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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 // >> 26 // >> 27 // $Id$ >> 28 // 25 // 29 // 26 // G4InitXscPAI.hh -- header file 30 // G4InitXscPAI.hh -- header file 27 // 31 // 28 // History: 32 // History: 29 // 33 // 30 // 02.04.04, V. Grichine: 1st version based on 34 // 02.04.04, V. Grichine: 1st version based on G4PAIxSection class 31 35 32 #ifndef G4INITXSCPAI_HH 36 #ifndef G4INITXSCPAI_HH 33 #define G4INITXSCPAI_HH 37 #define G4INITXSCPAI_HH 34 38 35 #include "G4ios.hh" 39 #include "G4ios.hh" 36 #include "globals.hh" 40 #include "globals.hh" 37 #include "Randomize.hh" 41 #include "Randomize.hh" 38 #include "G4OrderedTable.hh" 42 #include "G4OrderedTable.hh" 39 #include "G4PhysicsLogVector.hh" 43 #include "G4PhysicsLogVector.hh" 40 44 41 class G4MaterialCutsCouple; 45 class G4MaterialCutsCouple; 42 class G4SandiaTable; 46 class G4SandiaTable; 43 47 44 class G4InitXscPAI 48 class G4InitXscPAI 45 { 49 { 46 public: 50 public: 47 // Constructors 51 // Constructors 48 explicit G4InitXscPAI( const G4MaterialCutsC << 52 G4InitXscPAI( const G4MaterialCutsCouple* matCC); 49 53 50 ~G4InitXscPAI() ; << 54 virtual ~G4InitXscPAI() ; 51 55 52 // Methods 56 // Methods 53 // General control functions 57 // General control functions 54 58 55 void KillCloseIntervals(); 59 void KillCloseIntervals(); 56 60 57 void Normalisation(); 61 void Normalisation(); 58 62 >> 63 59 // Physical methods 64 // Physical methods >> 65 >> 66 60 G4double RutherfordIntegral( G4int intervalN 67 G4double RutherfordIntegral( G4int intervalNumber, 61 G4double limi 68 G4double limitLow, 62 G4double limitHigh ) ; 69 G4double limitHigh ) ; 63 70 64 G4double IntegralTerm(G4double omega); 71 G4double IntegralTerm(G4double omega); 65 72 66 G4double ImPartDielectricConst( G4int interv 73 G4double ImPartDielectricConst( G4int intervalNumber, 67 G4double e 74 G4double energy ) ; 68 75 69 G4double RePartDielectricConst(G4double ener 76 G4double RePartDielectricConst(G4double energy) ; 70 77 71 G4double ModuleSqDielectricConst( G4int inte 78 G4double ModuleSqDielectricConst( G4int intervalNumber, 72 G4double e 79 G4double energy ) ; 73 80 74 G4double DifPAIxSection( G4double omega ) ; 81 G4double DifPAIxSection( G4double omega ) ; 75 G4double DifPAIdEdx( G4double omega ) ; 82 G4double DifPAIdEdx( G4double omega ) ; 76 83 77 G4double PAIdNdxCherenkov( G4double omega ) 84 G4double PAIdNdxCherenkov( G4double omega ) ; 78 85 79 G4double PAIdNdxPlasmon( G4double omega ) ; 86 G4double PAIdNdxPlasmon( G4double omega ) ; 80 87 81 void IntegralPAIxSection(G4double bg2, G 88 void IntegralPAIxSection(G4double bg2, G4double Tmax) ; 82 void IntegralCherenkov(G4double bg2, G4d 89 void IntegralCherenkov(G4double bg2, G4double Tmax) ; 83 void IntegralPlasmon(G4double bg2, G4dou 90 void IntegralPlasmon(G4double bg2, G4double Tmax) ; 84 91 85 void IntegralPAIdEdx(G4double bg2, G4do 92 void IntegralPAIdEdx(G4double bg2, G4double Tmax) ; 86 93 >> 94 87 G4double GetPhotonLambda( G4double omega ) ; 95 G4double GetPhotonLambda( G4double omega ) ; 88 96 >> 97 89 G4double GetStepEnergyLoss( G4double step ) 98 G4double GetStepEnergyLoss( G4double step ) ; 90 G4double GetStepCerenkovLoss( G4double step 99 G4double GetStepCerenkovLoss( G4double step ) ; 91 G4double GetStepPlasmonLoss( G4double step ) 100 G4double GetStepPlasmonLoss( G4double step ) ; 92 101 93 // Inline access functions 102 // Inline access functions 94 103 95 104 96 G4int GetIntervalNumber() const { return fIn 105 G4int GetIntervalNumber() const { return