Material of Brain = soft_tissue                     Material of Brain = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of Brain = 1451 g                             Mass of Brain = 1451 g
 MotherVolume: physicalWorld                        MotherVolume: physicalWorld
 sensitivity : 0                                    sensitivity : 0
 Construct Trunk with mother volume physicalWor     Construct Trunk with mother volume physicalWorld
 Checking overlaps for volume physicalTrunk:0 ( <<  Checking overlaps for volume physicalTrunk ... OK! 
 Trunk created !!!!!!                               Trunk created !!!!!!
 Volume of Trunk = 43982.3 cm^3                 <<  Volume of Trunk = 43960.6 cm^3
 Material of Trunk = soft_tissue                    Material of Trunk = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of Trunk = 43406.1 g                      <<  Mass of Trunk = 43384.7 g
 MotherVolume: physicalWorld                        MotherVolume: physicalWorld
 sensitivity : 0                                    sensitivity : 0
 Construct LeftLeg with mother volume physicalW     Construct LeftLeg with mother volume physicalWorld
 Checking overlaps for volume physicalLeftLeg:0 <<  Checking overlaps for volume physicalLeftLeg ... OK! 
 LeftLeg created !!!!!!                             LeftLeg created !!!!!!
 Volume of LeftLeg = 10388.2 cm^3                   Volume of LeftLeg = 10388.2 cm^3
 Material of LeftLeg = soft_tissue                  Material of LeftLeg = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of LeftLeg = 10252.1 g                        Mass of LeftLeg = 10252.1 g
 MotherVolume: physicalWorld                        MotherVolume: physicalWorld
 sensitivity : 0                                    sensitivity : 0
 Construct RightLeg with mother volume physical     Construct RightLeg with mother volume physicalWorld
 Checking overlaps for volume physicalRightLeg: <<  Checking overlaps for volume physicalRightLeg ... OK! 
 RightLeg created !!!!!!                            RightLeg created !!!!!!
 Volume of RightLeg = 10388.2 cm^3                  Volume of RightLeg = 10388.2 cm^3
 Material of RightLeg = soft_tissue                 Material of RightLeg = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of RightLeg = 10252.1 g                       Mass of RightLeg = 10252.1 g
 MotherVolume: physicalTrunk                        MotherVolume: physicalTrunk
 sensitivity : 0                                    sensitivity : 0
 Construct LeftArmBone with mother physicalTrun     Construct LeftArmBone with mother physicalTrunk
 Checking overlaps for volume physicalLeftArmBo <<  Checking overlaps for volume physicalLeftArmBone ... OK! 
 LeftArmBone created !!!!!!                         LeftArmBone created !!!!!!
 Volume of LeftArmBone = 819.39 cm^3            <<  Volume of LeftArmBone = 819.271 cm^3
 Material of LeftArmBone = skeleton                 Material of LeftArmBone = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of LeftArmBone = 1217.78 g                <<  Mass of LeftArmBone = 1217.6 g
 MotherVolume: physicalTrunk                        MotherVolume: physicalTrunk
 sensitivity : 0                                    sensitivity : 0
 Construct RightArmBone with mother volume phys     Construct RightArmBone with mother volume physicalTrunk
 Checking overlaps for volume physicalRightArmB <<  Checking overlaps for volume physicalRightArmBone ... OK! 
 RightArmBone created !!!!!!                        RightArmBone created !!!!!!
 Volume of RightArmBone = 819.39 cm^3           <<  Volume of RightArmBone = 819.635 cm^3
 Material of RightArmBone = skeleton                Material of RightArmBone = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of RightArmBone = 1217.78 g               <<  Mass of RightArmBone = 1218.14 g
 MotherVolume: physicalLeftLeg                      MotherVolume: physicalLeftLeg
 sensitivity : 0                                    sensitivity : 0
 Construct LeftLegBone with mother volume physi     Construct LeftLegBone with mother volume physicalLeftLeg
 Checking overlaps for volume physicalLeftLegBo <<  Checking overlaps for volume physicalLeftLegBone ... OK! 
 LeftLegBone created !!!!!!                         LeftLegBone created !!!!!!
 Volume of LeftLegBone = 1399.74 cm^3               Volume of LeftLegBone = 1399.74 cm^3
 Material of LeftLegBone = skeleton                 Material of LeftLegBone = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of LeftLegBone = 2080.29 g                    Mass of LeftLegBone = 2080.29 g
 MotherVolume: physicalRightLeg                     MotherVolume: physicalRightLeg
 sensitivity : 0                                    sensitivity : 0
 Construct RightLegBone with mother volume phys     Construct RightLegBone with mother volume physicalRightLeg
 Checking overlaps for volume physicalRightLegB <<  Checking overlaps for volume physicalRightLegBone ... OK! 
 RightLegBone created !!!!!!                        RightLegBone created !!!!!!
 Volume of RightLegBone = 1399.74 cm^3              Volume of RightLegBone = 1399.74 cm^3
 Material of RightLegBone = skeleton                Material of RightLegBone = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of RightLegBone = 2080.29 g                   Mass of RightLegBone = 2080.29 g
 MotherVolume: physicalHead                         MotherVolume: physicalHead
 sensitivity : 0                                    sensitivity : 0
 Construct UpperSpine with mother volume physic     Construct UpperSpine with mother volume physicalHead
 Checking overlaps for volume physicalUpperSpin <<  Checking overlaps for volume physicalUpperSpine ... OK! 
 UpperSpine created !!!!!!                          UpperSpine created !!!!!!
 Volume of UpperSpine = 126.45 cm^3             <<  Volume of UpperSpine = 126.456 cm^3
 Material of UpperSpine = skeleton                  Material of UpperSpine = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of UpperSpine = 187.93 g                  <<  Mass of UpperSpine = 187.938 g
 MotherVolume: physicalTrunk                        MotherVolume: physicalTrunk
 sensitivity : 0                                    sensitivity : 0
 Construct LeftScapula with mother volume physi     Construct LeftScapula with mother volume physicalTrunk
 Checking overlaps for volume physicalLeftScapu <<  Checking overlaps for volume physicalLeftScapula ... OK! 
 LeftScapula created !!!!!!                         LeftScapula created !!!!!!
 Volume of LeftScapula = 91.848 cm^3            <<  Volume of LeftScapula = 101.683 cm^3
 Material of LeftScapula = skeleton                 Material of LeftScapula = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of LeftScapula = 136.505 g                <<  Mass of LeftScapula = 151.121 g
 MotherVolume: physicalTrunk                        MotherVolume: physicalTrunk
 sensitivity : 0                                    sensitivity : 0
 Construct RightScapula with mother volume phys     Construct RightScapula with mother volume physicalTrunk
 Checking overlaps for volume physicalRightScap <<  Checking overlaps for volume physicalRightScapula ... OK! 
 RightScapula created !!!!!!                        RightScapula created !!!!!!
 Volume of RightScapula = 106.747 cm^3          <<  Volume of RightScapula = 100.468 cm^3
 Material of RightScapula = skeleton                Material of RightScapula = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of RightScapula = 158.647 g               <<  Mass of RightScapula = 149.315 g
 Construct LeftAdrenal with mother physicalTrun     Construct LeftAdrenal with mother physicalTrunk
 Checking overlaps for volume physicalLeftAdren <<  Checking overlaps for volume physicalLeftAdrenal ... OK! 
 Left LeftAdrenal created !!!!!!                    Left LeftAdrenal created !!!!!!
 Volume of LeftAdrenal = 7.85398 cm^3               Volume of LeftAdrenal = 7.85398 cm^3
 Material of LeftAdrenal = soft_tissue              Material of LeftAdrenal = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of LeftAdrenal = 7.75109 g                    Mass of LeftAdrenal = 7.75109 g
 Construct RightAdrenal with mother volume phys     Construct RightAdrenal with mother volume physicalTrunk
 Checking overlaps for volume physicalRightAdre <<  Checking overlaps for volume physicalRightAdrenal ... OK! 
 Right RightAdrenal created !!!!!!                  Right RightAdrenal created !!!!!!
 Volume of RightAdrenal = 7.85398 cm^3              Volume of RightAdrenal = 7.85398 cm^3
 Material of RightAdrenal = soft_tissue             Material of RightAdrenal = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of RightAdrenal = 7.75109 g                   Mass of RightAdrenal = 7.75109 g
 Construct Thymus with mother volume physicalTr     Construct Thymus with mother volume physicalTrunk
 Checking overlaps for volume physicalThymus:0  <<  Checking overlaps for volume physicalThymus ... OK! 
