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Grichine 35 // 21-5-98 1 version , V. Grichine 31 // 28-05-01, V.Ivanchenko minor changes t 36 // 28-05-01, V.Ivanchenko minor changes to provide ANSI -wall compilation 32 // 19-05-06, V.Ivanchenko rename from G4S 37 // 19-05-06, V.Ivanchenko rename from G4SynchrotronRadiation 33 // 38 // >> 39 // 34 // ------------------------------------------- 40 // ------------------------------------------------------------ 35 41 36 #ifndef G4SynchrotronRadiationInMat_h 42 #ifndef G4SynchrotronRadiationInMat_h 37 #define G4SynchrotronRadiationInMat_h 1 43 #define G4SynchrotronRadiationInMat_h 1 38 44 >> 45 #include "G4ios.hh" 39 #include "globals.hh" 46 #include "globals.hh" 40 #include "G4Electron.hh" << 47 #include "Randomize.hh" 41 #include "G4Gamma.hh" << 48 #include "G4VDiscreteProcess.hh" 42 #include "G4PhysicsLogVector.hh" << 49 #include "G4TransportationManager.hh" 43 #include "G4PhysicsTable.hh" << 50 #include "G4FieldManager.hh" 44 #include "G4Positron.hh" << 51 #include "G4Field.hh" 45 #include "G4Step.hh" << 46 #include "G4ThreeVector.hh" 52 #include "G4ThreeVector.hh" >> 53 #include "G4PropagatorInField.hh" >> 54 47 #include "G4Track.hh" 55 #include "G4Track.hh" 48 #include "G4TransportationManager.hh" << 56 #include "G4Step.hh" 49 #include "G4VDiscreteProcess.hh" << 57 50 #include "G4VParticleChange.hh" << 58 >> 59 #include "G4Gamma.hh" >> 60 #include "G4Electron.hh" >> 61 #include "G4Positron.hh" >> 62 >> 63 >> 64 #include "G4PhysicsTable.hh" >> 65 #include "G4PhysicsLogVector.hh" 51 66 52 class G4ParticleDefinition; << 53 class G4PropagatorInField; << 54 67 55 class G4SynchrotronRadiationInMat : public G4V 68 class G4SynchrotronRadiationInMat : public G4VDiscreteProcess 56 { 69 { 57 public: << 70 public: 58 explicit G4SynchrotronRadiationInMat( << 71 59 const G4String& processName = "Synchrotron << 72 G4SynchrotronRadiationInMat(const G4String& processName = 60 G4ProcessType type = fElectromagn << 73 "SynchrotronRadiation", 61 << 74 G4ProcessType type = fElectromagnetic); 62 ~G4SynchrotronRadiationInMat(); << 75 63 << 76 virtual ~G4SynchrotronRadiationInMat(); 64 G4SynchrotronRadiationInMat& operator=( << 77 65 const G4SynchrotronRadiationInMat& right) << 78 private: 66 G4SynchrotronRadiationInMat(const G4Synchrot << 79 67 << 80 G4SynchrotronRadiationInMat & operator=(const G4SynchrotronRadiationInMat &right); 68 G4double GetMeanFreePath(const G4Track& trac << 81 G4SynchrotronRadiationInMat(const G4SynchrotronRadiationInMat&); 69 G4ForceCondition* c << 82 70 << 83 public: ///////////////// Post Step functions ////////////////////////// 71 G4VParticleChange* PostStepDoIt(const G4Trac << 84 72 const G4Step << 85 G4double GetMeanFreePath( const G4Track& track, 73 << 86 G4double previousStepSize, 74 G4double GetPhotonEnergy(const G4Track& trac << 87 G4ForceCondition* condition ); 75 << 88 76 G4double GetRandomEnergySR(G4double, G4doubl << 89 G4VParticleChange *PostStepDoIt( const G4Track& track, 77 << 90 const G4Step& Step ); 78 G4double GetProbSpectrumSRforInt(G4double); << 91 79 G4double GetIntProbSR(G4double); << 92 G4double GetPhotonEnergy( const G4Track& trackData, 80 << 93 const G4Step& stepData ); 81 G4double GetProbSpectrumSRforEnergy(G4double << 94 82 G4double GetEnergyProbSR(G4double); << 95 G4double GetRandomEnergySR( G4double, G4double ); 83 << 96 84 G4double GetIntegrandForAngleK(G4double); << 97 G4double GetProbSpectrumSRforInt( G4double ); 85 G4double GetAngleK(G4double); << 98 G4double GetIntProbSR( G4double ); 86 G4double GetAngleNumberAtGammaKsi(G4double); << 99 87 << 100 G4double GetProbSpectrumSRforEnergy( G4double ); 88 G4bool IsApplicable(const G4ParticleDefiniti << 101 G4double GetEnergyProbSR( G4double ); 89 << 102 90 static G4double GetLambdaConst(); << 103 G4double