fIntervalNumber ; } 97 G4int GetBinPAI() const { return fPAIbin ; } 106 G4int GetBinPAI() const { return fPAIbin ; } 98 107 99 G4double GetNormalizationCof() const { retur 108 G4double GetNormalizationCof() const { return fNormalizationCof ; } 100 109 101 G4double GetMatSandiaMatrix(G4int i, G4int j 110 G4double GetMatSandiaMatrix(G4int i, G4int j) const 102 { return (*(*fMatSandiaMatrix)[i])[j 111 { return (*(*fMatSandiaMatrix)[i])[j]; } 103 112 104 G4PhysicsLogVector* GetPAIxscVector() const 113 G4PhysicsLogVector* GetPAIxscVector() const { return fPAIxscVector;} 105 G4PhysicsLogVector* GetPAIdEdxVector() const 114 G4PhysicsLogVector* GetPAIdEdxVector() const { return fPAIdEdxVector;} 106 G4PhysicsLogVector* GetPAIphotonVector() con 115 G4PhysicsLogVector* GetPAIphotonVector() const { return fPAIphotonVector;} 107 G4PhysicsLogVector* GetPAIelectronVector() c 116 G4PhysicsLogVector* GetPAIelectronVector() const { return fPAIelectronVector;} 108 G4PhysicsLogVector* GetChCosSqVector() const 117 G4PhysicsLogVector* GetChCosSqVector() const { return fChCosSqVector;} 109 G4PhysicsLogVector* GetChWidthVector() const 118 G4PhysicsLogVector* GetChWidthVector() const { return fChWidthVector;} 110 119 111 G4InitXscPAI & operator=(const G4InitXscPAI << 120 protected : 112 G4InitXscPAI(const G4InitXscPAI&) = delete; << 113 121 114 private : 122 private : 115 123 >> 124 G4InitXscPAI & operator=(const G4InitXscPAI &right); >> 125 G4InitXscPAI(const G4InitXscPAI&); >> 126 116 // Local class constants 127 // Local class constants 117 128 118 static const G4double fDelta ; // energy shi 129 static const G4double fDelta ; // energy shift from interval border = 0.001 119 static const G4int fPAIbin; 130 static const G4int fPAIbin; 120 static const G4double fSolidDensity; // ~the 131 static const G4double fSolidDensity; // ~the border between gases and solids 121 132 122 G4int fIntervalNumber; // The number 133 G4int fIntervalNumber; // The number of energy intervals 123 G4double fNormalizationCof; // Normalizati 134 G4double fNormalizationCof; // Normalization cof for PhotoAbsorptionXsection 124 G4int fCurrentInterval; 135 G4int fCurrentInterval; 125 G4int fIntervalTmax; 136 G4int fIntervalTmax; 126 G4double fBetaGammaSq ; // (beta*gamm 137 G4double fBetaGammaSq ; // (beta*gamma)^2 127 G4double fTmax; 138 G4double fTmax; 128 G4double fDensity ; // Current de 139 G4double fDensity ; // Current density 129 G4double fElectronDensity ; // Current el 140 G4double fElectronDensity ; // Current electron (number) density 130 141 131 // Arrays of Sandia coefficients 142 // Arrays of Sandia coefficients >> 143 132 G4OrderedTable* fMatSandiaMatrix; 144 G4OrderedTable* fMatSandiaMatrix; 133 G4SandiaTable* fSandia; 145 G4SandiaTable* fSandia; 134 146 135 // vectors of integral cross-sections 147 // vectors of integral cross-sections >> 148 136 G4PhysicsLogVector* fPAIxscVector; 149 G4PhysicsLogVector* fPAIxscVector; 137 G4PhysicsLogVector* fPAIdEdxVector; 150 G4PhysicsLogVector* fPAIdEdxVector; 138 G4PhysicsLogVector* fPAIphotonVector; 151 G4PhysicsLogVector* fPAIphotonVector; 139 G4PhysicsLogVector* fPAIelectronVector; 152 G4PhysicsLogVector* fPAIelectronVector; 140 G4PhysicsLogVector* fChCosSqVector; 153 G4PhysicsLogVector* fChCosSqVector; 141 G4PhysicsLogVector* fChWidthVector; 154 G4PhysicsLogVector* fChWidthVector; >> 155 142 }; 156 }; 143 157 144 #endif 158 #endif 145 159 146 // 160 // 147 // 161 // 148 ///////////////// end of G4InitXscPAI header 162 ///////////////// end of G4InitXscPAI header file ////////////////////// 149 163