 Thymus created !!!!!!                              Thymus created !!!!!!
 Volume of Thymus = 25.1327 cm^3                    Volume of Thymus = 25.1327 cm^3
 Material of Thymus = soft_tissue                   Material of Thymus = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of Thymus = 24.8035 g                         Mass of Thymus = 24.8035 g
 MotherVolume: physicalTrunk                        MotherVolume: physicalTrunk
 sensitivity : 0                                    sensitivity : 0
 Construct LeftClavicle with mother volume phys     Construct LeftClavicle with mother volume physicalTrunk
 Checking overlaps for volume physicalLeftClavi <<  Checking overlaps for volume physicalLeftClavicle ... OK! 
 LeftClavicle created !!!!!!                        LeftClavicle created !!!!!!
 Volume of LeftClavicle = 13.6657 cm^3              Volume of LeftClavicle = 13.6657 cm^3
 Material of LeftClavicle = skeleton                Material of LeftClavicle = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of LeftClavicle = 20.3099 g                   Mass of LeftClavicle = 20.3099 g
 MotherVolume: physicalTrunk                        MotherVolume: physicalTrunk
 sensitivity : 0                                    sensitivity : 0
 Construct RightClavicle with mother volume phy     Construct RightClavicle with mother volume physicalTrunk
 Checking overlaps for volume physicalRightClav <<  Checking overlaps for volume physicalRightClavicle ... OK! 
 RightClavicle created !!!!!!                       RightClavicle created !!!!!!
 Volume of RightClavicle = 13.6657 cm^3             Volume of RightClavicle = 13.6657 cm^3
 Material of RightClavicle = skeleton               Material of RightClavicle = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of RightClavicle = 20.3099 g                  Mass of RightClavicle = 20.3099 g
 Construct SmallIntestine with mother volume ph     Construct SmallIntestine with mother volume physicalTrunk
 Checking overlaps for volume physicalSmallInte <<  Checking overlaps for volume physicalSmallIntestine ... OK! 
 SmallIntestine created !!!!!!                      SmallIntestine created !!!!!!
 Volume of SmallIntestine = 1020.2 cm^3         <<  Volume of SmallIntestine = 1020.98 cm^3
 Material of SmallIntestine = soft_tissue           Material of SmallIntestine = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of SmallIntestine = 1006.83 g             <<  Mass of SmallIntestine = 1007.61 g
 Construct RibCage with mother volume physicalT     Construct RibCage with mother volume physicalTrunk
 Checking overlaps for volume physicalRibCage:0 <<  Checking overlaps for volume physicalRibCage ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 Checking overlaps for volume physicalRib:0 (G4 <<  Checking overlaps for volume physicalRib ... OK! 
 RibCage created !!!!!!                             RibCage created !!!!!!
 Volume of RibCage = 692.88 cm^3                <<  Volume of RibCage = 693.291 cm^3
 Material of RibCage = skeleton                     Material of RibCage = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of RibCage = 1029.76 g                    <<  Mass of RibCage = 1030.37 g
 MotherVolume: physicalTrunk                        MotherVolume: physicalTrunk
 sensitivity : 0                                    sensitivity : 0
 Construct MiddleLowerSpine with mother volume      Construct MiddleLowerSpine with mother volume physicalTrunk
 Checking overlaps for volume physicalMiddleLow <<  Checking overlaps for volume physicalMiddleLowerSpine ... OK! 
 MiddleLowerSpine created !!!!!!                    MiddleLowerSpine created !!!!!!
 Volume of MiddleLowerSpine = 753.982 cm^3      <<  Volume of MiddleLowerSpine = 753.8 cm^3
 Material of MiddleLowerSpine = skeleton            Material of MiddleLowerSpine = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of MiddleLowerSpine = 1120.57 g           <<  Mass of MiddleLowerSpine = 1120.3 g
 Construct Pelvis with mother volume physicalTr     Construct Pelvis with mother volume physicalTrunk
 Checking overlaps for volume physicalPelvis:0  <<  Checking overlaps for volume physicalPelvis ... OK! 
 Pelvis created !!!!!!                              Pelvis created !!!!!!
 Volume of Pelvis = 606.07 cm^3                 <<  Volume of Pelvis = 603.174 cm^3
 Material of Pelvis = skeleton                      Material of Pelvis = skeleton
 Density of Material = 1.4862 g/cm^3                Density of Material = 1.4862 g/cm^3
 Mass of Pelvis = 900.741 g                     <<  Mass of Pelvis = 896.437 g
 Construct Stomach with mother volume physicalT     Construct Stomach with mother volume physicalTrunk
 Checking overlaps for volume physicalStomach:0 <<  Checking overlaps for volume physicalStomach ... OK! 
 Stomach created !!!!!!                             Stomach created !!!!!!
 Volume of Stomach = 402.124 cm^3                   Volume of Stomach = 402.124 cm^3
 Material of Stomach = soft_tissue                  Material of Stomach = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of Stomach = 396.856 g                        Mass of Stomach = 396.856 g
 Construct UpperLargeIntestine with mother volu     Construct UpperLargeIntestine with mother volume physicalTrunk
 Checking overlaps for volume physicalUpperLarg <<  Checking overlaps for volume physicalUpperLargeIntestine ... OK! 
 UpperLargeIntestine created !!!!!!                 UpperLargeIntestine created !!!!!!
 Volume of UpperLargeIntestine = 434.914 cm^3   <<  Volume of UpperLargeIntestine = 435.511 cm^3
 Material of UpperLargeIntestine = soft_tissue      Material of UpperLargeIntestine = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of UpperLargeIntestine = 429.217 g        <<  Mass of UpperLargeIntestine = 429.805 g
 Construct LowerLargeIntestine with mother volu     Construct LowerLargeIntestine with mother volume physicalTrunk
 Checking overlaps for volume physicalLowerLarg <<  Checking overlaps for volume physicalLowerLargeIntestine ... OK! 
 LowerLargeIntestine created !!!!!!                 LowerLargeIntestine created !!!!!!
 Volume of LowerLargeIntestine = 344.316 cm^3   <<  Volume of LowerLargeIntestine = 344.779 cm^3
 Material of LowerLargeIntestine = soft_tissue      Material of LowerLargeIntestine = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of LowerLargeIntestine = 339.805 g        <<  Mass of LowerLargeIntestine = 340.262 g
 Construct Spleen with mother volume physicalTr     Construct Spleen with mother volume physicalTrunk
 Checking overlaps for volume physicalSpleen:0  <<  Checking overlaps for volume physicalSpleen ... OK! 
 Spleen created !!!!!!                              Spleen created !!!!!!
 Volume of Spleen = 175.929 cm^3                    Volume of Spleen = 175.929 cm^3
 Material of Spleen = soft_tissue                   Material of Spleen = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of Spleen = 173.625 g                         Mass of Spleen = 173.625 g
 Construct Pancreas with mother volume physical     Construct Pancreas with mother volume physicalTrunk
 Checking overlaps for volume physicalPancreas: <<  Checking overlaps for volume physicalPancreas ... OK! 
 Pancreas created !!!!!!                            Pancreas created !!!!!!
 Volume of Pancreas = 61.101 cm^3               <<  Volume of Pancreas = 61.0002 cm^3
 Material of Pancreas = soft_tissue                 Material of Pancreas = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of Pancreas = 60.3006 g                   <<  Mass of Pancreas = 60.2011 g
 Construct LeftKidney with mother volume physic     Construct LeftKidney with mother volume physicalTrunk
 Checking overlaps for volume physicalLeftKidne <<  Checking overlaps for volume physicalLeftKidney ... OK! 
 Left LeftKidney created !!!!!!                     Left LeftKidney created !!!!!!
 Volume of LeftKidney = 144.001 cm^3            <<  Volume of LeftKidney = 144.107 cm^3
 Material of LeftKidney = soft_tissue               Material of LeftKidney = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of LeftKidney = 142.115 g                 <<  Mass of LeftKidney = 142.219 g
 Construct RightKidney with mother volume physi     Construct RightKidney with mother volume physicalTrunk
 Checking overlaps for volume physicalRightKidn <<  Checking overlaps for volume physicalRightKidney ... OK! 
 RightKidney created !!!!!!                         RightKidney created !!!!!!
 Volume of RightKidney = 143.986 cm^3           <<  Volume of RightKidney = 143.9 cm^3
 Material of RightKidney = soft_tissue              Material of RightKidney = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of RightKidney = 142.1 g                  <<  Mass of RightKidney = 142.015 g
 Construct UrinaryBladder with mother volume ph     Construct UrinaryBladder with mother volume physicalTrunk
 Checking overlaps for volume physicalUrinaryBl <<  Checking overlaps for volume physicalUrinaryBladder ... OK! 
