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G4Na22GEMProbability.cc
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//
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// ********************************************************************
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// * License and Disclaimer *
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// * *
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// * The Geant4 software is copyright of the Copyright Holders of *
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// * the Geant4 Collaboration. It is provided under the terms and *
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// * conditions of the Geant4 Software License, included in the file *
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// * LICENSE and available at http://cern.ch/geant4/license . These *
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// * include a list of copyright holders. *
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// * *
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// * Neither the authors of this software system, nor their employing *
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// * institutes,nor the agencies providing financial support for this *
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// * work make any representation or warranty, express or implied, *
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// * regarding this software system or assume any liability for its *
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// * use. Please see the license in the file LICENSE and URL above *
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// * for the full disclaimer and the limitation of liability. *
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// * *
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// * This code implementation is the result of the scientific and *
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// * technical work of the GEANT4 collaboration. *
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// * By using, copying, modifying or distributing the software (or *
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// * any work based on the software) you agree to acknowledge its *
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// * use in resulting scientific publications, and indicate your *
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// * acceptance of all terms of the Geant4 Software license. *
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// ********************************************************************
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//
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// $Id: G4Na22GEMProbability.cc 87017 2014-11-21 16:26:26Z gcosmo $
27
//
28
// Hadronic Process: Nuclear De-excitations
29
// by V. Lara (Nov 1999)
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//
31
32
#include "
G4Na22GEMProbability.hh
"
33
#include "
G4SystemOfUnits.hh
"
34
35
G4Na22GEMProbability::G4Na22GEMProbability
() :
36
G4GEMProbability
(22,11,3.0)
// A,Z,Spin
37
{
38
39
ExcitEnergies
.push_back(583.11*
keV
);
40
ExcitSpins
.push_back(1.0);
41
ExcitLifetimes
.push_back(244.0
