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<< 56 class G4BGGPionElasticXS; << 57 class G4BGGPionInelasticXS; << 58 53 59 class G4QMDReaction : public G4HadronicInterac 54 class G4QMDReaction : public G4HadronicInteraction 60 { 55 { 61 public: << 56 public: 62 G4QMDReaction(); << 57 G4QMDReaction(); 63 ~G4QMDReaction() override; << 58 ~G4QMDReaction(); 64 << 65 std::vector< G4QMDSystem* > GetFinalStates << 66 59 67 G4HadFinalState* ApplyYourself(const G4Had << 60 std::vector< G4QMDSystem* > GetFinalStates(); 68 G4Nucleus & << 69 61 70 G4ExcitationHandler* GetExcitationHandler( << 71 62 72 void UnUseGEM() {gem = false; setEvaporati << 63 G4HadFinalState *ApplyYourself( const G4HadProjectile &aTrack, G4Nucleus & targetNucleus ); 73 void UseFRAG() {frag = true;}; << 74 64 75 void SetTMAX(G4int i) { maxTime = i; }; << 65 private: 76 void SetDT(G4double t) { deltaT = t; }; << 66 void setInitialCondition( G4QMDSystem* , G4QMDSystem* ); 77 void SetEF(G4double x) { envelopF = x; }; << 78 67 79 void ModelDescription(std::ostream& outFil << 68 G4QMDMeanField* meanField; 80 69 81 //copy is unexpected << 70 G4QMDCollision* collision; 82 G4QMDReaction(const G4QMDReaction& right) << 83 const G4QMDReaction& operator = (const G4Q << 84 71 85 private: << 72 void doPropagation(); 86 << 73 void doCollision(); 87 void setEvaporationCh(); << 74 std::vector< G4QMDSystem* > doClusterJudgment(); 88 void setHighEnergyModel(); << 89 << 90 G4QMDMeanField* meanField; << 91 << 92 G4QMDCollision* collision; << 93 << 94 void doCollision(); << 95 std::vector< G4QMDSystem* > doClusterJudgm << 96 75 97 G4QMDSystem* system; << 76 G4QMDSystem* system; 98 G4double deltaT; << 77 G4double deltaT; 99 G4int maxTime; << 78 G4int maxTime; 100 G4double envelopF; << 79 >> 80 G4Evaporation* evaporation; >> 81 G4ExcitationHandler* excitationHandler; >> 82 // G4VPreCompoundModel* preco; 101 83 102 G4ExcitationHandler* excitationHandler; << 103 84 104 // b p 85 // b pd_proj pd_targ z_p a_p z_t a_t plab elab 105 // G4double offSetOfCollision( G4double , 86 // G4double offSetOfCollision( G4double , G4ParticleDefinition* , G4ParticleDefinition* , G4int , G4int , G4int , G4int , G4double , G4double ); 106 // b 87 // b pd_proj pd_targ plab elab bmax boostToCM >> 88 void calcOffSetOfCollision( G4double , G4ParticleDefinition* , G4ParticleDefinition* , G4double , G4double , G4double , G4ThreeVector ); >> 89 G4double coulomb_collision_gamma_proj; >> 90 G4double coulomb_collision_rx_proj; >> 91 G4double coulomb_collision_rz_proj; >> 92 G4double coulomb_collision_px_proj; >> 93 G4double coulomb_collision_pz_proj; >> 94 >> 95 G4double coulomb_collision_gamma_targ; >> 96 G4double coulomb_collision_rx_targ; >> 97 G4double coulomb_collision_rz_targ; >> 98 G4double coulomb_collision_px_targ; >> 99 G4double coulomb_collision_pz_targ; >> 100 >> 101 G4IonsShenCrossSection shenXS; >> 102 G4IonsShenCrossSection genspaXS; 107 103 108 void calcOffSetOfCollision(G4double, const << 109 const G4Particl << 110 G4double, G4dou << 111 << 112 G4double coulomb_collision_gamma_proj; << 113 G4double coulomb_collision_rx_proj; << 114 G4double coulomb_collision_rz_proj; << 115 G4double coulomb_collision_px_proj; << 116 G4double coulomb_collision_pz_proj; << 117 << 118 G4double coulomb_collision_gamma_targ; << 119 G4double coulomb_collision_rx_targ; << 120 G4double coulomb_collision_rz_targ; << 121 G4double coulomb_collision_px_targ; << 122 G4double coulomb_collision_pz_targ; << 123 << 124 G4VCrossSectionDataSet* theXS; << 125 << 126 G4BGGPionElasticXS* pipElNucXS; << 127 G4BGGPionElasticXS* pimElNucXS; << 128 G4BGGPionInelasticXS* pipInelNucXS; << 129 G4BGGPionInelasticXS* pimInelNucXS; << 130 << 131 G4bool gem; << 132 G4bool frag; << 133 G4int secID; // Creator model ID for the << 134 }; 104 }; 135 105 136 #endif 106 #endif 137 107