Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4ParticleHPMadlandNixSpectrum.hh
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26//
27// P. Arce, June-2014 Conversion neutron_hp to particle_hp
28//
29#ifndef G4ParticleHPMadlandNixSpectrum_h
30#define G4ParticleHPMadlandNixSpectrum_h 1
31
32#include <fstream>
33#include <cmath>
35
36#include "globals.hh"
37#include "G4ios.hh"
38#include "Randomize.hh"
39#include "G4Exp.hh"
40#include "G4Log.hh"
41#include "G4Pow.hh"
42#include "G4ParticleHPVector.hh"
43#include "G4VParticleHPEDis.hh"
44
45// #include <nag.h> @
46// #include <nags.h> @
47
48
49// we will need a List of these .... one per term.
50
52{
53 public:
55 {
56 expm1 = G4Exp(-1.);
57 theAvarageKineticPerNucleonForLightFragments = 0.0;
58 theAvarageKineticPerNucleonForHeavyFragments = 0.0;
59 }
61 {
62 }
63
64 inline void Init(std::istream & aDataFile)
65 {
66 theFractionalProb.Init(aDataFile);
67 aDataFile>> theAvarageKineticPerNucleonForLightFragments;
68 theAvarageKineticPerNucleonForLightFragments*=CLHEP::eV;
69 aDataFile>> theAvarageKineticPerNucleonForHeavyFragments;
70 theAvarageKineticPerNucleonForHeavyFragments*=CLHEP::eV;
71 theMaxTemp.Init(aDataFile);
72 }
73
75 {
76 return theFractionalProb.GetY(anEnergy);
77 }
78
79 G4double Sample(G4double anEnergy);
80
81 private:
82
83 G4double Madland(G4double aSecEnergy, G4double tm);
84
85 inline G4double FissionIntegral(G4double tm, G4double anEnergy)
86 {
87 return 0.5*( GIntegral(tm, anEnergy, theAvarageKineticPerNucleonForLightFragments)
88 +GIntegral(tm, anEnergy, theAvarageKineticPerNucleonForHeavyFragments) );
89 }
90
91 G4double GIntegral(G4double tm, G4double anEnergy, G4double aMean);
92
93 inline G4double Gamma05(G4double aValue)
94 {
95 G4double result;
96 // gamma(1.2,x*X) = std::sqrt(CLHEP::pi)*Erf(x)
97 G4double x = std::sqrt(aValue);
98 G4double t = 1./(1+0.47047*x);
99 result = 1- (0.3480242*t - 0.0958798*t*t + 0.7478556*t*t*t)*G4Exp(-aValue); // @ check
100 result *= std::sqrt(CLHEP::pi);
101 return result;
102 }
103
104 inline G4double Gamma15(G4double aValue)
105 {
106 G4double result;
107 // gamma(a+1, x) = a*gamma(a,x)-x**a*std::exp(-x)
108 result = 0.5*Gamma05(aValue) - std::sqrt(aValue)*G4Exp(-aValue); // @ check
109 return result;
110 }
111
112 inline G4double Gamma25(G4double aValue)
113 {
114 G4double result;
115 result = 1.5*Gamma15(aValue) - G4Pow::GetInstance()->powA(aValue,1.5)*G4Exp(aValue); // @ check
116 return result;
117 }
118
119 inline G4double E1(G4double aValue)
120 {
121 // good only for rather low aValue @@@ replace by the corresponding NAG function for the
122 // exponential integral. (<5 seems ok.
123 G4double gamma = 0.577216;
124 G4double precision = 0.000001;
125 G4double result =-gamma - G4Log(aValue);
126 G4double term = -aValue;
127 //110527TKDB Unnessary codes, Detected by gcc4.6 compiler
128 //G4double last;
129 G4int count = 1;
130 result -= term;
131 for(;;)
132 {
133 count++;
134 //110527TKDB Unnessary codes, Detected by gcc4.6 compiler
135 //last = result;
136 term = -term*aValue*(count-1)/(count*count);
137 result -=term;
138 if(std::fabs(term)/std::fabs(result)<precision) break;
139 }
140// NagError *fail; @
141// result = nag_exp_integral(aValue, fail); @
142 return result;
143 }
144
145 private:
146
147 G4double expm1;
148
149 private:
150
151 G4ParticleHPVector theFractionalProb;
152
153 G4double theAvarageKineticPerNucleonForLightFragments;
154 G4double theAvarageKineticPerNucleonForHeavyFragments;
155
156 G4ParticleHPVector theMaxTemp;
157
158};
159
160#endif
G4double G4Exp(G4double initial_x)
Exponential Function double precision.
Definition: G4Exp.hh:180
G4double G4Log(G4double x)
Definition: G4Log.hh:227
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
G4double GetFractionalProbability(G4double anEnergy)
G4double GetY(G4double x)
void Init(std::istream &aDataFile, G4int total, G4double ux=1., G4double uy=1.)
static G4Pow * GetInstance()
Definition: G4Pow.cc:41
G4double powA(G4double A, G4double y) const
Definition: G4Pow.hh:230