Geant4  10.00.p02
G4GEMChannel.hh
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27 // $Id: G4GEMChannel.hh 67983 2013-03-13 10:42:03Z gcosmo $
28 //
29 // Hadronic Process: Nuclear De-excitations
30 // by V. Lara (Oct 1998)
31 //
32 
33 
34 #ifndef G4GEMChannel_h
35 #define G4GEMChannel_h 1
36 
37 #include "G4VEvaporationChannel.hh"
38 #include "G4GEMProbability.hh"
40 #include "G4VCoulombBarrier.hh"
42 #include "G4NucleiProperties.hh"
43 #include "Randomize.hh"
44 #include "G4ParticleTable.hh"
45 #include "G4IonTable.hh"
46 
47 class G4Pow;
48 
50 {
51 public:
52 
53  G4GEMChannel(const G4int theA, const G4int theZ, const G4String & aName,
54  G4GEMProbability * aEmissionStrategy,
55  G4VCoulombBarrier * aCoulombBarrier);
56 
57  // destructor
58  virtual ~G4GEMChannel();
59 
60  virtual G4double GetEmissionProbability(G4Fragment* theNucleus);
61 
62  virtual G4FragmentVector * BreakUp(const G4Fragment & theNucleus);
63 
65  {
66  if (MyOwnLevelDensity) { delete theLevelDensityPtr; }
67  theLevelDensityPtr = aLevelDensity;
68  MyOwnLevelDensity = false;
69  }
70 
71  inline G4double GetMaximalKineticEnergy(void) const
72  { return MaximalKineticEnergy; }
73 
74 private:
75 
76  // Calculate Binding Energy for separate fragment from nucleus
78 
79  // Calculate maximal kinetic energy that can be carried by fragment (in MeV)
81 
82  // Samples fragment kinetic energy.
83  G4double CalcKineticEnergy(const G4Fragment & fragment);
84 
85  // This has to be removed and put in Random Generator
86  G4ThreeVector IsotropicVector(G4double Magnitude = 1.0);
87 
88 private:
89 
91  const G4GEMChannel & operator=(const G4GEMChannel & right);
92  G4bool operator==(const G4GEMChannel & right) const;
93  G4bool operator!=(const G4GEMChannel & right) const;
94 
95  // Data Members ************
96  // This data member define the channel.
97  // They are intializated at object creation (constructor) time.
98 
99  // Atomic Number
101 
102  // Charge
104 
107 
109 
110  // For evaporation probability calcualtion
112 
113  // For Level Density calculation
116 
117  // For Coulomb Barrier calculation
120 
121  //---------------------------------------------------
122 
123  // These values depend on the nucleus that is being evaporated.
124  // They are calculated through the Initialize method which takes as parameters
125  // the atomic number, charge and excitation energy of nucleus.
126 
127  // Residual Atomic Number
129 
130  // Residual Charge
132 
133  // Emission Probability
135 
136  // Maximal Kinetic Energy that can be carried by fragment
138 
139 
140 };
141 
142 
143 #endif
void SetLevelDensityParameter(G4VLevelDensityParameter *aLevelDensity)
Definition: G4GEMChannel.hh:64
G4bool operator==(const G4GEMChannel &right) const
G4ThreeVector IsotropicVector(G4double Magnitude=1.0)
G4Pow * fG4pow
virtual ~G4GEMChannel()
Definition: G4GEMChannel.cc:65
G4double CalcKineticEnergy(const G4Fragment &fragment)
CLHEP::Hep3Vector G4ThreeVector
Definition: G4Pow.hh:56
G4bool operator!=(const G4GEMChannel &right) const
G4double CoulombBarrier
G4bool MyOwnLevelDensity
int G4int
Definition: G4Types.hh:78
G4VCoulombBarrier * theCoulombBarrierPtr
G4double ResidualMass
G4double GetMaximalKineticEnergy(void) const
Definition: G4GEMChannel.hh:71
bool G4bool
Definition: G4Types.hh:79
G4double EvaporatedMass
std::vector< G4Fragment * > G4FragmentVector
Definition: G4Fragment.hh:65
G4double EmissionProbability
G4GEMChannel(const G4int theA, const G4int theZ, const G4String &aName, G4GEMProbability *aEmissionStrategy, G4VCoulombBarrier *aCoulombBarrier)
Definition: G4GEMChannel.cc:46
virtual G4double GetEmissionProbability(G4Fragment *theNucleus)
Definition: G4GEMChannel.cc:70
virtual G4FragmentVector * BreakUp(const G4Fragment &theNucleus)
G4VLevelDensityParameter * theLevelDensityPtr
G4GEMProbability * theEvaporationProbabilityPtr
G4double CalcMaximalKineticEnergy(G4double U)
double G4double
Definition: G4Types.hh:76
G4double MaximalKineticEnergy
const G4GEMChannel & operator=(const G4GEMChannel &right)
G4double CalcBindingEnergy(G4int anA, G4int aZ)