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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 // >> 27 // $Id: G4LundStringFragmentation.hh 84219 2014-10-10 14:55:19Z gcosmo $ 27 // 28 // 28 // ------------------------------------------- 29 // ----------------------------------------------------------------------------- 29 // GEANT 4 class implementation file 30 // GEANT 4 class implementation file 30 // 31 // 31 // History: first implementation, Maxim K 32 // History: first implementation, Maxim Komogorov, 10-Jul-1998 32 // ------------------------------------------- 33 // ----------------------------------------------------------------------------- 33 34 34 #ifndef G4LundStringFragmentation_h 35 #ifndef G4LundStringFragmentation_h 35 #define G4LundStringFragmentation_h 1 36 #define G4LundStringFragmentation_h 1 36 37 37 #include "G4VLongitudinalStringDecay.hh" 38 #include "G4VLongitudinalStringDecay.hh" 38 39 39 //******************************************** << 40 //************************************************************************************************************** 40 41 41 class G4LundStringFragmentation: public G4VLon 42 class G4LundStringFragmentation: public G4VLongitudinalStringDecay 42 { << 43 { 43 public: << 44 public: >> 45 44 G4LundStringFragmentation(); 46 G4LundStringFragmentation(); 45 virtual ~G4LundStringFragmentation(); 47 virtual ~G4LundStringFragmentation(); 46 48 47 virtual G4KineticTrackVector* FragmentStri 49 virtual G4KineticTrackVector* FragmentString(const G4ExcitedString& theString); 48 50 49 private: << 51 private: 50 // not implemented to protect/forbid use 52 // not implemented to protect/forbid use 51 G4LundStringFragmentation(const G4LundStri 53 G4LundStringFragmentation(const G4LundStringFragmentation &right); 52 const G4LundStringFragmentation & operator 54 const G4LundStringFragmentation & operator=(const G4LundStringFragmentation &right); 53 G4bool operator==(const G4LundStringFragme << 55 int operator==(const G4LundStringFragmentation &right) const; 54 G4bool operator!=(const G4LundStringFragme << 56 int operator!=(const G4LundStringFragmentation &right) const; >> 57 >> 58 private: >> 59 void SetMinimalStringMass(const G4FragmentingString * const string); >> 60 void SetMinimalStringMass2(const G4double aValue); >> 61 >> 62 virtual G4bool StopFragmenting(const G4FragmentingString * const string); >> 63 virtual G4bool IsFragmentable(const G4FragmentingString * const string); >> 64 >> 65 virtual G4bool SplitLast(G4FragmentingString * string, >> 66 G4KineticTrackVector * LeftVector, >> 67 G4KineticTrackVector * RightVector); 55 68 56 private: << 69 virtual void Sample4Momentum(G4LorentzVector* Mom, G4double Mass, 57 virtual G4bool StopFragmenting(const G4Fra << 70 G4LorentzVector* AntiMom, G4double AntiMass, 58 virtual G4bool IsItFragmentable(const G4Fr << 71 G4double InitialMass); 59 72 60 virtual G4bool SplitLast(G4FragmentingStri << 73 virtual G4LorentzVector * SplitEandP(G4ParticleDefinition * pHadron, 61 G4KineticTrackVector * LeftVe << 74 G4FragmentingString * string, 62 G4KineticTrackVector * RightV << 75 G4FragmentingString * newString); // Uzhi 63 76 64 virtual void Sample4Momentum(G4LorentzVect << 77 virtual G4double GetLightConeZ(G4double zmin, G4double zmax, 65 G4LorentzVect << 78 G4int