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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 ////////////////////////////////////////////// << 26 // $Id: G4AdjointComptonModel.hh,v 1.5 2009/11/20 10:31:20 ldesorgh Exp $ 27 // Class: G4AdjointComptonModel << 27 // GEANT4 tag $Name: geant4-09-03-patch-01 $ 28 // Author: L. Desorgher << 28 // 29 // Organisation: SpaceIT GmbH << 29 ///////////////////////////////////////////////////////////////////////////////// >> 30 // Class: G4AdjointComptonModel >> 31 // Author: L. Desorgher >> 32 // Organisation: SpaceIT GmbH >> 33 // Contract: ESA contract 21435/08/NL/AT >> 34 // Customer: ESA/ESTEC >> 35 ///////////////////////////////////////////////////////////////////////////////// >> 36 // >> 37 // CHANGE HISTORY >> 38 // -------------- >> 39 // ChangeHistory: >> 40 // 1 September 2007 creation by L. Desorgher >> 41 // 11 November 2009 Implement the use of approximated diffCS as an alternative of CSMatrix. >> 42 // >> 43 //------------------------------------------------------------- >> 44 // Documentation: >> 45 // Model for the adjoint compton scattering. 30 // 46 // 31 // Model for the adjoint compton scattering. << 32 ////////////////////////////////////////////// << 33 47 34 #ifndef G4AdjointComptonModel_h 48 #ifndef G4AdjointComptonModel_h 35 #define G4AdjointComptonModel_h 1 49 #define G4AdjointComptonModel_h 1 36 50 >> 51 37 #include "globals.hh" 52 #include "globals.hh" 38 #include "G4VEmAdjointModel.hh" 53 #include "G4VEmAdjointModel.hh" >> 54 #include "G4VEmProcess.hh" >> 55 class G4AdjointComptonModel: public G4VEmAdjointModel 39 56 40 class G4VEmProcess; << 41 << 42 class G4AdjointComptonModel : public G4VEmAdjo << 43 { 57 { 44 public: << 58 public: 45 G4AdjointComptonModel(); << 46 ~G4AdjointComptonModel() override; << 47 << 48 void SampleSecondaries(const G4Track& aTrack << 49 G4ParticleChange* fPa << 50 << 51 void RapidSampleSecondaries(const G4Track& a << 52 G4ParticleChange << 53 59 54 G4double DiffCrossSectionPerAtomPrimToScatPr << 60 G4AdjointComptonModel(); 55 G4double kinEnergyProj, // kin energy << 61 ~G4AdjointComptonModel(); 56 G4double kinEnergyScatProj, // kin energy << 62 57 G4double Z, G4double A = 0.) override; << 63 58 << 64 virtual void SampleSecondaries(const G4Track& aTrack, 59 G4double DiffCrossSectionPerAtomPrimToSecond << 65 G4bool IsScatProjToProjCase, 60 G4double kinEnergyProj, // kin energy of << 66 G4ParticleChange* fParticleChange); 61 G4double kinEnergyProd, // kin energy of << 67 void RapidSampleSecondaries(const G4Track& aTrack, 62 G4double Z, G4double A = 0.) override; << 68 G4bool IsScatProjToProjCase, 63 << 69 G4ParticleChange* fParticleChange); 64 G4double GetSecondAdjEnergyMaxForScatProjToP << 70 65 G4double primAdjEnergy) override; << 71 virtual G4double DiffCrossSectionPerAtomPrimToScatPrim( 66 G4double GetSecondAdjEnergyMinForProdToProj( << 72 G4double kinEnergyProj, // kinetic energy of the primary particle before the interaction 67 << 73 G4double kinEnergyScatProj, // kinetic energy of the primary particle after the interaction 68 G4double AdjointCrossSection(const G4Materia << 74 G4double Z, 69 G4double primEn << 75 G4double A = 0.); 70 G4bool isScatPr << 76 virtual G4double DiffCrossSectionPerAtomPrimToSecond( 71 << 77 G4double kinEnergyProj, // kinetic energy of the primary particle before the interaction 72 inline void SetDirectProcess(G4VEmProcess* a << 78 G4double kinEnergyProd, // kinetic energy of the secondary particle 73 { << 79 G4double Z, 74 fDirectProcess = aProcess; << 80 G4double A = 0.); 75 }; << 81 76 << 82 virtual G4double GetSecondAdjEnergyMaxForScatProjToProjCase(G4double PrimAdjEnergy); 77 G4AdjointComptonModel(G4AdjointComptonModel& << 83 virtual G4double GetSecondAdjEnergyMinForProdToProjCase(G4double PrimAdjEnergy); 78 G4AdjointComptonModel& operator=(const G4Adj << 84 79 << 85 80 private: << 86 virtual G4double AdjointCrossSection(const G4MaterialCutsCouple* aCouple, 81 G4VEmProcess* fDirectProcess = nullptr; << 87 G4double primEnergy, 82 << 88 G4bool IsScatProjToProjCase); 83 G4double fDirectCS = 0.; << 89 >> 90 >> 91 >> 92 inline void SetDirectProcess(G4VEmProcess* aProcess){theDirectEMProcess = aProcess;}; >> 93 >> 94 private: >> 95 G4VEmProcess* theDirectEMProcess; >> 96 G4double G4direct_CS; >> 97 >> 98 84 }; 99 }; 85 100 86 #endif 101 #endif 87 102