Geant4  10.01
G4EvaporationChannel.hh
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26 // $Id: G4EvaporationChannel.hh 85841 2014-11-05 15:35:06Z gcosmo $
27 //
28 //
29 //J.M. Quesada (August2008). Based on:
30 //
31 // Hadronic Process: Nuclear De-excitations
32 // by V. Lara (Oct 1998)
33 //
34 // 17-11-2010 V.Ivanchenko in constructor replace G4VEmissionProbability by
35 // G4EvaporationProbability and do not new and delete probability
36 // object at each call; use G4Pow
37 
38 #ifndef G4EvaporationChannel_h
39 #define G4EvaporationChannel_h 1
40 
41 #include "G4VEvaporationChannel.hh"
43 #include "G4VCoulombBarrier.hh"
44 
47 
49 {
50 public:
51 
53  G4EvaporationProbability * aEmissionStrategy,
54  G4VCoulombBarrier * aCoulombBarrier);
55 
56  virtual ~G4EvaporationChannel();
57 
58  void Initialise();
59 
60  inline void SetEmissionStrategy(G4EvaporationProbability * aEmissionStrategy)
61  {theEvaporationProbabilityPtr = aEmissionStrategy;}
62 
63  inline void SetCoulombBarrierStrategy(G4VCoulombBarrier * aCoulombBarrier)
64  {theCoulombBarrierPtr = aCoulombBarrier;}
65 
66  virtual G4double GetEmissionProbability(G4Fragment* fragment);
67 
68  virtual G4Fragment* EmittedFragment(G4Fragment* theNucleus);
69 
70  virtual G4FragmentVector * BreakUp(const G4Fragment & theNucleus);
71 
72 private:
73 
74  // Samples fragment kinetic energy.
75  G4double SampleKineticEnergy(const G4Fragment & aFragment);
76 
77  // This has to be removed and put in Random Generator
78  G4ThreeVector IsotropicVector(G4double Magnitude = 1.0);
79 
84 
85 private:
86 
87  // This data member define the channel.
88  // They are intializated at object creation (constructor) time.
89 
90  // Atomic Number of ejectile
92 
93  // Charge of ejectile
95 
98 
99  // For evaporation probability calcualation
101 
102  // For Level Density calculation
104 
105  // For Coulomb Barrier calculation
108 
110 
111  //---------------------------------------------------
112 
113  // These values depend on the nucleus that is being evaporated.
114  // They are calculated through the Initialize method which takes as parameters
115  // the atomic number, charge and excitation energy of nucleus.
116 
117  // Residual Mass Number
119 
120  // Residual Charge
122 
123  // Emission Probability
125 
126  // Maximal Kinetic Energy that can be carried by fragment
128 
129 };
130 
131 
132 #endif
CLHEP::Hep3Vector G4ThreeVector
G4double SampleKineticEnergy(const G4Fragment &aFragment)
G4bool operator==(const G4EvaporationChannel &right) const
G4VCoulombBarrier * theCoulombBarrierPtr
G4EvaporationProbability * theEvaporationProbabilityPtr
virtual G4Fragment * EmittedFragment(G4Fragment *theNucleus)
virtual G4double GetEmissionProbability(G4Fragment *fragment)
int G4int
Definition: G4Types.hh:78
const G4EvaporationChannel & operator=(const G4EvaporationChannel &right)
G4VLevelDensityParameter * theLevelDensityPtr
void SetCoulombBarrierStrategy(G4VCoulombBarrier *aCoulombBarrier)
G4PairingCorrection * pairingCorrection
bool G4bool
Definition: G4Types.hh:79
std::vector< G4Fragment * > G4FragmentVector
Definition: G4Fragment.hh:65
G4EvaporationChannel(G4int theA, G4int theZ, const G4String &aName, G4EvaporationProbability *aEmissionStrategy, G4VCoulombBarrier *aCoulombBarrier)
virtual G4FragmentVector * BreakUp(const G4Fragment &theNucleus)
G4ThreeVector IsotropicVector(G4double Magnitude=1.0)
double G4double
Definition: G4Types.hh:76
void SetEmissionStrategy(G4EvaporationProbability *aEmissionStrategy)
G4bool operator!=(const G4EvaporationChannel &right) const