Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4LLNLFission.hh
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51// Copyright (c) 2006 The Regents of the University of California.
52// All rights reserved.
53// UCRL-CODE-224807
54//
55//
56
57#include "G4Types.hh"
58
59//
60// This file is a copy of Fission.hh, made for use with Geant4.
61//
62
63 extern void genspfissevt_(G4int *isotope, G4double *time);
64/*
65 * This function is called to trigger a spontaneous fission.
66 * Multiple neutrons and photons are generated and stored
67 * in a stack along with their energies, directions and
68 * emission times.
69 * The arguments of this function are
70 * isotope: 94239 for Pu-239 for instance
71 * time: the time of the spontaneous fission
72 */
73
74 extern void genfissevt_(G4int *isotope, G4double *time, G4double *nubar, G4double *eng);
75/*
76 * This function is called to trigger a neutron-induced fission.
77 * Multiple neutrons and photons are generated and stored
78 * in a stack along with their energies, directions and
79 * emission times. In addition to the arguments above, this
80 * function needs
81 * nubar: user-specified average number of neutrons emitted
82 * per fission (e.g. as tabulated in the cross-section
83 * libraries used by the particle transport code)
84 * eng: energy of the neutron inducing fission
85 */
86
87 extern G4int getnnu_();
88/*
89 * This function returns the number of neutrons emitted by the
90 * fission, -1 if there is no neutron data for that isotope in
91 * the fission library.
92 */
93
94 extern G4int getpnu_();
95/*
96 * This function returns the number of photons emitted by the
97 * fission, -1 if there is no photon data for that isotope in
98 * the fission library.
99 */
100
101 extern G4double getneng_(G4int *index);
102/*
103 * Given the index of the emitted neutron, this function returns
104 * its energy, -1 if index isout of range.
105 */
106
107 extern G4double getnvel_(G4int *index);
108/*
109 * Given the index of the emitted neutron, this function returns
110 * the amplitude of its velocity, -1 if index is out of range.
111 */
112
113 extern G4double getndircosu_(G4int *index);
114 extern G4double getndircosv_(G4int *index);
115 extern G4double getndircosw_(G4int *index);
116/*
117 * Given the index of the emitted neutron, this function returns
118 * the direction cosines of its velocity vector on the x, y and z
119 * axes.
120 */
121
122 extern G4double getpeng_(G4int *index);
123/*
124 * Given the index of the emitted photon, this function returns
125 * its energy, -1 if index is out of range.
126 */
127
128 extern G4double getpvel_(G4int *index);
129/*
130 * Given the index of the emitted photon, this function returns
131 * the amplitude of its velocity, -1 if index is out of range.
132 */
133
134 extern G4double getpdircosu_(G4int *index);
135 extern G4double getpdircosv_(G4int *index);
136 extern G4double getpdircosw_(G4int *index);
137/*
138 * Given the index of the emitted photon, this function returns
139 * the direction cosines of its velocity.
140 */
141
142 extern G4double getnage_(G4int *index);
143/*
144 * Given the index of the emitted neutron, this function returns
145 * its age, -1 if index is out of range.
146 * This age will be different from the time specified
147 * in generateFissionEvent and generateSpontaneousFissionEvent
148 * for non-prompt neutrons, i.e. delayed neutrons.
149 */
150
151 extern G4double getpage_(G4int *index);
152/*
153 * Given the index of the emitted photon, this function returns
154 * its age, -1 of index is out of range.
155 * This age will be different from the time specified
156 * in generateFissionEvent and generateSpontaneousFissionEvent
157 * for photons that are emitted by beta-decay of the fission
158 * fragments.