 UrinaryBladder created !!!!!!                      UrinaryBladder created !!!!!!
 Volume of UrinaryBladder = 45.7615 cm^3        <<  Volume of UrinaryBladder = 45.5462 cm^3
 Material of UrinaryBladder = soft_tissue           Material of UrinaryBladder = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of UrinaryBladder = 45.1621 g             <<  Mass of UrinaryBladder = 44.9496 g
 MotherVolume: physicalWorld                        MotherVolume: physicalWorld
 sensitivity : 0                                    sensitivity : 0
 Construct MaleGenitalia with mother volume phy     Construct MaleGenitalia with mother volume physicalWorld
 Checking overlaps for volume physicalMaleGenit <<  Checking overlaps for volume physicalMaleGenitalia ... OK! 
 MaleGenitalia created !!!!!!                       MaleGenitalia created !!!!!!
 Volume of MaleGenitalia = 229.106 cm^3         <<  Volume of MaleGenitalia = 229.385 cm^3
 Material of MaleGenitalia = soft_tissue            Material of MaleGenitalia = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of MaleGenitalia = 226.105 g              <<  Mass of MaleGenitalia = 226.38 g
 MotherVolume: physicalWorld                        MotherVolume: physicalWorld
 sensitivity : 0                                    sensitivity : 0
 Construct LeftTeste with mother volume physica     Construct LeftTeste with mother volume physicalMaleGenitalia
 Checking overlaps for volume physicalLeftTeste <<  Checking overlaps for volume physicalLeftTeste ... OK! 
 LeftTeste created !!!!!!                           LeftTeste created !!!!!!
 Volume of LeftTeste = 18.7867 cm^3                 Volume of LeftTeste = 18.7867 cm^3
 Material of LeftTeste = soft_tissue                Material of LeftTeste = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of LeftTeste = 18.5406 g                      Mass of LeftTeste = 18.5406 g
 MotherVolume: physicalWorld                        MotherVolume: physicalWorld
 sensitivity : 0                                    sensitivity : 0
 Construct RightTeste with mother volume physic     Construct RightTeste with mother volume physicalMaleGenitalia
 Checking overlaps for volume physicalRightTest <<  Checking overlaps for volume physicalRightTeste ... OK! 
 RightTeste created !!!!!!                          RightTeste created !!!!!!
 Volume of RightTeste = 18.7867 cm^3                Volume of RightTeste = 18.7867 cm^3
 Material of RightTeste = soft_tissue               Material of RightTeste = soft_tissue
 Density of Material = 0.9869 g/cm^3                Density of Material = 0.9869 g/cm^3
 Mass of RightTeste = 18.5406 g                     Mass of RightTeste = 18.5406 g
 # or ...                                           # or ...
 #/control/execute adultMIRDFemale.mac              #/control/execute adultMIRDFemale.mac
 # or ...                                           # or ...
 #/control/execute adultORNLMale.mac                #/control/execute adultORNLMale.mac
 # or...                                            # or...
 #/control/execute adultORNLFemale.mac              #/control/execute adultORNLFemale.mac
 #                                                  #
 # Primary radiation field                          # Primary radiation field
 /control/execute primary.mac                       /control/execute primary.mac
 #                                                  #
 ### Radiation field defined                        ### Radiation field defined
 ### by means of GPS                                ### by means of GPS 
 /gps/verbose 0                                     /gps/verbose 0
 /gps/particle e-                                   /gps/particle e-
 /gps/energy 1 MeV                                  /gps/energy 1 MeV
 #                                                  #
 /gps/pos/type Volume                               /gps/pos/type Volume
 #                                                  #
 /gps/pos/shape Para                                /gps/pos/shape Para
 /gps/pos/halfx 20 cm                               /gps/pos/halfx 20 cm
 /gps/pos/halfy 1 mm                                /gps/pos/halfy 1 mm
 /gps/pos/halfz 100 cm                              /gps/pos/halfz 100 cm
 /gps/pos/centre 0. 30. 0. cm                       /gps/pos/centre 0. 30. 0. cm
 /gps/direction 0 -1 0                              /gps/direction 0 -1 0
 #                                                  #
 /run/beamOn 100                                    /run/beamOn 100
 ============================================== << 
 ======                 Electromagnetic Physics << 
 ============================================== << 
 LPM effect enabled                             << 
 Enable creation and use of sampling tables     << 
 Apply cuts on all EM processes                 << 
 Use combined TransportationWithMsc             << 
 Use general process                            << 
 Enable linear polarisation for gamma           << 
 Enable photoeffect sampling below K-shell      << 
 Enable sampling of quantum entanglement        << 
 X-section factor for integral approach         << 
 Min kinetic energy for tables                  << 
 Max kinetic energy for tables                  << 
 Number of bins per decade of a table           << 
 Verbose level                                  << 
 Verbose level for worker thread                << 
 Bremsstrahlung energy threshold above which    << 
   primary e+- is added to the list of secondar << 
 Bremsstrahlung energy threshold above which pr << 
   muon/hadron is added to the list of secondar << 
 Positron annihilation at rest model            << 
 Enable 3 gamma annihilation on fly             << 
 Lowest triplet kinetic energy                  << 
 Enable sampling of gamma linear polarisation   << 
 5D gamma conversion model type                 << 
 5D gamma conversion model on isolated ion      << 
 Use Ricardo-Gerardo pair production model      << 
 Livermore data directory                       << 
 ============================================== << 
 ======                 Ionisation Parameters   << 
 ============================================== << 
 Step function for e+-                          << 
 Step function for muons/hadrons                << 
 Step function for light ions                   << 
 Step function for general ions                 << 
 Lowest e+e- kinetic energy                     << 
 Lowest muon/hadron kinetic energy              << 
 Use ICRU90 data                                << 
 Fluctuations of dE/dx are enabled              << 
 Type of fluctuation model for leptons and hadr << 
 Use built-in Birks satuaration                 << 
 Build CSDA range enabled                       << 
 Use cut as a final range enabled               << 
 Enable angular generator interface             << 
 Max kinetic energy for CSDA tables             << 
 Max kinetic energy for NIEL computation        << 
 Linear loss limit                              << 
 Read data from file for e+e- pair production b << 
 ============================================== << 
 ======                 Multiple Scattering Par << 
 ============================================== << 
 Type of msc step limit algorithm for e+-       << 
 Type of msc step limit algorithm for muons/had << 
 Msc lateral displacement for e+- enabled       << 
 Msc lateral displacement for muons and hadrons << 
 Urban msc model lateral displacement alg96     << 
 Range factor for msc step limit for e+-        << 
 Range factor for msc step limit for muons/hadr << 
 Geometry factor for msc step limitation of e+- << 
 Safety factor for msc step limit for e+-       << 
 Skin parameter for msc step limitation of e+-  << 
 Lambda limit for msc step limit for e+-        << 
 Use Mott correction for e- scattering          << 
 Factor used for dynamic computation of angular << 
   limit between single and multiple scattering << 
 Fixed angular limit between single             << 
   and multiple scattering                      << 
 Upper energy limit for e+- multiple scattering << 
 Type of electron single scattering model       << 
 Type of nuclear form-factor                    << 
 Screening factor                               << 
 ============================================== << 
 ======                 Atomic Deexcitation Par << 
 ============================================== << 
 Fluorescence enabled                           << 
 Directory in G4LEDATA for fluorescence data fi << 
 Auger electron cascade enabled                 << 
 PIXE atomic de-excitation enabled              << 
 De-excitation module ignores cuts              << 
 Type of PIXE cross section for hadrons         << 
 Type of PIXE cross section for e+-             << 
 ============================================== << 
                                                    
