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26 // 26 //
27 // $Id: G4ANuElNucleusCcModel.hh 90228 2015-05 27 // $Id: G4ANuElNucleusCcModel.hh 90228 2015-05-21 08:49:57Z gcosmo $
28 // 28 //
29 // Geant4 Header : G4ANuElNucleusCcModel 29 // Geant4 Header : G4ANuElNucleusCcModel
30 // 30 //
31 // Author : V.Grichine 12.2.19 31 // Author : V.Grichine 12.2.19
32 // 32 //
33 // Modified: 33 // Modified:
34 // 34 //
35 // Class Description 35 // Class Description
36 // Default model for muon neutrino-nucleus cha 36 // Default model for muon neutrino-nucleus charge current scattering;
37 // Class Description - End 37 // Class Description - End
38 38
39 #ifndef G4ANuElNucleusCcModel_h 39 #ifndef G4ANuElNucleusCcModel_h
40 #define G4ANuElNucleusCcModel_h 1 40 #define G4ANuElNucleusCcModel_h 1
41 41
42 #include "globals.hh" 42 #include "globals.hh"
43 #include "G4NeutrinoNucleusModel.hh" 43 #include "G4NeutrinoNucleusModel.hh"
44 #include "G4HadProjectile.hh" 44 #include "G4HadProjectile.hh"
45 #include "G4Nucleus.hh" 45 #include "G4Nucleus.hh"
46 #include "G4NucleiProperties.hh" 46 #include "G4NucleiProperties.hh"
47 #include "G4LorentzVector.hh" 47 #include "G4LorentzVector.hh"
48 #include "G4Threading.hh" 48 #include "G4Threading.hh"
49 49
50 class G4ParticleDefinition; 50 class G4ParticleDefinition;
51 class G4PreCompoundModel; 51 class G4PreCompoundModel;
52 class G4Nucleus; 52 class G4Nucleus;
53 class G4Fragment; 53 class G4Fragment;
54 54
55 class G4ANuElNucleusCcModel : public G4Neutrin 55 class G4ANuElNucleusCcModel : public G4NeutrinoNucleusModel // G4HadronicInteraction
56 { 56 {
57 public: 57 public:
58 58
59 G4ANuElNucleusCcModel(const G4String& name = << 59 G4ANuElNucleusCcModel(const G4String& name = "NuMuNucleCcModel");
60 60
61 virtual ~G4ANuElNucleusCcModel(); 61 virtual ~G4ANuElNucleusCcModel();
62 62
63 virtual void InitialiseModel(); 63 virtual void InitialiseModel();
64 64
65 virtual G4bool IsApplicable(const G4HadProje 65 virtual G4bool IsApplicable(const G4HadProjectile & aTrack,
66 G4Nucleus & targetNucleus); 66 G4Nucleus & targetNucleus);
67 67
68 virtual G4HadFinalState * ApplyYourself(cons 68 virtual G4HadFinalState * ApplyYourself(const G4HadProjectile & aTrack,
69 G4Nucleus & targetNucleus); 69 G4Nucleus & targetNucleus);
70 70
71 71
72 ////////// KR excitation kinematics //////// 72 ////////// KR excitation kinematics ////////////////////
73 73
74 void SampleLVkr(const G4HadProjectile & aTra 74 void SampleLVkr(const G4HadProjectile & aTrack, G4Nucleus & targetNucleus);
75 75
76 G4double GetMinNuElEnergy(){ return fMel + 0 76 G4double GetMinNuElEnergy(){ return fMel + 0.5*fMel*fMel/fM1 + 0.05*CLHEP::MeV; }; // kinematics + accuracy for sqrts
77 77
78 G4double ThresholdEnergy(G4double mI, G4doub 78 G4double ThresholdEnergy(G4double mI, G4double mF, G4double mP) // for cluster decay
79 { 79 {
80 G4double w = std::sqrt(fW2); 80 G4double w = std::sqrt(fW2);
81 return w + 0.5*( (mP+mF)*(mP+mF)-(w+mI)*(w 81 return w + 0.5*( (mP+mF)*(mP+mF)-(w+mI)*(w+mI) )/mI;
82 }; 82 };
83 83
84 virtual void ModelDescription(std::ostream&) 84 virtual void ModelDescription(std::ostream&) const;
85 85
86 private: 86 private:
87 87
88 G4ParticleDefinition* thePositron; 88 G4ParticleDefinition* thePositron;
89 89
90 G4bool fData, fMaster; // for one initialisa 90 G4bool fData, fMaster; // for one initialisation only
91 G4double fMel; 91 G4double fMel;
92 92
93 #ifdef G4MULTITHREADED 93 #ifdef G4MULTITHREADED
94 static G4Mutex numuNucleusModel; 94 static G4Mutex numuNucleusModel;
95 #endif 95 #endif
96 96
97 }; 97 };
98 98
99 99
100 100
101 #endif 101 #endif
102 102