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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 // G4ForwardXrayTR << 27 // 26 // 28 // Class for description << 27 // $Id: G4ForwardXrayTR.hh,v 1.14 2006-06-29 19:55:33 gunter Exp $ >> 28 // GEANT4 tag $Name: not supported by cvs2svn $ 29 // 29 // 30 // Class for forward X-ray transition radiatio << 30 // G4ForwardXrayTR -- header file >> 31 // >> 32 // Class for description of forward X-ray transition radiation generated 31 // by relativistic charged particle crossed in 33 // by relativistic charged particle crossed interface between material 1 32 // and material 2 (1 -> 2) 34 // and material 2 (1 -> 2) 33 << 35 // >> 36 // GEANT 4 class header file --- Copyright CERN 1995 >> 37 // CERB Geneva Switzerland >> 38 // >> 39 // for information related to this code, please, contact >> 40 // CERN, CN Division, ASD Group 34 // History: 41 // History: 35 // 22.09.97, V. Grichine (Vladimir.Grichine@ce 42 // 22.09.97, V. Grichine (Vladimir.Grichine@cern.ch) 36 // 26.01.00, V.Grichine, new constructor and p 43 // 26.01.00, V.Grichine, new constructor and protected DM for fast sim. models 37 // 10.03.03, V.Ivanchenko migrade to "cut per 44 // 10.03.03, V.Ivanchenko migrade to "cut per region" 38 // 03.06.03, V.Ivanchenko fix compilation warn 45 // 03.06.03, V.Ivanchenko fix compilation warnings 39 46 40 #ifndef G4FORWARDXRAYTR_H 47 #ifndef G4FORWARDXRAYTR_H 41 #define G4FORWARDXRAYTR_H 48 #define G4FORWARDXRAYTR_H 42 49 >> 50 43 #include "globals.hh" 51 #include "globals.hh" 44 #include "G4Track.hh" << 52 #include "templates.hh" 45 #include "G4TransitionRadiation.hh" << 53 #include "geomdefs.hh" 46 #include "G4VParticleChange.hh" << 54 #include "Randomize.hh" >> 55 #include "G4Step.hh" >> 56 #include "G4VDiscreteProcess.hh" >> 57 #include "G4DynamicParticle.hh" >> 58 #include "G4Material.hh" >> 59 #include "G4LogicalBorderSurface.hh" >> 60 #include "G4LogicalSkinSurface.hh" >> 61 #include "G4OpticalSurface.hh" >> 62 #include "G4OpticalPhoton.hh" >> 63 #include "G4TransportationManager.hh" 47 64 48 class G4ParticleDefinition; << 65 #include "G4TransitionRadiation.hh" 49 class G4PhysicsTable; << 66 #include "G4PhysicsTable.hh" 50 class G4PhysicsLogVector; << 67 #include "G4Gamma.hh" >> 68 #include "G4PhysicsLogVector.hh" 51 69 52 class G4ForwardXrayTR : public G4TransitionRad 70 class G4ForwardXrayTR : public G4TransitionRadiation 53 { 71 { 54 public: << 72 public: 55 explicit G4ForwardXrayTR(const G4String& mat << 73 56 const G4String& pro << 74 // Constructors 57 75 58 explicit G4ForwardXrayTR(const G4String& pro << 76 G4ForwardXrayTR( const G4String& matName1, // G4Material* pMat1, >> 77 const G4String& matName2, // G4Material* pMat2, >> 78 const G4String& processName="XrayTR" ) ; >> 79 >> 80 G4ForwardXrayTR( const G4String& processName="XrayTR" ) ; 59 81 60 ~G4ForwardXrayTR(); << 82 // Destructor // virtual 61 83 62 G4ForwardXrayTR(const G4ForwardXrayTR& right << 84 virtual ~G4ForwardXrayTR() ; 63 G4ForwardXrayTR& operator=(const G4ForwardXr << 64 85 65 /////////////////////// Methods ////// << 86 // Operators >> 87 // G4ForwardXrayTR& operator=(const G4ForwardXrayTR& right) ; >> 88 // G4int operator==(const G4ForwardXrayTR& right)const ; >> 89 // G4int operator!