PartonEncoding, 66 G4double Init << 79 G4ParticleDefinition* pHadron, >> 80 G4double Px, G4double Py); 67 81 68 virtual G4KineticTrack * Splitup(G4Fragmen << 82 G4double lambda(G4double s, G4double m1_Sqr, G4double m2_Sqr); 69 G4Fragmen << 70 83 71 virtual G4LorentzVector * SplitEandP(G4Par << 84 virtual G4ParticleDefinition * DiQuarkSplitup(G4ParticleDefinition* decay, // Uzhi June 2014 72 G4Fra << 85 G4ParticleDefinition *&created); 73 G4Fra << 74 86 75 virtual G4double GetLightConeZ(G4double zm << 76 G4int Parto << 77 G4ParticleD << 78 G4double Px << 79 87 80 G4double lambda(G4double s, G4double m1_Sq << 88 private: >> 89 // Internal methods introduced to improve the code structure (AR Nov 2011) 81 90 82 // virtual G4ParticleDefinition * QuarkSpl << 91 G4bool Loop_toFragmentString(G4ExcitedString * & theStringInCMS, 83 // << 92 G4KineticTrackVector * & LeftVector, >> 93 G4KineticTrackVector * & RightVector); 84 94 85 virtual G4ParticleDefinition * DiQuarkSpli << 95 G4bool Diquark_AntiDiquark_belowThreshold_lastSplitting(G4FragmentingString * & string, 86 << 96 G4ParticleDefinition * & LeftHadron, >> 97 G4ParticleDefinition * & RightHadron); 87 98 88 private: << 99 G4bool Diquark_AntiDiquark_aboveThreshold_lastSplitting(G4FragmentingString * & string, 89 G4bool Loop_toFragmentString(const G4Excit << 100 G4ParticleDefinition * & LeftHadron, 90 G4KineticTrac << 101 G4ParticleDefinition * & RightHadron); 91 G4KineticTrac << 92 102 93 G4bool Diquark_AntiDiquark_belowThreshold_ << 103 G4bool Quark_AntiQuark_lastSplitting(G4FragmentingString * & string, 94 << 104 G4ParticleDefinition * & LeftHadron, 95 << 105 G4ParticleDefinition * & RightHadron); 96 106 97 G4bool Diquark_AntiDiquark_aboveThreshold_ << 107 G4bool Quark_Diquark_lastSplitting(G4FragmentingString * & string, 98 << 108 G4ParticleDefinition * & LeftHadron, 99 << 109 G4ParticleDefinition * & RightHadron ); 100 110 101 G4bool Quark_AntiQuark_lastSplitting(G4Fra << 111 G4int SampleState(void); 102 G4Par << 103 G4Par << 104 112 105 G4bool Quark_Diquark_lastSplitting(G4Fragm << 113 private: 106 G4Parti << 114 // ------ For estimation of a minimal string mass --------------- 107 G4Parti << 115 G4double Mass_of_light_quark; >> 116 G4double Mass_of_heavy_quark; >> 117 G4double Mass_of_string_junction; >> 118 // ------ An estimated minimal string mass ---------------------- >> 119 G4double MinimalStringMass; >> 120 G4double MinimalStringMass2; >> 121 // ------ Minimal invariant mass used at a string fragmentation - >> 122 G4double WminLUND; 108 123 109 G4int SampleState(void); << 124 G4int Meson[3][3][6]; >> 125 G4double MesonWeight[3][3][6]; 110 126 111 G4double Tmt; // "Temperature" for sampli << 127 G4int Baryon[3][3][3][4]; >> 128 G4double BaryonWeight[3][3][3][4]; >> 129 >> 130 G4double Prob_QQbar[3]; >> 131 >> 132 // ------ To improve the code structure >> 133 G4ParticleDefinition * FS_LeftHadron[35], * FS_RightHadron[35]; >> 134 G4double FS_Weight[35]; >> 135 G4int NumberOf_FS; 112 136 113 }; 137 }; 114 138 115 //******************************************** << 139 //************************************************************************************************************** 116 // Class G4LundStringFragmentation 140 // Class G4LundStringFragmentation 117 << 118 #endif 141 #endif >> 142 119 143 120 144