 ### ===  Deexcitation model UAtomDeexcitation      ### ===  Deexcitation model UAtomDeexcitation is activated for 1 region:
           DefaultRegionForTheWorld  1  0  0    <<            DefaultRegionForTheWorld
 ### ===  Ignore cuts flag:   0                 << 
                                                << 
 phot:  for gamma SubType=12 BuildTable=0       << 
       LambdaPrime table from 200 keV to 100 Te << 
       ===== EM models for the G4Region  Defaul << 
  LivermorePhElectric : Emin=    0 eV  Emax=  1 << 
                                                << 
 compt:  for gamma SubType=13 BuildTable=1      << 
       Lambda table from 100 eV  to 1 MeV, 20 b << 
       LambdaPrime table from 1 MeV to 100 TeV  << 
       ===== EM models for the G4Region  Defaul << 
    LowEPComptonModel : Emin=    0 eV  Emax=    << 
         KleinNishina : Emin=   20 MeV Emax=  1 << 
                                                    
 conv:  for gamma SubType=14 BuildTable=1       <<  phot:   for  gamma    SubType= 12  BuildTable= 0
       Lambda table from 1.022 MeV to 100 TeV,  <<        LambdaPrime table from 200 keV to 10 TeV in 154 bins 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
       BetheHeitler5D : Emin=    0 eV  Emax=  1 <<   LivermorePhElectric :  Emin=        0 eV    Emax=       10 TeV   AngularGenSauterGavrila  FluoActive
                                                    
