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Geant4/examples/extended/optical/LXe/src/LXeWLSFiber.cc

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Differences between /examples/extended/optical/LXe/src/LXeWLSFiber.cc (Version 11.3.0) and /examples/extended/optical/LXe/src/LXeWLSFiber.cc (Version 9.6.p2)


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 25 //                                                 25 //
 26 //                                             << 
 27 /// \file optical/LXe/src/LXeWLSFiber.cc           26 /// \file optical/LXe/src/LXeWLSFiber.cc
 28 /// \brief Implementation of the LXeWLSFiber c     27 /// \brief Implementation of the LXeWLSFiber class
 29 //                                                 28 //
 30 //                                                 29 //
 31 #include "LXeWLSFiber.hh"                          30 #include "LXeWLSFiber.hh"
 32                                                << 
 33 #include "G4Box.hh"                            << 
 34 #include "G4LogicalVolume.hh"                  << 
 35 #include "G4Material.hh"                       << 
 36 #include "G4SystemOfUnits.hh"                  << 
 37 #include "G4Tubs.hh"                           << 
 38 #include "globals.hh"                              31 #include "globals.hh"
                                                   >>  32 #include "G4LogicalSkinSurface.hh"
                                                   >>  33 #include "G4LogicalBorderSurface.hh"
                                                   >>  34 #include "G4SystemOfUnits.hh"
 39                                                    35 
 40 G4LogicalVolume* LXeWLSFiber::fClad2_log = nul <<  36 G4LogicalVolume* LXeWLSFiber::fClad2_log=NULL;
 41                                                    37 
 42 //....oooOO0OOooo........oooOO0OOooo........oo     38 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 43                                                    39 
 44 LXeWLSFiber::LXeWLSFiber(G4RotationMatrix* pRo <<  40 LXeWLSFiber::LXeWLSFiber(G4RotationMatrix *pRot,
 45                          G4LogicalVolume* pMot <<  41                              const G4ThreeVector &tlate,
 46                          LXeDetectorConstructi <<  42                              G4LogicalVolume *pMotherLogical,
 47   : G4PVPlacement(                             <<  43                              G4bool pMany,
 48       pRot, tlate,                             <<  44                              G4int pCopyNo,
 49       new G4LogicalVolume(new G4Box("temp", 1. <<  45                              LXeDetectorConstruction* c)
 50       "Cladding2", pMotherLogical, pMany, pCop <<  46   :G4PVPlacement(pRot,tlate,
 51     fConstructor(c)                            <<  47                  new G4LogicalVolume(new G4Box("temp",1,1,1),
                                                   >>  48                                      G4Material::GetMaterial("Vacuum"),
                                                   >>  49                                      "temp",0,0,0),
                                                   >>  50                  "Cladding2",pMotherLogical,pMany,pCopyNo),fConstructor(c)
 52 {                                                  51 {
 53   CopyValues();                                    52   CopyValues();
 54                                                    53 
 55   // The Fiber                                 <<  54   if(!fClad2_log || fUpdated){
 56   //                                           <<  55     // The Fiber
 57   auto fiber_tube =                            <<  56     //
 58     new G4Tubs("Fiber", fFiber_rmin, fFiber_rm <<  57     G4Tubs* fiber_tube =
 59                                                <<  58       new G4Tubs("Fiber",fFiber_rmin,fFiber_rmax,fFiber_z,fFiber_sphi,fFiber_ephi);
 60   auto fiber_log = new G4LogicalVolume(fiber_t <<  59  
 61                                                <<  60     G4LogicalVolume* fiber_log =
 62   // Cladding (first layer)                    <<  61       new G4LogicalVolume(fiber_tube,G4Material::GetMaterial("PMMA"),
 63   //                                           <<  62                           "Fiber",0,0,0);
 64   auto clad1_tube =                            <<  63  
 65     new G4Tubs("Cladding1", fClad1_rmin, fClad <<  64     // Cladding (first layer)
 66                                                <<  65     //
 67   auto clad1_log =                             <<  66     G4Tubs* clad1_tube =
