Geant4_10
G4QMDReaction.hh
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26 // -------------------------------------------------------------------
27 // GEANT4 Class file
28 //
29 //
30 // File name: G4QMDReaction.hh
31 //
32 // Author: Koi, Tatsumi (tkoi@slac.stanford.edu)
33 //
34 // Creation date: 02 April 2007
35 // -----------------------------------------------------------------------------
36 //
37 // 081107 Add UnUseGEM (then use the default channel of G4Evaporation)
38 // UseFrag (chage criterion of a inelastic reaction)
39 // 090331 Change member shenXS and genspaXS object to pointer
40 //
41 
42 #ifndef G4QMDReaction_hh
43 #define G4QMDReaction_hh
44 
45 #include "G4QMDSystem.hh"
46 #include "G4QMDCollision.hh"
47 #include "G4QMDMeanField.hh"
48 #include "G4QMDParticipant.hh"
49 
53 
54 #include "G4HadronicInteraction.hh"
55 
56 #include "G4Evaporation.hh"
57 #include "G4ExcitationHandler.hh"
58 //#include "G4PreCompoundModel.hh"
59 
61 {
62  public:
63  G4QMDReaction();
65 
66  std::vector< G4QMDSystem* > GetFinalStates();
67 
68 
69  G4HadFinalState *ApplyYourself( const G4HadProjectile &aTrack, G4Nucleus & targetNucleus );
70 
71  void UnUseGEM(){ gem = false; setEvaporationCh(); };
72  void UseFRAG(){ frag = true; };
73 
74  void EnableFermiG(){ heg = true; setHighEnergyModel(); };
75 
76  void SetTMAX( G4int i ){ maxTime = i; };
77  void SetDT( G4double t ){ deltaT = t; };
78  void SetEF( G4double x ){ envelopF = x; };
79 
80  private:
81  //copy is unexpeced
82  void operator =( const G4QMDReaction& ){};
83  G4QMDReaction( const G4QMDReaction& ):G4HadronicInteraction("QMDModel"){};
84 
85  void setEvaporationCh();
86  void setHighEnergyModel();
87 
88  G4QMDMeanField* meanField;
89 
90  G4QMDCollision* collision;
91 
92  void doCollision();
93  std::vector< G4QMDSystem* > doClusterJudgment();
94 
95  G4QMDSystem* system;
96  G4double deltaT;
97  G4int maxTime;
98  G4double envelopF;
99 
100  G4Evaporation* evaporation;
101  G4ExcitationHandler* excitationHandler;
102 
103 // G4VPreCompoundModel* preco;
104 
105 
106  // b pd_proj pd_targ z_p a_p z_t a_t plab elab
107 // G4double offSetOfCollision( G4double , G4ParticleDefinition* , G4ParticleDefinition* , G4int , G4int , G4int , G4int , G4double , G4double );
108  // b pd_proj pd_targ plab elab bmax boostToCM
109  void calcOffSetOfCollision( G4double , G4ParticleDefinition* , G4ParticleDefinition* , G4double , G4double , G4double , G4ThreeVector );
110  G4double coulomb_collision_gamma_proj;
111  G4double coulomb_collision_rx_proj;
112  G4double coulomb_collision_rz_proj;
113  G4double coulomb_collision_px_proj;
114  G4double coulomb_collision_pz_proj;
115 
116  G4double coulomb_collision_gamma_targ;
117  G4double coulomb_collision_rx_targ;
118  G4double coulomb_collision_rz_targ;
119  G4double coulomb_collision_px_targ;
120  G4double coulomb_collision_pz_targ;
121 
122 //090331
123  G4IonsShenCrossSection* shenXS;
124  //G4GeneralSpaceNNCrossSection* genspaXS;
125 
126  G4PiNuclearCrossSection* piNucXS;
127 
128  G4bool gem;
129  G4bool frag;
130  G4bool heg;
131 
132 };
133 
134 #endif
G4HadFinalState * ApplyYourself(const G4HadProjectile &aTrack, G4Nucleus &targetNucleus)
void SetTMAX(G4int i)
tuple x
Definition: test.py:50
int G4int
Definition: G4Types.hh:78
void SetDT(G4double t)
bool G4bool
Definition: G4Types.hh:79
void EnableFermiG()
void SetEF(G4double x)
double G4double
Definition: G4Types.hh:76
std::vector< G4QMDSystem * > GetFinalStates()