 Rayl:  for gamma SubType=11 BuildTable=1       <<  compt:   for  gamma    SubType= 13  BuildTable= 1
       Lambda table from 100 eV  to 150 keV, 20 <<        Lambda table from 100 eV  to 1 MeV, 20 bins per decade, spline: 1
       LambdaPrime table from 150 keV to 100 Te <<        LambdaPrime table from 1 MeV to 10 TeV in 140 bins 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
    LivermoreRayleigh : Emin=    0 eV  Emax=  1 <<     LowEPComptonModel :  Emin=        0 eV    Emax=       20 MeV  FluoActive
                                                   >>          KleinNishina :  Emin=       20 MeV   Emax=       10 TeV  FluoActive
                                                    
 msc:  for e-  SubType= 10                      <<  conv:   for  gamma    SubType= 14  BuildTable= 1
                                                   >>        Lambda table from 1.022 MeV to 10 TeV, 20 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   GoudsmitSaunderson : Emin=    0 eV  Emax=  1 <<         PenConversion :  Emin=        0 eV    Emax=       80 GeV
           StepLim=SafetyPlus Rfact=0.08 Gfact= <<       BetheHeitlerLPM :  Emin=       80 GeV   Emax=       10 TeV
         WentzelVIUni : Emin=  100 MeV Emax=  1 << 
           StepLim=SafetyPlus Rfact=0.08 Gfact= << 
                                                    
 eIoni:  for e-  XStype:3  SubType=2            <<  Rayl:   for  gamma    SubType= 11  BuildTable= 1
       dE/dx and range tables from 100 eV  to 1 <<        Lambda table from 100 eV  to 100 keV, 20 bins per decade, spline: 0
       Lambda tables from threshold to 100 TeV, <<        LambdaPrime table from 100 keV to 10 TeV in 160 bins 
       StepFunction=(0.2, 0.01 mm), integ: 3, f << 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
              PenIoni : Emin=    0 eV  Emax=  1 <<     LivermoreRayleigh :  Emin=        0 eV    Emax=       10 TeV   CullenGenerator
         MollerBhabha : Emin=  100 keV Emax=  1 << 
                                                    
 eBrem:  for e-  XStype:4  SubType=3            <<  msc:   for e-    SubType= 10
       dE/dx and range tables from 100 eV  to 1 <<        RangeFactor= 0.02, stepLimitType: 3, latDisplacement: 1, skin= 1, geomFactor= 2.5
       Lambda tables from threshold to 100 TeV, << 
       LPM flag: 1 for E > 1 GeV,  VertexHighEn << 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
              eBremSB : Emin=    0 eV  Emax=    <<              UrbanMsc :  Emin=        0 eV    Emax=      100 MeV  Table with 120 bins Emin=    100 eV    Emax=    100 MeV
             eBremLPM : Emin=    1 GeV Emax=  1 <<          WentzelVIUni :  Emin=      100 MeV   Emax=       10 TeV  Table with 100 bins Emin=    100 MeV   Emax=     10 TeV
                                                    
 ePairProd:  for e-  XStype:1  SubType=4        <<  eIoni:   for  e-    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 25x1001 from 0.1 GeV to 1 <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            ePairProd : Emin=    0 eV  Emax=  1 <<               PenIoni :  Emin=        0 eV    Emax=        1 MeV
                                                   >>          MollerBhabha :  Emin=        1 MeV   Emax=       10 TeV   deltaVI
                                                    
 CoulombScat:  for e- XStype:1 SubType=1 BuildT <<  eBrem:   for  e-    SubType= 3
       Lambda table from 100 MeV to 100 TeV, 20 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       ThetaMin(p) < Theta(degree) < 180, pLimi <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
                                                   >>        LPM flag: 1 for E > 1 GeV,  HighEnergyThreshold(GeV)= 10000
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=  100 MeV Emax=  1 <<               eBremSB :  Emin=        0 eV    Emax=        1 GeV   AngularGen2BS
                                                   >>              eBremLPM :  Emin=        1 GeV   Emax=       10 TeV   AngularGen2BS
                                                    
 msc:  for e+  SubType= 10                      <<  CoulombScat:   for  e-, integral: 1     SubType= 1  BuildTable= 1
                                                   >>        Lambda table from 100 MeV to 10 TeV, 20 bins per decade, spline: 1
                                                   >>        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   GoudsmitSaunderson : Emin=    0 eV  Emax=  1 <<    eCoulombScattering :  Emin=      100 MeV   Emax=       10 TeV
           StepLim=SafetyPlus Rfact=0.08 Gfact= << 
         WentzelVIUni : Emin=  100 MeV Emax=  1 << 
           StepLim=SafetyPlus Rfact=0.08 Gfact= << 
                                                    
 eIoni:  for e+  XStype:3  SubType=2            <<  msc:   for e+    SubType= 10
       dE/dx and range tables from 100 eV  to 1 <<        RangeFactor= 0.02, stepLimitType: 3, latDisplacement: 1, skin= 1, geomFactor= 2.5
       Lambda tables from threshold to 100 TeV, << 
       StepFunction=(0.2, 0.01 mm), integ: 3, f << 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
              PenIoni : Emin=    0 eV  Emax=  1 <<              UrbanMsc :  Emin=        0 eV    Emax=      100 MeV  Table with 120 bins Emin=    100 eV    Emax=    100 MeV
         MollerBhabha : Emin=  100 keV Emax=  1 <<          WentzelVIUni :  Emin=      100 MeV   Emax=       10 TeV  Table with 100 bins Emin=    100 MeV   Emax=     10 TeV
                                                    
 eBrem:  for e+  XStype:4  SubType=3            <<  eIoni:   for  e+    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       LPM flag: 1 for E > 1 GeV,  VertexHighEn <<        finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
              eBremSB : Emin=    0 eV  Emax=    <<               PenIoni :  Emin=        0 eV    Emax=        1 MeV
             eBremLPM : Emin=    1 GeV Emax=  1 <<          MollerBhabha :  Emin=        1 MeV   Emax=       10 TeV   deltaVI
                                                    
 ePairProd:  for e+  XStype:1  SubType=4        <<  eBrem:   for  e+    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 25x1001 from 0.1 GeV to 1 <<        LPM flag: 1 for E > 1 GeV,  HighEnergyThreshold(GeV)= 10000
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            ePairProd : Emin=    0 eV  Emax=  1 <<               eBremSB :  Emin=        0 eV    Emax=        1 GeV   AngularGen2BS
                                                   >>              eBremLPM :  Emin=        1 GeV   Emax=       10 TeV   AngularGen2BS
                                                    
 annihil:  for e+ XStype:2 SubType=5 AtRestMode <<  annihil:   for  e+, integral: 1     SubType= 5  BuildTable= 0
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
     eplusTo2or3gamma : Emin=    0 eV  Emax=  1 <<              eplus2gg :  Emin=        0 eV    Emax=       10 TeV
                                                    