 68     new G4LogicalVolume(clad1_tube, G4Material <<  67       new G4Tubs("Cladding1",fClad1_rmin,fClad1_rmax,fClad1_z,fClad1_sphi,
 69                                                <<  68                  fClad1_ephi);
 70   // Cladding (second layer)                   <<  69  
 71   //                                           <<  70     G4LogicalVolume* clad1_log =
 72   auto clad2_tube =                            <<  71       new G4LogicalVolume(clad1_tube,G4Material::GetMaterial("Pethylene1"),
 73     new G4Tubs("Cladding2", fClad2_rmin, fClad <<  72                           "Cladding1",0,0,0);
 74                                                <<  73  
 75   fClad2_log = new G4LogicalVolume(clad2_tube, <<  74     // Cladding (second layer)
 76                                                <<  75     //
 77   new G4PVPlacement(nullptr, G4ThreeVector(0., <<  76     G4Tubs* clad2_tube =
 78   new G4PVPlacement(nullptr, G4ThreeVector(0., <<  77       new G4Tubs("Cladding2",fClad2_rmin,fClad2_rmax,fClad2_z,fClad2_sphi,
 79                     0);                        <<  78                  fClad2_ephi);
                                                   >>  79  
                                                   >>  80     fClad2_log =
                                                   >>  81       new G4LogicalVolume(clad2_tube,G4Material::GetMaterial("Pethylene2"),
                                                   >>  82                           "Cladding2",0,0,0);
                                                   >>  83  
                                                   >>  84     new G4PVPlacement(0,G4ThreeVector(0.,0.,0.),fiber_log,
                                                   >>  85                       "Fiber", clad1_log,false,0);
                                                   >>  86     new G4PVPlacement(0,G4ThreeVector(0.,0.,0.),clad1_log,
                                                   >>  87                       "Cladding1",fClad2_log,false,0);
                                                   >>  88   }
 80                                                    89 
 81   SetLogicalVolume(fClad2_log);                    90   SetLogicalVolume(fClad2_log);
 82 }                                                  91 }
 83                                                    92 
 84 //....oooOO0OOooo........oooOO0OOooo........oo     93 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 85                                                    94 
 86 void LXeWLSFiber::CopyValues()                 <<  95 void LXeWLSFiber::CopyValues(){
 87 {                                              <<  96   fUpdated=fConstructor->GetUpdated();
 88   fFiber_rmin = 0.0 * cm;                      <<  97 
 89   fFiber_rmax = 0.1 * cm;                      <<  98   fFiber_rmin = 0.00*cm;
 90   fFiber_z = fConstructor->GetScintX() / 2.;   <<  99   fFiber_rmax = 0.10*cm;    
 91   fFiber_sphi = 0.0 * deg;                     << 100   fFiber_z    = fConstructor->GetScintX()/2;
 92   fFiber_ephi = 360. * deg;                    << 101   fFiber_sphi = 0.00*deg;
                                                   >> 102   fFiber_ephi = 360.*deg;
 93                                                   103 
 94   fClad1_rmin = 0.;  // fFiber_rmax;           << 104   fClad1_rmin = 0.;// fFiber_rmax;
 95   fClad1_rmax = fFiber_rmax + 0.015 * fFiber_r << 105   fClad1_rmax = fFiber_rmax + 0.015*fFiber_rmax;
 96                                                   106 
 97   fClad1_z = fFiber_z;                         << 107   fClad1_z    = fFiber_z;
 98   fClad1_sphi = fFiber_sphi;                      108   fClad1_sphi = fFiber_sphi;
 99   fClad1_ephi = fFiber_ephi;                      109   fClad1_ephi = fFiber_ephi;
100                                                   110 
101   fClad2_rmin = 0.;  // fClad1_rmax;           << 111   fClad2_rmin = 0.;//fClad1_rmax;
102   fClad2_rmax = fClad1_rmax + 0.015 * fFiber_r << 112   fClad2_rmax = fClad1_rmax + 0.015*fFiber_rmax;
103                                                   113 
104   fClad2_z = fFiber_z;                         << 114   fClad2_z    = fFiber_z;
105   fClad2_sphi = fFiber_sphi;                      115   fClad2_sphi = fFiber_sphi;
106   fClad2_ephi = fFiber_ephi;                      116   fClad2_ephi = fFiber_ephi;
                                                   >> 117 
107 }                                                 118 }
108                                                   119