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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 #ifndef G4QGSMSplitableHadron_h 26 #ifndef G4QGSMSplitableHadron_h 27 #define G4QGSMSplitableHadron_h 1 27 #define G4QGSMSplitableHadron_h 1 28 28 29 #include "G4VSplitableHadron.hh" 29 #include "G4VSplitableHadron.hh" 30 #include "G4PartonVector.hh" 30 #include "G4PartonVector.hh" 31 #include "G4MesonSplitter.hh" 31 #include "G4MesonSplitter.hh" 32 #include "G4BaryonSplitter.hh" 32 #include "G4BaryonSplitter.hh" 33 #include "Randomize.hh" 33 #include "Randomize.hh" 34 #include <deque> 34 #include <deque> 35 35 36 // based on prototype by Maxim Komogorov 36 // based on prototype by Maxim Komogorov 37 // Splitting into methods, and centralizing of 37 // Splitting into methods, and centralizing of model parameters HPW Feb 1999 38 // continued clean-up of interfaces and algori 38 // continued clean-up of interfaces and algorithms HPW 1999. 39 // Redesign of data structures and algorithms 39 // Redesign of data structures and algorithms HPW Feb 1999 40 40 41 class G4QGSMSplitableHadron : public G4VSplita 41 class G4QGSMSplitableHadron : public G4VSplitableHadron 42 { 42 { 43 public: 43 public: 44 G4QGSMSplitableHadron(); 44 G4QGSMSplitableHadron(); 45 G4QGSMSplitableHadron(const G4ReactionProduc 45 G4QGSMSplitableHadron(const G4ReactionProduct & aPrimary); 46 G4QGSMSplitableHadron(const G4ReactionProduc 46 G4QGSMSplitableHadron(const G4ReactionProduct & aPrimary, G4bool Direction); 47 G4QGSMSplitableHadron(const G4Nucleon & aNuc 47 G4QGSMSplitableHadron(const G4Nucleon & aNucleon); 48 G4QGSMSplitableHadron(const G4Nucleon & aNuc 48 G4QGSMSplitableHadron(const G4Nucleon & aNucleon, G4bool Direction); 49 49 50 virtual ~G4QGSMSplitableHadron(); 50 virtual ~G4QGSMSplitableHadron(); 51 51 52 private: 52 private: 53 const G4QGSMSplitableHadron & operator=(cons 53 const G4QGSMSplitableHadron & operator=(const G4QGSMSplitableHadron &right); 54 54 55 public: 55 public: 56 virtual void SplitUp(); 56 virtual void SplitUp(); 57 virtual void SetFirstParton(G4int PDGcode); 57 virtual void SetFirstParton(G4int PDGcode); 58 virtual void SetSecondParton(G4int PDGcode); 58 virtual void SetSecondParton(G4int PDGcode); 59 virtual G4Parton * GetNextParton(); 59 virtual G4Parton * GetNextParton(); 60 virtual G4Parton * GetNextAntiParton(); 60 virtual G4Parton * GetNextAntiParton(); 61 61 62 private: 62 private: 63 void InitParameters(); 63 void InitParameters(); 64 void DiffractiveSplitUp(); 64 void DiffractiveSplitUp(); 65 void SoftSplitUp(); 65 void SoftSplitUp(); 66 66 67 G4ThreeVector GaussianPt(G4double widthSquar 67 G4ThreeVector GaussianPt(G4double widthSquare, G4double maxPtSquare); 68 void GetValenceQuarkFlavors(const G4Particle 68 void GetValenceQuarkFlavors(const G4ParticleDefinition * aPart, 69 G4Parton *& Parton1, G4Parton *& Parton2 69 G4Parton *& Parton1, G4Parton *& Parton2); 70 G4Parton * BuildSeaQuark(G4bool isAntiQuark, 70 G4Parton * BuildSeaQuark(G4bool isAntiQuark, G4int aPDGCode, G4int nSeaPair); 71 G4double SampleX(G4double anXmin, G4int nSea 71 G4double SampleX(G4double anXmin, G4int nSea, G4int theTotalSea, G4double aBeta); 72 72 73 private: 73 private: 74 // aggregated data 74 // aggregated data 75 G4bool Direction; // FALSE is target. - cand 75 G4bool Direction; // FALSE is target. - candidate for more detailed design. 76 76 77 std::deque<G4Parton *> Color; 77 std::deque<G4Parton *> Color; 78 std::deque<G4Parton *> AntiColor; 78 std::deque<G4Parton *> AntiColor; 79 unsigned int iP; 79 unsigned int iP; 80 unsigned int iAP; 80 unsigned int iAP; 81 81 82 private: 82 private: 83 // associated classes 83 // associated classes 84 G4MesonSplitter theMesonSplitter; 84 G4MesonSplitter theMesonSplitter; 85 G4BaryonSplitter theBaryonSplitter; 85 G4BaryonSplitter theBaryonSplitter; 86 86 87 private: 87 private: 88 // model parameters 88 // model parameters 89 G4double alpha; 89 G4double alpha; 90 G4double beta; 90 G4double beta; 91 G4double theMinPz; 91 G4double theMinPz; 92 G4double StrangeSuppress; 92 G4double StrangeSuppress; 93 G4double sigmaPt; 93 G4double sigmaPt; 94 G4double widthOfPtSquare; 94 G4double widthOfPtSquare; 95 G4double minTransverseMass; 95 G4double minTransverseMass; 96 }; 96 }; 97 97 98 inline G4Parton* G4QGSMSplitableHadron::GetNex 98 inline G4Parton* G4QGSMSplitableHadron::GetNextParton() 99 { 99 { 100 if(Color.size()==0) return 0; 100 if(Color.size()==0) return 0; 101 101 102 G4Parton * result = Color.operator[](i 102 G4Parton * result = Color.operator[](iP); 103 iP++; if(iP == Color.size()) iP=0; 103 iP++; if(iP == Color.size()) iP=0; 104 return result; 104 return result; 105 } 105 } 106 106 107 inline G4Parton* G4QGSMSplitableHadron::GetNex 107 inline G4Parton* G4QGSMSplitableHadron::GetNextAntiParton() 108 { 108 { 109 if(AntiColor.size() == 0) return 0; 109 if(AntiColor.size() == 0) return 0; 110 110 111 G4Parton * result = AntiColor.operator 111 G4Parton * result = AntiColor.operator[](iAP); 112 iAP++; if(iAP == AntiColor.size()) iAP 112 iAP++; if(iAP == AntiColor.size()) iAP=0; 113 return result; 113 return result; 114 } 114 } 115 115 116 inline void G4QGSMSplitableHadron::SetFirstPar 116 inline void G4QGSMSplitableHadron::SetFirstParton(G4int) 117 {} 117 {} 118 inline void G4QGSMSplitableHadron::SetSecondPa 118 inline void G4QGSMSplitableHadron::SetSecondParton(G4int) 119 {} 119 {} 120 #endif 120 #endif 121 121 122 122