e
-3*
picosecond
);
42
43
ExcitEnergies
.push_back(657.16*
keV
);
44
ExcitSpins
.push_back(0.0);
45
ExcitLifetimes
.push_back(14.0*
picosecond
);
46
47
ExcitEnergies
.push_back(890.81*
keV
);
48
ExcitSpins
.push_back(4.0);
49
ExcitLifetimes
.push_back(10.4*
picosecond
);
50
51
ExcitEnergies
.push_back(1528.14*
keV
);
52
ExcitSpins
.push_back(5.0);
53
ExcitLifetimes
.push_back(3.40*
picosecond
);
54
55
ExcitEnergies
.push_back(1936.45*
keV
);
56
ExcitSpins
.push_back(1.0);
57
ExcitLifetimes
.push_back(3.0
e
-3*
picosecond
);
58
59
ExcitEnergies
.push_back(1952.13*
keV
);
60
ExcitSpins
.push_back(2.0);
61
ExcitLifetimes
.push_back(6.0
e
-3*
picosecond
);
62
63
ExcitEnergies
.push_back(1983.8*
keV
);
64
ExcitSpins
.push_back(3.0);
65
ExcitLifetimes
.push_back(1.59*
picosecond
);
66
67
ExcitEnergies
.push_back(2211.5*
keV
);
68
ExcitSpins
.push_back(1.0);
69
ExcitLifetimes
.push_back(14.9*
picosecond
);
70
71
ExcitEnergies
.push_back(2571.5*
keV
);
72
ExcitSpins
.push_back(2.0);
73
ExcitLifetimes
.push_back(5.6*
picosecond
);
74
75
ExcitEnergies
.push_back(2968.7*
keV
);
76
ExcitSpins
.push_back(3.0);
77
ExcitLifetimes
.push_back(42.0
e
-3*
picosecond
);
78
79
ExcitEnergies
.push_back(3059.6*
keV
);
80
ExcitSpins
.push_back(2.0);
81
ExcitLifetimes
.push_back(28.0
e
-3*
picosecond
);
82
83
ExcitEnergies
.push_back(3519.2*
keV
);
84
ExcitSpins
.push_back(3.0);
85
ExcitLifetimes
.push_back(464.0
e
-3*
picosecond
);
86
87
ExcitEnergies
.push_back(3706.6*
keV
);
88
ExcitSpins
.push_back(6.0);
89
ExcitLifetimes
.push_back(76.0
e
-3*
picosecond
);
90
91
ExcitEnergies
.push_back(3943.5*
keV
);
92
ExcitSpins
.push_back(1.0);
93
ExcitLifetimes
.push_back(6.0
e
-3*
picosecond
);
94
95
ExcitEnergies
.push_back(4071.3*
keV
);
96
ExcitSpins
.push_back(4.0);
97
ExcitLifetimes
.push_back(3.0
e
-3*
picosecond
);
98
99
ExcitEnergies
.push_back(4296.1*
keV
);
100
ExcitSpins
.push_back(0.0);
101
ExcitLifetimes
.push_back(3.5*
picosecond
);
102
103
ExcitEnergies
.push_back(4319.0*
keV
);
104
ExcitSpins
.push_back(1.0);
105
ExcitLifetimes
.push_back(30.0
e
-3*
picosecond
);
106
107
ExcitEnergies
.push_back(4360.0*
keV
);
108
ExcitSpins
.push_back(2.0);
109
ExcitLifetimes
.push_back(11.0
e
-3*
picosecond
);
110
111
ExcitEnergies
.push_back(4468.3*
keV
);
112
ExcitSpins
.push_back(4.0);
113
ExcitLifetimes
.push_back(104.0
e
-3*
picosecond
);
114
115
ExcitEnergies
.push_back(4523.8*
keV
);
116
ExcitSpins
.push_back(7.0);
117
ExcitLifetimes
.push_back(69.0
e
-3*
picosecond
);
118
119
ExcitEnergies
.push_back(4582.8*
keV
);
120
ExcitSpins
.push_back(2.0);
121
ExcitLifetimes
.push_back(69.0
e
-3*
picosecond
);
122
123
ExcitEnergies
.push_back(4621.7*
keV
);
124
ExcitSpins
.push_back(1.0);
125
ExcitLifetimes
.push_back(69.0
e
-3*
picosecond
);
126
127
ExcitEnergies
.push_back(4710.0*
keV
);
128
ExcitSpins
.push_back(5.0);
129
ExcitLifetimes
.push_back(42.0
e
-3*
picosecond
);
130
131
ExcitEnergies
.push_back(4771.0*
keV
);
132
ExcitSpins
.push_back(3.0);
133
ExcitLifetimes
.push_back(69.0*
picosecond
);
134
135
ExcitEnergies
.push_back(5062.4*
keV
);
136
ExcitSpins
.push_back(2.0);
137
ExcitLifetimes
.push_back(14.0
e
-3*
picosecond
);
138
139
ExcitEnergies
.push_back(5100.6*
keV
);
140
ExcitSpins
.push_back(4.0);
141
ExcitLifetimes
.push_back(38.0
