100 2.53587464524005e+01,
101 2.62632027266277e+01,
102 2.71340310844251e+01,
103 2.79737817391769e+01,
104 2.87847119553932e+01,
105 2.95688309141589e+01,
106 3.03279360625106e+01,
107 3.10636428574894e+01,
108 3.17774093252521e+01,
109 3.24705565058120e+01,
110 3.31442856005149e+01,
111 3.37996924530920e+01,
112 3.44377798564689e+01,
113 3.50594680730467e+01,
114 3.56656038766170e+01,
115 3.62569683628670e+01,
116 3.68342837279018e+01,
117 3.73982191769817e+01,
118 3.79493960962713e+01,
119 3.84883925970040e+01,
120 3.90157475227212e+01,
121 3.95319639951220e+01,
122 4.00375125617872e+01,
123 4.05328339990172e+01,
136 A = (
G4int) (isotope-1000*((
G4int)(isotope/1000)));
137 Z = (
G4int) ((isotope-
A)/1000);
145 for (i=0; i<=
nfissg; i++) cpi[i] = cpi[i]/cpi[
nfissg-1];
149 for(i=0; i<=
nfissg; i++)
if (r <= cpi[i])
return i;
155 G4cout <<
" SmpNugDist: random number " << r <<
" out of range " <<
G4endl;
double A(double temperature)
G4double G4Exp(G4double initial_x)
Exponential Function double precision.
G4double G4Log(G4double x)
G4GLOB_DLL std::ostream G4cout
static G4Pow * GetInstance()
G4double A13(G4double A) const
G4double powA(G4double A, G4double y) const