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Please see the license in the file << 14 // * use. * 16 // * for the full disclaimer and the limitatio << 17 // * 15 // * * 18 // * This code implementation is the result << 16 // * This code implementation is the intellectual property of the * 19 // * technical work of the GEANT4 collaboratio << 17 // * GEANT4 collaboration. * 20 // * By using, copying, modifying or distri << 18 // * By copying, distributing or modifying the Program (or any work * 21 // * any work based on the software) you ag << 19 // * based on the Program) you indicate your acceptance of this * 22 // * use in resulting scientific publicati << 20 // * statement, and all its terms. * 23 // * acceptance of all terms of the Geant4 Sof << 24 // ******************************************* 21 // ******************************************************************** 25 // 22 // >> 23 // >> 24 // $Id: G4VTransitionRadiation.hh,v 1.2 2005/07/28 23:56:07 gum Exp $ >> 25 // GEANT4 tag $Name: geant4-08-00-patch-01 $ >> 26 // 26 // G4VTransitionRadiation -- header file 27 // G4VTransitionRadiation -- header file 27 // 28 // 28 // Generic process of transition radiation 29 // Generic process of transition radiation 29 // 30 // 30 // History: 31 // History: 31 // 29.02.04, V.Ivanchenko created 32 // 29.02.04, V.Ivanchenko created 32 // 28.07.05, P.Gumplinger add G4ProcessType to 33 // 28.07.05, P.Gumplinger add G4ProcessType to constructor 33 34 34 #ifndef G4VTransitionRadiation_h 35 #ifndef G4VTransitionRadiation_h 35 #define G4VTransitionRadiation_h 36 #define G4VTransitionRadiation_h 36 37 37 #include "globals.hh" << 38 #include "G4ForceCondition.hh" << 39 #include "G4ParticleDefinition.hh" << 40 #include "G4Region.hh" << 41 #include "G4Step.hh" << 42 #include "G4Track.hh" << 43 #include "G4VDiscreteProcess.hh" << 44 #include "G4VParticleChange.hh" << 45 38 >> 39 #include "G4VDiscreteProcess.hh" >> 40 #include "G4Track.hh" >> 41 #include "G4ForceCondition.hh" >> 42 #include "globals.hh" 46 #include <vector> 43 #include <vector> 47 44 48 class G4LossTableManager; << 49 class G4Material; 45 class G4Material; >> 46 class G4Region; 50 class G4VTRModel; 47 class G4VTRModel; >> 48 class G4particleDefinition; 51 49 52 class G4VTransitionRadiation : public G4VDiscr << 50 class G4VTransitionRadiation : public G4VDiscreteProcess 53 { 51 { 54 public: << 52 public: 55 // Constructors << 53 56 explicit G4VTransitionRadiation(const G4Stri << 54 // Constructors 57 G4ProcessTyp << 55 G4VTransitionRadiation( const G4String& processName = "TR", >> 56 G4ProcessType type = fElectromagnetic); 58 57 59 // Destructor << 60 virtual ~G4VTransitionRadiation(); << 61 58 62 virtual G4bool IsApplicable( << 59 // Destructor 63 const G4ParticleDefinition& aParticleType) << 60 virtual ~G4VTransitionRadiation() ; 64 61 65 void ProcessDescription(std::ostream&) const << 62 virtual G4bool IsApplicable(const G4ParticleDefinition& aParticleType); 66 void DumpInfo() const override { ProcessDesc << 67 63 68 virtual G4double GetMeanFreePath(const G4Tra 64 virtual G4double GetMeanFreePath(const G4Track& track, G4double, 69 G4ForceCond << 65 G4ForceCondition* condition); 70 66 71 virtual G4VParticleChange* PostStepDoIt(cons 67 virtual G4VParticleChange* PostStepDoIt(const G4Track& track, 72 cons << 68 const G4Step& step); >> 69 >> 70 virtual void PrintInfoDefinition(); >> 71 // Print out of the class parameters 73 72 74 void SetRegion(const G4Region* reg); 73 void SetRegion(const G4Region* reg); 75 74 76 void SetModel(G4VTRModel* m); 75 void SetModel(G4VTRModel* m); 77 76 >> 77 // private : >> 78 78 void Clear(); 79 void Clear(); 79 80 80 // hide assignment operator 81 // hide assignment operator 81 G4VTransitionRadiation& operator=(const G4VT << 82 G4VTransitionRadiation & operator=(const G4VTransitionRadiation &right); 82 delete; << 83 G4VTransitionRadiation(const G4VTransitionRadiation&); 83 G4VTransitionRadiation(const G4VTransitionRa << 84 << 85 private: << 86 G4LossTableManager* theManager; << 87 const G4Region* region; << 88 G4VTRModel* model; << 89 << 90 std::vector<const G4Material*> materials; << 91 std::vector<G4double> steps; << 92 std::vector<G4ThreeVector> normals; << 93 84 94 G4ThreeVector startingPosition; << 85 std::vector<const G4Material*> materials; 95 G4ThreeVector startingDirection; << 86 std::vector<G4double> steps; >> 87 std::vector<G4ThreeVector> normals; >> 88 >> 89 G4ThreeVector startingPosition; >> 90 G4ThreeVector startingDirection; >> 91 const G4Region* region; >> 92 G4VTRModel* model; 96 93 97 G4double gammaMin; << 94 G4int nSteps; 98 G4double cosDThetaMax; << 95 >> 96 G4double gammaMin; >> 97 G4double cosDThetaMax; 99 98 100 G4int nSteps; << 101 }; 99 }; 102 100 103 #endif // G4VTransitionRadiation_h << 101 inline G4double G4VTransitionRadiation::GetMeanFreePath( >> 102 const G4Track& track, G4double, >> 103 G4ForceCondition* condition) >> 104 { >> 105 if(nSteps > 0) { >> 106 *condition = StronglyForced; >> 107 } else { >> 108 *condition = NotForced; >> 109 if(track.GetKineticEnergy()/track.GetDefinition()->GetPDGMass() + 1.0 > gammaMin && >> 110 track.GetVolume()->GetLogicalVolume()->GetRegion() == region) { >> 111 *condition = StronglyForced; >> 112 } >> 113 } >> 114 return DBL_MAX; // so TR doesn't limit mean free path >> 115 } >> 116 >> 117 >> 118 #endif // G4VTransitionRadiation_h 104 119