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G4NeutronHPFissionERelease.hh
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27 // $Id$
28 //
29 // 070606 fix for Valgrind by T. Koi
30 //
31 #ifndef G4NeutronHPFissionERelease_h
32 #define G4NeutronHPFissionERelease_h 1
33 
34 #include <fstream>
36 
37 #include "globals.hh"
38 #include "G4ios.hh"
39 
41 {
42  public:
44  : totalEnergy( 0.0 )
45  , fragmentKinetic( 0.0 )
46  , promptNeutronKinetic( 0.0 )
47  , delayedNeutronKinetic( 0.0 )
48  , promptGammaEnergy( 0.0 )
49  , delayedGammaEnergy( 0.0 )
50  , neutrinoEnergy( 0.0 )
51  , reducedTotalEnergy( 0.0 )
52  {
53  }
55 
56  inline void Init(std::ifstream & aDataFile)
57  {
58  G4double dummy;
59 
60  aDataFile >>dummy
61  >>fragmentKinetic
62  >>promptNeutronKinetic
63  >>delayedNeutronKinetic
64  >>promptGammaEnergy
65  >>delayedGammaEnergy
66  >>delayedBetaEnergy
67  >>neutrinoEnergy
68  >>reducedTotalEnergy
69  >>totalEnergy;
70 
71  fragmentKinetic*=CLHEP::eV;
72  promptNeutronKinetic*=CLHEP::eV;
73  delayedNeutronKinetic*=CLHEP::eV;
74  promptGammaEnergy*=CLHEP::eV;
75  delayedGammaEnergy*=CLHEP::eV;
76  delayedBetaEnergy*=CLHEP::eV;
77  neutrinoEnergy*=CLHEP::eV;
78  reducedTotalEnergy*=CLHEP::eV;
79  totalEnergy*=CLHEP::eV;
80  }
81 
82  inline G4double GetTotalEnergy(G4double deltaNNeu, G4double anEnergy)
83  {
84  G4double result, delta, energy;
85  energy = anEnergy/CLHEP::eV;
86  delta = -(1.057*energy - 8.07*deltaNNeu);
87  result = totalEnergy - delta*CLHEP::eV;
88  return result;
89  }
91  {
92  return fragmentKinetic;
93  }
94  inline G4double GetPromptNeutronKinetic(G4double deltaNNeu, G4double anEnergy)
95  {
96  G4double result, delta, energy;
97  energy = anEnergy/CLHEP::eV;
98  delta = -(1.307*energy - 8.07*deltaNNeu);
99  result = totalEnergy - delta*CLHEP::eV;
100  return result;
101  }
103  {
104  return delayedNeutronKinetic;
105  }
107  {
108  return promptGammaEnergy;
109  }
111  {
112  G4double delta = 0.075*anEnergy;
113  G4double result = delayedGammaEnergy-delta;
114  return result;
115  }
117  {
118  G4double delta = 0.075*anEnergy;
119  G4double result = delayedBetaEnergy-delta;
120  return result;
121  }
123  {
124  G4double delta = 0.1*anEnergy;
125  G4double result = neutrinoEnergy-delta;
126  return result;
127  }
128  inline G4double GetReducedTotal(G4double deltaNNeu, G4double anEnergy)
129  {
130  return GetTotalEnergy(deltaNNeu, anEnergy) - GetNeutrinoEnergy(anEnergy);
131  }
132  private:
133 
134  G4double totalEnergy;
135  G4double fragmentKinetic;
136  G4double promptNeutronKinetic;
137  G4double delayedNeutronKinetic;
138  G4double promptGammaEnergy;
139  G4double delayedGammaEnergy;
140  G4double delayedBetaEnergy;
141  G4double neutrinoEnergy;
142  G4double reducedTotalEnergy; // total - neutrino
143 };
144 
145 #endif