Geant4  10.00.p03
G4ExcitationHandler.hh
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26 // $Id: G4ExcitationHandler.hh 67983 2013-03-13 10:42:03Z gcosmo $
27 //
28 // Hadronic Process: Nuclear De-excitations
29 // by V. Lara (May 1998)
30 //
31 // Modifications:
32 // 30 June 1998 by V. Lara:
33 // -Using G4ParticleTable and therefore G4IonTable
34 // it can return all kind of fragments produced in
35 // deexcitation
36 // -It uses default algorithms for:
37 // Evaporation: G4StatEvaporation
38 // MultiFragmentation: G4DummyMF (a dummy one)
39 // Fermi Breakup model: G4StatFermiBreakUp
40 //
41 // 03 September 2008 by J. M. Quesada for external choice of inverse
42 // cross section option
43 // 06 September 2008 JMQ Also external choices have been added for
44 // superimposed Coulomb barrier (if useSICBis set true, by default is false)
45 // 23 January 2012 by V.Ivanchenko remove obsolete data members; added access
46 // methods to deexcitation components
47 //
48 
49 #ifndef G4ExcitationHandler_h
50 #define G4ExcitationHandler_h 1
51 
52 #include "globals.hh"
53 #include "G4Fragment.hh"
55 #include "G4IonTable.hh"
56 
58 class G4VFermiBreakUp;
59 class G4VEvaporation;
62 
64 {
65 public:
66 
69 
70 private:
71 
74  G4bool operator==(const G4ExcitationHandler &right) const;
75  G4bool operator!=(const G4ExcitationHandler &right) const;
76 
77 public:
78 
79  G4ReactionProductVector * BreakItUp(const G4Fragment &theInitialState) const;
80 
81  void SetEvaporation(G4VEvaporation* ptr);
82 
84 
85  void SetFermiModel(G4VFermiBreakUp* ptr);
86 
88 
90  void SetMaxAForFermiBreakUp(G4int anA);
92  void SetMinEForMultiFrag(G4double anE);
93 
94  // access methods
99 
100  // for inverse cross section choice
101  inline void SetOPTxs(G4int opt);
102  // for superimposed Coulomb Barrir for inverse cross sections
103  inline void UseSICB();
104 
105 private:
106 
107  void SetParameters();
108 
110 
112 
114 
116 
118 
123 
125 
129 
130 };
131 
133 {
134  return theEvaporation;
135 }
136 
138 {
139  return theMultiFragmentation;
140 }
141 
143 {
144  return theFermiModel;
145 }
146 
148 {
149  return thePhotonEvaporation;
150 }
151 
153 {
154  OPTxs = opt;
155  SetParameters();
156 }
157 
159 {
160  useSICB = true;
161  SetParameters();
162 }
163 
164 #endif
const G4ExcitationHandler & operator=(const G4ExcitationHandler &right)
G4bool operator!=(const G4ExcitationHandler &right) const
G4VEvaporationChannel * GetPhotonEvaporation()
void SetMinEForMultiFrag(G4double anE)
G4VEvaporation * GetEvaporation()
int G4int
Definition: G4Types.hh:78
G4ReactionProductVector * BreakItUp(const G4Fragment &theInitialState) const
std::vector< G4ReactionProduct * > G4ReactionProductVector
G4VFermiBreakUp * GetFermiModel()
bool G4bool
Definition: G4Types.hh:79
void SetFermiModel(G4VFermiBreakUp *ptr)
G4VMultiFragmentation * GetMultiFragmentation()
void SetMultiFragmentation(G4VMultiFragmentation *ptr)
G4bool operator==(const G4ExcitationHandler &right) const
G4VEvaporationChannel * thePhotonEvaporation
G4FermiFragmentsPool * thePool
G4VMultiFragmentation * theMultiFragmentation
G4VFermiBreakUp * theFermiModel
void SetMaxZForFermiBreakUp(G4int aZ)
void SetMaxAandZForFermiBreakUp(G4int anA, G4int aZ)
void SetEvaporation(G4VEvaporation *ptr)
G4VEvaporation * theEvaporation
void SetMaxAForFermiBreakUp(G4int anA)
double G4double
Definition: G4Types.hh:76
void SetPhotonEvaporation(G4VEvaporationChannel *ptr)