=(const G4ForwardXrayTR& right)const ; 66 90 67 void ProcessDescription(std::ostream&) const << 91 /////////////////////// Methods ///////////////////////////////// 68 void DumpInfo() const override { ProcessDesc << 69 92 70 void BuildXrayTRtables(); 93 void BuildXrayTRtables(); 71 94 72 G4double GetMeanFreePath(const G4Track&, G4d 95 G4double GetMeanFreePath(const G4Track&, G4double, 73 G4ForceCondition* c << 96 G4ForceCondition* condition); >> 97 >> 98 G4VParticleChange* PostStepDoIt( const G4Track& aTrack, >> 99 const G4Step& aStep ) ; >> 100 >> 101 G4double GetEnergyTR(G4int iMat, G4int jMat, G4int iTkin) const ; >> 102 >> 103 G4double GetThetaTR(G4int iMat, G4int jMat, G4int iTkin) const ; >> 104 >> 105 >> 106 ///////////////////// Angle distribution ///////////////////////////// >> 107 // >> 108 >> 109 G4double SpectralAngleTRdensity( G4double energy, >> 110 G4double varAngle ) const; >> 111 >> 112 G4double AngleDensity( G4double energy, >> 113 G4double varAngle ) const ; >> 114 >> 115 G4double EnergyInterval( G4double energy1, >> 116 G4double energy2, >> 117 G4double varAngle ) const ; >> 118 >> 119 G4double AngleSum( G4double varAngle1, >> 120 G4double varAngle2 ) const ; >> 121 >> 122 ///////////////////////// Energy distribution /////////////////////////////// >> 123 >> 124 G4double SpectralDensity( G4double energy, >> 125 G4double x ) const ; 74 126 75 G4VParticleChange* PostStepDoIt(const G4Trac << 127 G4double AngleInterval( G4double energy, 76 const G4Step << 128 G4double varAngle1, >> 129 G4double varAngle2 ) const ; 77 130 78 G4double GetEnergyTR(G4int iMat, G4int jMat, << 131 G4double EnergySum( G4double energy1, >> 132 G4double energy2 ) const ; 79 133 80 G4double GetThetaTR(G4int iMat, G4int jMat, << 81 134 82 ///////////////////// Angle distribution // << 135 /////////////////////////// Access functions //////////////////////////// 83 136 84 G4double SpectralAngleTRdensity(G4double ene << 137 G4PhysicsTable* GetAngleDistrTable() { return fAngleDistrTable ; } ; 85 G4double var << 138 G4PhysicsTable* GetEnergyDistrTable() { return fEnergyDistrTable ; } ; 86 139 87 G4double AngleDensity(G4double energy, G4dou << 140 static G4int GetSympsonNumber() { return fSympsonNumber ; } ; >> 141 static G4int GetBinTR() { return fBinTR ; } ; 88 142 89 G4double EnergyInterval(G4double energy1, G4 << 143 static G4double GetMinProtonTkin() { return fMinProtonTkin ; } ; 90 G4double varAngle) c << 144 static G4double GetMaxProtonTkin() { return fMaxProtonTkin ; } ; >> 145 static G4int GetTotBin() { return fTotBin ; } ; 91 146 92 G4double AngleSum(G4double varAngle1, G4doub << 93 147 94 ///////////////////////// Energy distributi << 148 protected : // for access from X-ray TR fast simulation models 95 149 96 G4double SpectralDensity(G4double energy, G4 << 150 // private : /////////////// Data members /////////////////////////// 97 151 98 G4double AngleInterval(G4double energy, G4do << 152 G4ParticleDefinition* fPtrGamma ; // pointer to TR photon 99 G4double varAngle2) c << 100 153 101 G4double EnergySum(G4double energy1, G4doubl << 154 const std::vector<G4double>* fGammaCutInKineticEnergy ; >> 155 // TR photon cut in energy array >> 156 G4double fGammaTkinCut ; // Tkin cut of TR photon in current mat. 102 157 103 /////////////////////////// Access functio << 158 G4PhysicsTable* fAngleDistrTable ; >> 159 G4PhysicsTable* fEnergyDistrTable ; 104 160 105 G4PhysicsTable* GetAngleDistrTable(); << 161 static G4PhysicsLogVector* fProtonEnergyVector ; 106 G4PhysicsTable* GetEnergyDistrTable(); << 107 162 108 static G4int GetSympsonNumber(); << 163 static G4int fSympsonNumber ; // Accuracy of Sympson integration 109 static G4int GetBinTR(); << 110 164 111 static G4double GetMinProtonTkin(); << 165 static G4double fTheMinEnergyTR ; // static min TR energy 112 static G4double GetMaxProtonTkin(); << 166 static G4double fTheMaxEnergyTR ; // static max TR energy 113 static G4int GetTotBin(); << 167 G4double fMinEnergyTR ; // min TR energy in material >> 168 G4double fMaxEnergyTR ; // max TR energy in material >> 169 static G4double fTheMaxAngle ; // max theta of TR quanta >> 170 static G4double fTheMinAngle ; // max theta of TR quanta >> 171 G4double fMaxThetaTR ; // max theta of TR quanta >> 172 static G4int fBinTR ; // number of bins in TR vectors 114 173 115 protected: // for access from X-ray TR fast << 174 static G4double fMinProtonTkin ; // min Tkin of proton in tables 116 static constexpr G4double fTheMinEnergyTR = << 175 static G4double fMaxProtonTkin ; // max Tkin of proton in tables 117 1. * CLHEP::keV; // static min TR energy << 176 static G4int fTotBin ; // number of bins in log scale 118 static constexpr G4double fTheMaxEnergyTR = << 177 G4double fGamma ; // current Lorentz factor 119 100. * CLHEP::keV; << 120 static constexpr G4double fTheMaxAngle = 1.0 << 121 static constexpr G4double fTheMinAngle = 5.0 << 122 static constexpr G4double fMinProtonTkin = << 123 100. * CLHEP::GeV; // min Tkin of proton << 124 static constexpr G4double fMaxProtonTkin = << 125 100. * CLHEP::TeV; // max Tkin of proton << 126 static constexpr G4double fPlasmaCof = << 127 4.0 * CLHEP::pi * CLHEP::fine_structure_co << 128 CLHEP::hbarc * CLHEP::hbarc / << 129 CLHEP::electron_mass_c2; // physical cons << 130 static constexpr G4double fCofTR = CLHEP::fi << 131 178 132 static constexpr G4int fSympsonNumber = << 179 static G4double fPlasmaCof ; // physical consts for plasma energy 133 100; // Acc << 180 static G4double fCofTR ; 134 static constexpr G4int fBinTR = 50; // nu << 135 static constexpr G4int fTotBin = 50; // num << 136 181 137 const std::vector<G4double>* fGammaCutInKine << 182 G4double fSigma1 ; // plasma energy Sq of matter1 138 // TR photon cut in energy array << 183 G4double fSigma2 ; // plasma energy Sq of matter2 139 184 140 G4ParticleDefinition* fPtrGamma; // pointer << 141 185 142 G4PhysicsTable* fAngleDistrTable; << 186 } ; // end of G4ForwardXrayTR class --------------------------- 143 G4PhysicsTable* fEnergyDistrTable; << 144 187 145 G4PhysicsLogVector* fProtonEnergyVector; << 188 #endif // G4FORWARDXRAYTR_H 146 189 147 G4double fMinEnergyTR; // min TR energy i << 148 G4double fMaxEnergyTR; // max TR energy i << 149 G4double fMaxThetaTR; // max theta of TR << 150 G4double fGamma; // current Lorentz << 151 G4double fGammaTkinCut; // Tkin cut of TR p << 152 G4double fSigma1; // plasma energy Sq << 153 G4double fSigma2; // plasma energy Sq << 154 190 155 G4int secID = -1; // creator modelID << 156 }; << 157 191 158 #endif // G4FORWARDXRAYTR_H << 159 192