159 */
160
161 extern void setdelay_(G4int *delay);
162/*
163 * This function is called to enable delayed neutrons and photons
164 * Input
165 * delay:
166 * 0 (default) for strictly prompt neutrons and
167 * photons
168 * 1 (n/a) for prompt neutrons, prompt and delayed
169 * photons
170 * 2 (n/a) for prompt and delayed neutrons, prompt
171 * photons
172 * 3 (n/a) for prompt and delayed neutrons, prompt
173 * and delayed photons
174 */
175
176 extern void setcorrel_(G4int *correlation);
177/*
178 * This function is called to set the type of neutron photon correlation
179 * Input
180 * correlation:
181 * 0 (default) for no correlation between neutrons and
182 * photons
183 * 1 (n/a) for number correlation between neutrons and
184 * photons
185 * 2 (n/a) for number and energy correlation between
186 * neutrons and photons
187 */
188
189 extern void setnudist_(G4int *nudist);
190/*
191 * This function is called to set the data to be sampled for the neutron
192 * number distributions in induced fissions
193 * Input
194 * nudist:
195 * 0 to use the fit to the Zucker and Holden tabulated
196 * P(nu) distributions as a function of energy for
197 * U235, U238 and Pu239. Terrell for other isotopes.
198 * 1 to use fits to the Zucker and Holden tabulated
199 * P(nu) distribution as a function of energy for
200 * U238 and Pu239, and a fit to the Zucker and Holden
201 * data as well as the Gwin, Spencer and Ingle data
202 * (at thermal energies) as a function of energy for
203 * U235. Terrell for other isotopes.
204 * 2 (default) to use the fit to the Zucker and Holden
205 * tabulated P(nu) distributions as a function of nubar.
206 * The U238 fit is used for the U232, U234, U236 and
207 * U238 isotopes, the U235 fit for U233 and U235, the
208 * Pu239 fit for Pu239 and Pu241. Terrell for other
209 * isotopes.
210 */
211
212
213 extern void setcf252_(G4int *ndist, G4int *neng);
214/*
215 * This function is called to set the data to be sampled for the
216 * (a) Cf252 spontaneous fission number distribution, and
217 * (b) Cf252 spontaneous fission neutron energy spectrum
218 * Input
219 * ndist:
220 * 0 (default) to sample the number of neutrons from the
221 * tabulated data measured by Spencer
222 * 1 to sample the number of neutrons from Boldeman's data
223 * neng:
224 * 0 to sample the spontaneous fission neutron energy from
225 * Mannhart corrected Maxwellian spectrum
226 * 1 to sample the spontaneous fission neutron energy from
227 * Madland-Nix theoretical spectrum
228 * 2 to sample the spontaneous fission neutron energy from
229 * the Froehner Watt spectrum
230 */
231
232 extern void setrngf_(G4float (*funcptr) (void));
233/*
234 * This function sets the random number generator to the user-defined
235 * one specified in the argument. If either setrngf_ or setrngd_ are
236 * not specified, the default system call srand48 will be called.
237 * Input
238 * funcptr:
239 * a random number generator function that returns a
240 * variable of type G4float
241 */
242
243 extern void setrngd_(G4double (*funcptr) (void));
244/*
245 * This function sets the random number generator to the user-defined
246 * one specified in the argument. If either setrngf_ or setrngd_ are
247 * not specified, the default system call srand48 will be called.
248 * Input
249 * funcptr:
250 * a random number generator function that returns a
251 * variable of type G4double
252 */
253// }
void setrngf_(G4float(*funcptr)(void))
void setdelay_(G4int *delay)
G4double getndircosu_(G4int *index)
void setcorrel_(G4int *correlation)
void setcf252_(G4int *ndist, G4int *neng)
G4double getpdircosw_(G4int *index)
G4int getnnu_()
G4double getndircosw_(G4int *index)
G4double getpdircosu_(G4int *index)
G4double getneng_(G4int *index)
void genspfissevt_(G4int *isotope, G4double *time)
void genfissevt_(G4int *isotope, G4double *time, G4double *nubar, G4double *eng)
G4double getpeng_(G4int *index)
G4double getpage_(G4int *index)
G4double getndircosv_(G4int *index)
G4double getnage_(G4int *index)
G4double getpdircosv_(G4int *index)
G4double getpvel_(G4int *index)
G4int getpnu_()
G4double getnvel_(G4int *index)
void setnudist_(G4int *nudist)
void setrngd_(G4double(*funcptr)(void))
float G4float
Definition: G4Types.hh:84
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85