GetIntegrandForAngleK( G4double ); 91 static G4double GetEnergyConst(); << 104 G4double GetAngleK( G4double ); 92 << 105 G4double GetAngleNumberAtGammaKsi( G4double ); 93 void SetRootNumber(G4int rn) { fRootNumber = << 106 94 void SetVerboseLevel(G4int v) { fVerboseLeve << 107 G4bool IsApplicable(const G4ParticleDefinition&); 95 void SetKsi(G4double ksi) { fKsi = ksi; }; << 108 96 void SetEta(G4double eta) { fEta = eta; }; << 109 static G4double GetLambdaConst(){ return fLambdaConst; }; 97 void SetPsiGamma(G4double psg) { fPsiGamma = << 110 static G4double GetEnergyConst(){ return fEnergyConst; }; 98 void SetOrderAngleK(G4double ord) << 111 99 { << 112 void SetRootNumber(G4int rn){ fRootNumber = rn; }; 100 fOrderAngleK = ord; << 113 void SetVerboseLevel(G4int v){ fVerboseLevel = v; }; 101 }; // should be 1/3 or 2/3 << 114 void SetKsi(G4double ksi){ fKsi = ksi; }; 102 << 115 void SetEta(G4double eta){ fEta = eta; }; 103 private: << 116 void SetPsiGamma(G4double psg){ fPsiGamma = psg; }; 104 // Constant for calculation of mean free pat << 117 void SetOrderAngleK(G4double ord){ fOrderAngleK = ord; }; // should be 1/3 or 2/3 105 // sqrt(3.) = 1.73... << 118 106 static constexpr G4double fLambdaConst = << 119 private: 107 1.73205080756887729352 * CLHEP::electron_m << 120 108 (2.5 * CLHEP::fine_structure_const * CLHEP << 121 static const G4double fLambdaConst; 109 << 122 110 // Constant for calculation of charactericti << 123 static const G4double fEnergyConst; 111 static constexpr G4double fEnergyConst = << 124 112 1.5 * CLHEP::c_light * CLHEP::c_light * CL << 125 static const G4double fIntegralProbabilityOfSR[200]; 113 CLHEP::electron_mass_c2; << 126 114 << 127 const G4double 115 // Array of integral probability of synchrot << 128 LowestKineticEnergy; // low energy limit of the cross-section formula 116 // the corresponding energy = 0.0001*i*i*(ch << 129 117 static const G4double fIntegralProbabilityOf << 130 const G4double >> 131 HighestKineticEnergy; // high energy limit of the cross-section formula >> 132 >> 133 G4int TotBin; // number of bins in the tables >> 134 >> 135 G4double CutInRange; 118 136 119 const G4ParticleDefinition* theGamma; 137 const G4ParticleDefinition* theGamma; 120 const G4ParticleDefinition* theElectron; 138 const G4ParticleDefinition* theElectron; 121 const G4ParticleDefinition* thePositron; 139 const G4ParticleDefinition* thePositron; 122 140 123 G4PropagatorInField* fFieldPropagator; << 141 const G4double* GammaCutInKineticEnergy; >> 142 const G4double* ElectronCutInKineticEnergy; >> 143 const G4double* PositronCutInKineticEnergy; >> 144 const G4double* ParticleCutInKineticEnergy; 124 145 125 const G4double << 126 LowestKineticEnergy; // low energy limit << 127 146 128 G4double CutInRange; << 129 G4double GammaCutInKineticEnergyNow; 147 G4double GammaCutInKineticEnergyNow; 130 G4double ElectronCutInKineticEnergyNow; 148 G4double ElectronCutInKineticEnergyNow; 131 G4double PositronCutInKineticEnergyNow; 149 G4double PositronCutInKineticEnergyNow; 132 G4double ParticleCutInKineticEnergyNow; 150 G4double ParticleCutInKineticEnergyNow; >> 151 133 G4double fAlpha; 152 G4double fAlpha; 134 G4double fKsi; // omega/omega_c << 153 G4int fRootNumber; 135 G4double fPsiGamma; // Psi-angle*gamma << 154 G4double fKsi; // omega/omega_c 136 G4double fEta; // << 155 G4double fPsiGamma; // Psi-angle*gamma 137 G4double fOrderAngleK; // 1/3 or 2/3 << 156 G4double fEta; // 138 << 157 G4double fOrderAngleK; // 1/3 or 2/3 139 G4int fRootNumber; << 158 140 G4int fVerboseLevel; << 159 141 << 160 G4int fVerboseLevel; 142 G4int secID = -1; // creator modelID << 161 G4PropagatorInField* fFieldPropagator; >> 162 143 }; 163 }; 144 164 145 #endif // end of G4SynchrotronRadiationInMat. 165 #endif // end of G4SynchrotronRadiationInMat.hh >> 166 146 167