e
-3*
picosecond
);
142
143
ExcitEnergies
.push_back(5167.0*
keV
);
144
ExcitSpins
.push_back(1.0);
145
ExcitLifetimes
.push_back(69.0*
picosecond
);
146
147
148
ExcitEnergies
.push_back(7153.0*
keV
);
149
ExcitSpins
.push_back(3.0);
150
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
151
152
ExcitEnergies
.push_back(7221.0*
keV
);
153
ExcitSpins
.push_back(2.0);
154
ExcitLifetimes
.push_back(
fPlanck
/(0.4*
keV
));
155
156
ExcitEnergies
.push_back(7241.0*
keV
);
157
ExcitSpins
.push_back(2.0);
158
ExcitLifetimes
.push_back(
fPlanck
/(0.3*
keV
));
159
160
ExcitEnergies
.push_back(7279.0*
keV
);
161
ExcitSpins
.push_back(1.0);
162
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
163
164
ExcitEnergies
.push_back(7280.0*
keV
);
165
ExcitSpins
.push_back(4.0);
166
ExcitLifetimes
.push_back(
fPlanck
/(1.5*
keV
));
167
168
ExcitEnergies
.push_back(7361.0*
keV
);
169
ExcitSpins
.push_back(3.0);
170
ExcitLifetimes
.push_back(
fPlanck
/(1.0*
keV
));
171
172
ExcitEnergies
.push_back(7373.0*
keV
);
173
ExcitSpins
.push_back(2.0);
174
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
175
176
ExcitEnergies
.push_back(7379.2*
keV
);
177
ExcitSpins
.push_back(2.0);
178
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
179
180
ExcitEnergies
.push_back(7402.0*
keV
);
181
ExcitSpins
.push_back(1.0);
182
ExcitLifetimes
.push_back(
fPlanck
/(1.5*
keV
));
183
184
ExcitEnergies
.push_back(7409.6*
keV
);
185
ExcitSpins
.push_back(1.0);
186
ExcitLifetimes
.push_back(
fPlanck
/(3.5*
keV
));
187
188
ExcitEnergies
.push_back(7472.6*
keV
);
189
ExcitSpins
.push_back(2.0);
190
ExcitLifetimes
.push_back(
fPlanck
/(3.5*
keV
));
191
192
ExcitEnergies
.push_back(7516.2*
keV
);
193
ExcitSpins
.push_back(3.0);
194
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
195
196
ExcitEnergies
.push_back(7547.9*
keV
);
197
ExcitSpins
.push_back(2.0);
198
ExcitLifetimes
.push_back(
fPlanck
/(0.6*
keV
));
199
200
ExcitEnergies
.push_back(7574.4*
keV
);
201
ExcitSpins
.push_back(5.0);
202
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
203
204
ExcitEnergies
.push_back(7600.0*
keV
);
205
ExcitSpins
.push_back(2.0);
206
ExcitLifetimes
.push_back(
fPlanck
/(1.9*
keV
));
207
208
ExcitEnergies
.push_back(7606.0*
keV
);
209
ExcitSpins
.push_back(1.0);
210
ExcitLifetimes
.push_back(
fPlanck
/(0.6*
keV
));
211
212
ExcitEnergies
.push_back(7637.0*
keV
);
213
ExcitSpins
.push_back(2.0);
214
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
215
216
ExcitEnergies
.push_back(7684.0*
keV
);
217
ExcitSpins
.push_back(2.0);
218
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
219
220
ExcitEnergies
.push_back(7779.0*
keV
);
221
ExcitSpins
.push_back(1.0);
222
ExcitLifetimes
.push_back(
fPlanck
/(2.8*
keV
));
223
224
ExcitEnergies
.push_back(7801.5*
keV
);
225
ExcitSpins
.push_back(1.0);
226
ExcitLifetimes
.push_back(
fPlanck
/(2.4*
keV
));
227
228
ExcitEnergies
.push_back(7821.9*
keV
);
229
ExcitSpins
.push_back(1.0);
230
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
231
232
ExcitEnergies
.push_back(7890.0*
keV
);
233
ExcitSpins
.push_back(3.0);
234
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
235
236
ExcitEnergies
.push_back(7920.0*
keV
);
237
ExcitSpins
.push_back(2.0);
238
ExcitLifetimes
.push_back(
fPlanck
/(17.0*
keV
