Geant4 Cross Reference |
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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 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