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24 // ******************************************* 21 // ********************************************************************
25 // 22 //
26 // 23 //
>> 24 // $Id: G4FissionParameters.hh,v 1.1 2003/08/26 18:37:02 lara Exp $
>> 25 // GEANT4 tag $Name: geant4-07-00-cand-01 $
27 // 26 //
28 // Hadronic Process: Nuclear De-excitations 27 // Hadronic Process: Nuclear De-excitations
29 // by V. Lara (Oct 1998) 28 // by V. Lara (Oct 1998)
30 // 29 //
31 30
>> 31
>> 32
32 #ifndef G4FissionParameters_h 33 #ifndef G4FissionParameters_h
33 #define G4FissionParameters_h 1 34 #define G4FissionParameters_h 1
34 35
35 #include "globals.hh" 36 #include "globals.hh"
36 #include "G4Exp.hh" << 37
37 38
38 class G4FissionParameters 39 class G4FissionParameters
39 { 40 {
40 public: 41 public:
>> 42 // Only available constructor
>> 43 G4FissionParameters(const G4int A, const G4int Z, const G4double ExEnergy, const G4double FissionBarrier);
>> 44
>> 45 ~G4FissionParameters() {};
41 46
42 G4FissionParameters(); << 47 private:
>> 48 // Default constructor
>> 49 G4FissionParameters() {};
43 50
44 ~G4FissionParameters(); << 51 // Copy constructor
>> 52 G4FissionParameters(const G4FissionParameters &right);
45 53
46 void DefineParameters(G4int A, G4int Z, G4do << 54 const G4FissionParameters & operator=(const G4FissionParameters &right);
47 G4double FissionBarrier); << 55 G4bool operator==(const G4FissionParameters &right) const;
>> 56 G4bool operator!=(const G4FissionParameters &right) const;
48 57
49 public: 58 public:
50 59
51 inline G4int GetA1(void) const { return A1; << 60 inline G4double GetA1(void) const { return A1; }
52 inline G4int GetA2(void) const { return A2; << 61 inline G4double GetA2(void) const { return A2; }
53 62
54 inline G4double GetAs(void) const { return A 63 inline G4double GetAs(void) const { return As; }
55 inline G4double GetSigma1(void) const { retu 64 inline G4double GetSigma1(void) const { return Sigma1; }
56 inline G4double GetSigma2(void) const { retu 65 inline G4double GetSigma2(void) const { return Sigma2; }
57 inline G4double GetSigmaS(void) const { retu 66 inline G4double GetSigmaS(void) const { return SigmaS; }
58 inline G4double GetW(void) const { return w; 67 inline G4double GetW(void) const { return w; }
59 68
60 private: 69 private:
61 70
62 inline G4double LocalExp(G4double x) const <<
63 { <<
64 return (std::abs(x) < 8.) ? G4Exp(-0.5*x*x <<
65 } <<
66 <<
67 G4FissionParameters(const G4FissionParameter <<
68 const G4FissionParameters & operator=(const <<
69 G4bool operator==(const G4FissionParameters <<
70 G4bool operator!=(const G4FissionParameters <<
71 <<
72 // Mean numbers of the corresponding Gaussia 71 // Mean numbers of the corresponding Gaussians for assymmetric
73 // fission 72 // fission
74 G4int A1; << 73 static const G4double A1;
75 G4int A2; << 74 static const G4double A2;
76 G4double A3; <<
77 75
78 // Mean number for symmetric fission 76 // Mean number for symmetric fission
79 G4double As; 77 G4double As;
80 78
81 // Dispersions of the corresponding Gaussian 79 // Dispersions of the corresponding Gaussians for assymmetric
82 // fission 80 // fission
83 G4double Sigma1; 81 G4double Sigma1;
84 G4double Sigma2; 82 G4double Sigma2;
85 83
86 // Dispersion for symmetric fission 84 // Dispersion for symmetric fission
87 G4double SigmaS; 85 G4double SigmaS;
88 86
89 // Weight which determines the relative cont 87 // Weight which determines the relative contribution of symmetric
90 // and assymmetric components 88 // and assymmetric components
91 G4double w; 89 G4double w;
>> 90
>> 91
92 }; 92 };
93 93
94 94
95 #endif 95 #endif
96 96