));
239
240
ExcitEnergies
.push_back(7978.0*
keV
);
241
ExcitSpins
.push_back(1.0);
242
ExcitLifetimes
.push_back(
fPlanck
/(10.0*
keV
));
243
244
ExcitEnergies
.push_back(8019.0*
keV
);
245
ExcitSpins
.push_back(4.0);
246
ExcitLifetimes
.push_back(
fPlanck
/(1.0*
keV
));
247
248
ExcitEnergies
.push_back(8041.0*
keV
);
249
ExcitSpins
.push_back(2.0);
250
ExcitLifetimes
.push_back(
fPlanck
/(0.5*
keV
));
251
252
ExcitEnergies
.push_back(8102.0*
keV
);
253
ExcitSpins
.push_back(1.0);
254
ExcitLifetimes
.push_back(
fPlanck
/(3.8*
keV
));
255
256
ExcitEnergies
.push_back(8108.0*
keV
);
257
ExcitSpins
.push_back(3.0);
258
ExcitLifetimes
.push_back(
fPlanck
/(1.5*
keV
));
259
260
ExcitEnergies
.push_back(8115.0*
keV
);
261
ExcitSpins
.push_back(3.0);
262
ExcitLifetimes
.push_back(
fPlanck
/(3.1*
keV
));
263
264
ExcitEnergies
.push_back(8166.0*
keV
);
265
ExcitSpins
.push_back(3.0);
266
ExcitLifetimes
.push_back(
fPlanck
/(22.5*
keV
));
267
268
ExcitEnergies
.push_back(8198.0*
keV
);
269
ExcitSpins
.push_back(2.0);
270
ExcitLifetimes
.push_back(
fPlanck
/(0.6*
keV
));
271
272
ExcitEnergies
.push_back(8212.0*
keV
);
273
ExcitSpins
.push_back(1.0);
274
ExcitLifetimes
.push_back(
fPlanck
/(5.1*
keV
));
275
276
ExcitEnergies
.push_back(8234.0*
keV
);
277
ExcitSpins
.push_back(1.0);
278
ExcitLifetimes
.push_back(
fPlanck
/(11.0*
keV
));
279
280
ExcitEnergies
.push_back(8288.0*
keV
);
281
ExcitSpins
.push_back(0.0);
282
ExcitLifetimes
.push_back(
fPlanck
/(4.5*
keV
));
283
284
ExcitEnergies
.push_back(8329.0*
keV
);
285
ExcitSpins
.push_back(0.0);
286
ExcitLifetimes
.push_back(
fPlanck
/(2.7*
keV
));
287
288
ExcitEnergies
.push_back(8436.0*
keV
);
289
ExcitSpins
.push_back(0.0);
290
ExcitLifetimes
.push_back(
fPlanck
/(5.4*
keV
));
291
292
ExcitEnergies
.push_back(8497.0*
keV
);
293
ExcitSpins
.push_back(1.0);
294
ExcitLifetimes
.push_back(
fPlanck
/(44.0*
keV
));
295
296
ExcitEnergies
.push_back(8538.0*
keV
);
297
ExcitSpins
.push_back(0.0);
298
ExcitLifetimes
.push_back(
fPlanck
/(13.2*
keV
));
299
300
ExcitEnergies
.push_back(8602.0*
keV
);
301
ExcitSpins
.push_back(0.0);
302
ExcitLifetimes
.push_back(
fPlanck
/(11.2*
keV
));
303
304
ExcitEnergies
.push_back(8637.0*
keV
);
305
ExcitSpins
.push_back(0.0);
306
ExcitLifetimes
.push_back(
fPlanck
/(11.0*
keV
));
307
308
}
309
310
G4Na22GEMProbability::~G4Na22GEMProbability
()
311
{}
G4GEMProbability::ExcitSpins
std::vector< G4double > ExcitSpins
Definition:
G4GEMProbability.hh:118
G4Na22GEMProbability::G4Na22GEMProbability
G4Na22GEMProbability()
Definition:
G4Na22GEMProbability.cc:35
G4GEMProbability::ExcitEnergies
std::vector< G4double > ExcitEnergies
Definition:
G4GEMProbability.hh:115
keV
static constexpr double keV
Definition:
G4SIunits.hh:216
G4GEMProbability::fPlanck
G4double fPlanck
Definition:
G4GEMProbability.hh:112
G4GEMProbability
Definition:
G4GEMProbability.hh:54
G4GEMProbability::ExcitLifetimes
std::vector< G4double > ExcitLifetimes
Definition:
G4GEMProbability.hh:121
G4SystemOfUnits.hh
G4Na22GEMProbability.hh
e
Float_t e
Definition:
extended/medical/dna/range/plot.C:35
picosecond
static constexpr double picosecond
Definition:
G4SIunits.hh:161
G4Na22GEMProbability::~G4Na22GEMProbability
~G4Na22GEMProbability()
Definition:
G4Na22GEMProbability.cc:310
다음에 의해 생성됨 :
1.8.5