 CoulombScat:  for e+ XStype:1 SubType=1 BuildT <<  CoulombScat:   for  e+, integral: 1     SubType= 1  BuildTable= 1
       Lambda table from 100 MeV to 100 TeV, 20 <<        Lambda table from 100 MeV to 10 TeV, 20 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=  100 MeV Emax=  1 <<    eCoulombScattering :  Emin=      100 MeV   Emax=       10 TeV
                                                    
 msc:  for proton  SubType= 10                  <<  msc:   for proton    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 0, 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 220 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 hIoni:  for proton  XStype:3  SubType=2        <<  hIoni:   for  proton    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.02, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.01
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                Bragg : Emin=    0 eV  Emax=    <<                 Bragg :  Emin=        0 eV    Emax=        2 MeV   deltaVI
           BetheBloch : Emin=    2 MeV Emax=  1 <<            BetheBloch :  Emin=        2 MeV   Emax=       10 TeV   deltaVI
                                                    
 hBrems:  for proton  XStype:1  SubType=3       <<  hBrems:   for  proton    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 hPairProd:  for proton  XStype:1  SubType=4    <<  hPairProd:   for  proton    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 17x1001 from 7.50618 GeV  <<        Sampling table 13x1001 from 7.50618 GeV to 10 TeV 
       ===== 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 proton XStype:1 SubType=1 Bu <<  CoulombScat:   for  proton, integral: 1     SubType= 1  BuildTable= 1
       Lambda table from threshold  to 100 TeV, <<        Used Lambda table of anti_proton
       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
                                                    
 nuclearStopping:  for proton SubType=8 BuildTa <<  nuclearStopping:   for  proton    SubType= 8  BuildTable= 0
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
    ICRU49NucStopping : Emin=    0 eV  Emax=    <<     ICRU49NucStopping :  Emin=        0 eV    Emax=        1 MeV
                                                    
 msc:  for GenericIon  SubType= 10              <<  msc:   for GenericIon    SubType= 10
                                                   >>        RangeFactor= 0.2, stepLimitType: 0, latDisplacement: 0
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             UrbanMsc : Emin=    0 eV  Emax=  1 <<              UrbanMsc :  Emin=        0 eV    Emax=       10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 ionIoni:  for GenericIon  XStype:3  SubType=2  <<  ionIoni:   for  GenericIon    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.001 mm), integ: 3,  <<        finalRange(mm)= 0.001, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.02
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
     LindhardSorensen : Emin=    0 eV  Emax=  1 <<           ParamICRU73 :  Emin=        0 eV    Emax=       10 TeV   deltaVI
                                                    
 nuclearStopping:  for GenericIon SubType=8 Bui <<  nuclearStopping:   for  GenericIon    SubType= 8  BuildTable= 0
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
    ICRU49NucStopping : Emin=    0 eV  Emax=    <<     ICRU49NucStopping :  Emin=        0 eV    Emax=        1 MeV
                                                    
 msc:  for alpha  SubType= 10                   <<  msc:   for alpha    SubType= 10
                                                   >>        RangeFactor= 0.2, stepLimitType: 0, latDisplacement: 0
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             UrbanMsc : Emin=    0 eV  Emax=  1 <<              UrbanMsc :  Emin=        0 eV    Emax=       10 TeV  Table with 220 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 ionIoni:  for alpha  XStype:3  SubType=2       <<  ionIoni:   for  alpha    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.02 mm), integ: 3, f <<        finalRange(mm)= 0.01, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.02
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             BraggIon : Emin=    0 eV  Emax=7.9 <<              BraggIon :  Emin=        0 eV    Emax=   7.9452 MeV   deltaVI
           BetheBloch : Emin=7.9452 MeV Emax=   <<            BetheBloch :  Emin=   7.9452 MeV   Emax=       10 TeV   deltaVI
                                                    
 nuclearStopping:  for alpha SubType=8 BuildTab <<  nuclearStopping:   for  alpha    SubType= 8  BuildTable= 0
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
    ICRU49NucStopping : Emin=    0 eV  Emax=    <<     ICRU49NucStopping :  Emin=        0 eV    Emax=        1 MeV
                                                    
 msc:  for anti_proton  SubType= 10             <<  msc:   for anti_proton    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 0, 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 220 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 hIoni:  for anti_proton  XStype:3  SubType=2   <<  hIoni:   for  anti_proton    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.02, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.01
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
             ICRU73QO : Emin=    0 eV  Emax=    <<              ICRU73QO :  Emin=        0 eV    Emax=        2 MeV   deltaVI
           BetheBloch : Emin=    2 MeV Emax=  1 <<            BetheBloch :  Emin=        2 MeV   Emax=       10 TeV   deltaVI
                                                    
 hBrems:  for anti_proton  XStype:1  SubType=3  <<  hBrems:   for  anti_proton    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 hPairProd:  for anti_proton  XStype:1  SubType <<  hPairProd:   for  anti_proton    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 17x1001 from 7.50618 GeV  <<        Sampling table 13x1001 from 7.50618 GeV to 10 TeV 
                                                   >>        ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                                                   >>             hPairProd :  Emin=        0 eV    Emax=       10 TeV
                                                   >>  
                                                   >>  CoulombScat:   for  anti_proton, integral: 1     SubType= 1  BuildTable= 1
                                                   >>        Lambda table from threshold  to 10 TeV, 20 bins per decade, spline: 1
                                                   >>        180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
            hPairProd : Emin=    0 eV  Emax=  1 <<    eCoulombScattering :  Emin=        0 eV    Emax=       10 TeV
                                                    
 CoulombScat:  for anti_proton XStype:1 SubType <<  nuclearStopping:   for  anti_proton    SubType= 8  BuildTable= 0
       Lambda table from threshold  to 100 TeV, << 
       ThetaMin(p) < Theta(degree) < 180, pLimi << 
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
   eCoulombScattering : Emin=    0 eV  Emax=  1 <<     ICRU49NucStopping :  Emin=        0 eV    Emax=        1 MeV
                                                    
 msc:  for kaon+  SubType= 10                   <<  msc:   for kaon+    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 0, 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 220 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 hIoni:  for kaon+  XStype:3  SubType=2         <<  hIoni:   for  kaon+    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.05, 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=1.0 <<                 Bragg :  Emin=        0 eV    Emax=  1.05231 MeV   deltaVI
           BetheBloch : Emin=1.05231 MeV Emax=  <<            BetheBloch :  Emin=  1.05231 MeV   Emax=       10 TeV   deltaVI
                                                    
