Geant4  10.00.p02
G4CompetitiveFission.hh
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27 // $Id: G4CompetitiveFission.hh 67983 2013-03-13 10:42:03Z gcosmo $
28 //
29 // Hadronic Process: Nuclear De-excitations
30 // by V. Lara (Oct 1998)
31 
32 #ifndef G4CompetitiveFission_h
33 #define G4CompetitiveFission_h 1
34 
35 #include "G4VEvaporationChannel.hh"
36 #include "G4Fragment.hh"
37 #include "G4VFissionBarrier.hh"
38 #include "G4FissionBarrier.hh"
40 #include "G4FissionProbability.hh"
43 #include "G4FissionParameters.hh"
44 #include "G4ParticleTable.hh"
45 #include "G4IonTable.hh"
46 #include "Randomize.hh"
47 
48 //#define debug
49 
51 {
52 public:
53 
55  virtual ~G4CompetitiveFission();
56 
57 private:
60  G4bool operator==(const G4CompetitiveFission &right) const;
61  G4bool operator!=(const G4CompetitiveFission &right) const;
62 
63 public:
64 
65  virtual G4FragmentVector * BreakUp(const G4Fragment &theNucleus);
66 
67  virtual G4double GetEmissionProbability(G4Fragment* theNucleus);
68 
69  inline void SetFissionBarrier(G4VFissionBarrier * aBarrier)
70  {
72  theFissionBarrierPtr = aBarrier;
73  MyOwnFissionBarrier = false;
74  }
75 
76  inline void SetEmissionStrategy(G4VEmissionProbability * aFissionProb)
77  {
79  theFissionProbabilityPtr = aFissionProb;
81  }
82 
83 
85  {
87  theLevelDensityPtr = aLevelDensity;
88  MyOwnLevelDensity = false;
89  }
90 
91 
92  inline G4double GetFissionBarrier(void) const { return FissionBarrier; }
93 
95 
96  inline G4double GetMaximalKineticEnergy(void) const { return MaximalKineticEnergy; }
97 private:
98 
99  // Maximal Kinetic Energy that can be carried by fragment
101 
102 
103  // For Fission barrier
107 
108  // For Fission probability emission
112 
113 
114  // For Level Density calculation
118 
119  // --------------------
120 
121  // Sample AtomicNumber of Fission products
124 
125 
126  // Sample Charge of fission products
128 
129 
130  // Sample Kinetic energy of fission products
132  G4double Af1, G4double Zf1,
133  G4double Af2, G4double Zf2,
134  G4double U, G4double Tmax,
135  const G4FissionParameters & theParam);
136 
140 
141  G4ThreeVector IsotropicVector(G4double Magnitude = 1.0);
142 
143 #ifdef debug
144  void CheckConservation(const G4Fragment & theInitialState,
145  G4FragmentVector * Result) const;
146 #endif
147 
148 };
149 
150 #endif
151 
152 
G4double AsymmetricRatio(G4int A, G4double A11)
void SetFissionBarrier(G4VFissionBarrier *aBarrier)
CLHEP::Hep3Vector G4ThreeVector
#define A00
G4double MassDistribution(G4double x, G4double A, const G4FissionParameters &theParam)
G4double GetLevelDensityParameter(void) const
virtual G4double GetEmissionProbability(G4Fragment *theNucleus)
G4int FissionCharge(G4double A, G4double Z, G4double Af)
G4VEmissionProbability * theFissionProbabilityPtr
const G4CompetitiveFission & operator=(const G4CompetitiveFission &right)
G4int FissionAtomicNumber(G4int A, const G4FissionParameters &theParam)
int G4int
Definition: G4Types.hh:78
virtual G4FragmentVector * BreakUp(const G4Fragment &theNucleus)
void SetEmissionStrategy(G4VEmissionProbability *aFissionProb)
G4bool operator!=(const G4CompetitiveFission &right) const
bool G4bool
Definition: G4Types.hh:79
std::vector< G4Fragment * > G4FragmentVector
Definition: G4Fragment.hh:65
G4double Ratio(G4double A, G4double A11, G4double B1, G4double A00)
G4double SymmetricRatio(G4int A, G4double A11)
G4VLevelDensityParameter * theLevelDensityPtr
static const G4double A[nN]
G4VFissionBarrier * theFissionBarrierPtr
G4ThreeVector IsotropicVector(G4double Magnitude=1.0)
G4bool operator==(const G4CompetitiveFission &right) const
G4double FissionKineticEnergy(G4int A, G4int Z, G4double Af1, G4double Zf1, G4double Af2, G4double Zf2, G4double U, G4double Tmax, const G4FissionParameters &theParam)
#define A11
double G4double
Definition: G4Types.hh:76
void SetLevelDensityParameter(G4VLevelDensityParameter *aLevelDensity)
G4double GetFissionBarrier(void) const
G4double GetMaximalKineticEnergy(void) const