 hBrems:  for kaon+  XStype:1  SubType=3        <<  hBrems:   for  kaon+    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 hPairProd:  for kaon+  XStype:1  SubType=4     <<  hPairProd:   for  kaon+    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 18x1001 from 3.94942 GeV  <<        Sampling table 14x1001 from 3.94942 GeV to 10 TeV 
       ===== 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 kaon+ XStype:1 SubType=1 Bui <<  CoulombScat:   for  kaon+, integral: 1     SubType= 1  BuildTable= 1
       Lambda table from threshold  to 100 TeV, <<        Lambda table from threshold  to 10 TeV, 20 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 kaon-  SubType= 10                   <<  msc:   for kaon-    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 0, 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 220 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 hIoni:  for kaon-  XStype:3  SubType=2         <<  hIoni:   for  kaon-    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.05, 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=1.0 <<              ICRU73QO :  Emin=        0 eV    Emax=  1.05231 MeV   deltaVI
           BetheBloch : Emin=1.05231 MeV Emax=  <<            BetheBloch :  Emin=  1.05231 MeV   Emax=       10 TeV   deltaVI
                                                    
 hBrems:  for kaon-  XStype:1  SubType=3        <<  hBrems:   for  kaon-    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 hPairProd:  for kaon-  XStype:1  SubType=4     <<  hPairProd:   for  kaon-    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 18x1001 from 3.94942 GeV  <<        Sampling table 14x1001 from 3.94942 GeV to 10 TeV 
       ===== 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 kaon- XStype:1 SubType=1 Bui <<  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: 0, 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 220 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 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.05, 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   deltaVI
         MuBetheBloch : Emin=  200 keV Emax=  1 <<            BetheBloch :  Emin=      200 keV   Emax=        1 GeV   deltaVI
                                                   >>          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 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 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
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 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 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 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, 20 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: 0, 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 220 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 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.05, 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   deltaVI
         MuBetheBloch : Emin=  200 keV Emax=  1 <<            BetheBloch :  Emin=      200 keV   Emax=        1 GeV   deltaVI
                                                   >>          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 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 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
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 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 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 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
                                                    
 msc:  for pi+  SubType= 10                     <<  msc:   for pi+    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 0, 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 220 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 hIoni:  for pi+  XStype:3  SubType=2           <<  hIoni:   for  pi+    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.05, 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=297 <<                 Bragg :  Emin=        0 eV    Emax=  297.505 keV   deltaVI
           BetheBloch : Emin=297.505 keV Emax=  <<            BetheBloch :  Emin=  297.505 keV   Emax=       10 TeV   deltaVI
                                                    
 hBrems:  for pi+  XStype:1  SubType=3          <<  hBrems:   for  pi+    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 hPairProd:  for pi+  XStype:1  SubType=4       <<  hPairProd:   for  pi+    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 20x1001 from 1.11656 GeV  <<        Sampling table 16x1001 from 1.11656 GeV to 10 TeV 
       ===== 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
       Lambda table from threshold  to 100 TeV, <<        Lambda table from threshold  to 10 TeV, 20 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 pi-  SubType= 10                     <<  msc:   for pi-    SubType= 10
                                                   >>        RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 0, 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 220 bins Emin=    100 eV    Emax=     10 TeV
           StepLim=Minimal Rfact=0.2 Gfact=2.5  << 
                                                    
 hIoni:  for pi-  XStype:3  SubType=2           <<  hIoni:   for  pi-    SubType= 2
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       StepFunction=(0.1, 0.05 mm), integ: 3, f <<        finalRange(mm)= 0.05, 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=297 <<              ICRU73QO :  Emin=        0 eV    Emax=  297.505 keV   deltaVI
           BetheBloch : Emin=297.505 keV Emax=  <<            BetheBloch :  Emin=  297.505 keV   Emax=       10 TeV   deltaVI
                                                    
 hBrems:  for pi-  XStype:1  SubType=3          <<  hBrems:   for  pi-    SubType= 3
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       ===== EM models for the G4Region  Defaul           ===== EM models for the G4Region  DefaultRegionForTheWorld ======
                hBrem : Emin=    0 eV  Emax=  1 <<                 hBrem :  Emin=        0 eV    Emax=       10 TeV
       ===== Limit on energy threshold has been           ===== Limit on energy threshold has been applied 
                                                    
 hPairProd:  for pi-  XStype:1  SubType=4       <<  hPairProd:   for  pi-    SubType= 4
       dE/dx and range tables from 100 eV  to 1 <<        dE/dx and range tables from 100 eV  to 10 TeV in 220 bins
       Lambda tables from threshold to 100 TeV, <<        Lambda tables from threshold to 10 TeV, 20 bins per decade, spline: 1
       Sampling table 20x1001 from 1.11656 GeV  <<        Sampling table 16x1001 from 1.11656 GeV to 10 TeV 
       ===== 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
                                                    
 ========= Table of registered couples ======== <<  ========= Table of registered couples ==============================
                                                    
 Index : 0     used in the geometry : Yes           Index : 0     used in the geometry : Yes
  Material : Air                                     Material : Air
  Range cuts        :  gamma  1 mm     e-  1 mm      Range cuts        :  gamma  1 mm     e-  1 mm     e+  1 mm  proton 1 mm 
  Energy thresholds :  gamma  250 eV     e-  32 <<   Energy thresholds :  gamma  250 eV     e-  339.229 eV     e+  333.259 eV  proton 100 keV
  Region(s) which use this couple :                  Region(s) which use this couple : 
     DefaultRegionForTheWorld                           DefaultRegionForTheWorld
                                                    
 Index : 1     used in the geometry : Yes           Index : 1     used in the geometry : Yes
  Material : soft_tissue                             Material : soft_tissue
  Range cuts        :  gamma  1 mm     e-  1 mm      Range cuts        :  gamma  1 mm     e-  1 mm     e+  1 mm  proton 1 mm 
  Energy thresholds :  gamma  2.80001 keV    e- <<   Energy thresholds :  gamma  2.79506 keV    e-  349.375 keV    e+  336.864 keV proton 100 keV
  Region(s) which use this couple :                  Region(s) which use this couple : 
     DefaultRegionForTheWorld                           DefaultRegionForTheWorld
                                                    
 Index : 2     used in the geometry : Yes           Index : 2     used in the geometry : Yes
  Material : skeleton                                Material : skeleton
  Range cuts        :  gamma  1 mm     e-  1 mm      Range cuts        :  gamma  1 mm     e-  1 mm     e+  1 mm  proton 1 mm 
  Energy thresholds :  gamma  4.00973 keV    e- <<   Energy thresholds :  gamma  3.99576 keV    e-  444.448 keV    e+  425.418 keV proton 100 keV
  Region(s) which use this couple :                  Region(s) which use this couple : 
     DefaultRegionForTheWorld                           DefaultRegionForTheWorld
                                                    
 ============================================== <<  ====================================================================
                                                    
 ### Run 0 start.                                   ### Run 0 start.
 ... set ntuple merging mode : G4NtupleMergeMod << 
 ... set ntuple merging mode : G4NtupleMergeMod << 
 ... set ntuple merging row mode : row-wise - d << 
 ... create directory for ntuples : human_phant << 
 ... create file : human_phantom.root - done    << 
 ... open analysis file : human_phantom.root -  << 
 ... open analysis file : human_phantom.root -  << 
 ... create ntuple booking : 1 ntupleId 1 - don << 
 ... create ntuple T column : organID ntupleId  << 
 ... create ntuple T column : edep ntupleId 1 - << 
 Number of events = 100                             Number of events = 100
 Energy Total in Run:logicalBrain, ID: 0, Energ     Energy Total in Run:logicalBrain, ID: 0, Energy Deposition (MeV): 0
 Energy Total in Run:logicalHead, ID: 1, Energy <<  Energy Total in Run:logicalHead, ID: 1, Energy Deposition (MeV): 5.79233
 Analysis: organ 1 edep: 4.63096                << 
 Energy Total in Run:logicalHeart, ID: 2, Energ     Energy Total in Run:logicalHeart, ID: 2, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftAdrenal, ID: 3,     Energy Total in Run:logicalLeftAdrenal, ID: 3, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftArmBone, ID: 4,     Energy Total in Run:logicalLeftArmBone, ID: 4, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftBreast, ID: 5,      Energy Total in Run:logicalLeftBreast, ID: 5, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftClavicle, ID: 6     Energy Total in Run:logicalLeftClavicle, ID: 6, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftKidney, ID: 7,      Energy Total in Run:logicalLeftKidney, ID: 7, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftLeg, ID: 8, Ene <<  Energy Total in Run:logicalLeftLeg, ID: 8, Energy Deposition (MeV): 6.4932
 Analysis: organ 8 edep: 14.3441                << 
 Energy Total in Run:logicalLeftLegBone, ID: 9,     Energy Total in Run:logicalLeftLegBone, ID: 9, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftLung, ID: 10, E     Energy Total in Run:logicalLeftLung, ID: 10, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftOvary, ID: 11,      Energy Total in Run:logicalLeftOvary, ID: 11, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftScapula, ID: 12     Energy Total in Run:logicalLeftScapula, ID: 12, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLeftTeste, ID: 13,      Energy Total in Run:logicalLeftTeste, ID: 13, Energy Deposition (MeV): 0
 Energy Total in Run:logicalLowerLargeIntestine     Energy Total in Run:logicalLowerLargeIntestine, ID: 14, Energy Deposition (MeV): 0
 Energy Total in Run:logicalMaleGenitalia, ID:  <<  Energy Total in Run:logicalMaleGenitalia, ID: 15, Energy Deposition (MeV): 3.84814
 Energy Total in Run:logicalMiddleLowerSpine, I     Energy Total in Run:logicalMiddleLowerSpine, ID: 16, Energy Deposition (MeV): 0
 Energy Total in Run:logicalPancreas, ID: 17, E     Energy Total in Run:logicalPancreas, ID: 17, Energy Deposition (MeV): 0
 Energy Total in Run:logicalPelvis, ID: 18, Ene     Energy Total in Run:logicalPelvis, ID: 18, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRibCage, ID: 19, En <<  Energy Total in Run:logicalRibCage, ID: 19, Energy Deposition (MeV): 1.12601
 Analysis: organ 19 edep: 0.659836              << 
 Energy Total in Run:logicalRightAdrenal, ID: 2     Energy Total in Run:logicalRightAdrenal, ID: 20, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightArmBone, ID: 2     Energy Total in Run:logicalRightArmBone, ID: 21, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightBreast, ID: 22     Energy Total in Run:logicalRightBreast, ID: 22, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightClavicle, ID:      Energy Total in Run:logicalRightClavicle, ID: 23, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightKidney, ID: 24     Energy Total in Run:logicalRightKidney, ID: 24, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightLeg, ID: 25, E <<  Energy Total in Run:logicalRightLeg, ID: 25, Energy Deposition (MeV): 8.04831
 Analysis: organ 25 edep: 10.6217               << 
 Energy Total in Run:logicalRightLegBone, ID: 2     Energy Total in Run:logicalRightLegBone, ID: 26, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightLung, ID: 27,      Energy Total in Run:logicalRightLung, ID: 27, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightOvary, ID: 28,     Energy Total in Run:logicalRightOvary, ID: 28, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightScapula, ID: 2     Energy Total in Run:logicalRightScapula, ID: 29, Energy Deposition (MeV): 0
 Energy Total in Run:logicalRightTeste, ID: 30,     Energy Total in Run:logicalRightTeste, ID: 30, Energy Deposition (MeV): 0
 Energy Total in Run:logicalSkull, ID: 31, Ener     Energy Total in Run:logicalSkull, ID: 31, Energy Deposition (MeV): 0
 Energy Total in Run:logicalSmallIntestine, ID:     Energy Total in Run:logicalSmallIntestine, ID: 32, Energy Deposition (MeV): 0
 Energy Total in Run:logicalSpleen, ID: 33, Ene     Energy Total in Run:logicalSpleen, ID: 33, Energy Deposition (MeV): 0
 Energy Total in Run:logicalStomach, ID: 34, En     Energy Total in Run:logicalStomach, ID: 34, Energy Deposition (MeV): 0
 Energy Total in Run:logicalThymus, ID: 35, Ene     Energy Total in Run:logicalThymus, ID: 35, Energy Deposition (MeV): 0
 Energy Total in Run:logicalThyroid, ID: 36, En     Energy Total in Run:logicalThyroid, ID: 36, Energy Deposition (MeV): 0
 Energy Total in Run:logicalTrunk, ID: 37, Ener <<  Energy Total in Run:logicalTrunk, ID: 37, Energy Deposition (MeV): 35.6123
 Analysis: organ 37 edep: 23.6957               << 
 Energy Total in Run:logicalUpperLargeIntestine     Energy Total in Run:logicalUpperLargeIntestine, ID: 38, Energy Deposition (MeV): 0
 Energy Total in Run:logicalUpperSpine, ID: 39,     Energy Total in Run:logicalUpperSpine, ID: 39, Energy Deposition (MeV): 0
 Energy Total in Run:logicalUrinaryBladder, ID:     Energy Total in Run:logicalUrinaryBladder, ID: 40, Energy Deposition (MeV): 0
 Energy Total in Run:logicalUterus, ID: 41, Ene     Energy Total in Run:logicalUterus, ID: 41, Energy Deposition (MeV): 0
 Total Energy deposit in the body is: 53.9523 M <<  Total Energy deposit in the body is: 60.9203 MeV
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