Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4Ne20GEMProbability Class Reference

#include <G4Ne20GEMProbability.hh>

+ Inheritance diagram for G4Ne20GEMProbability:

Public Member Functions

 G4Ne20GEMProbability ()
 
 ~G4Ne20GEMProbability ()
 
- Public Member Functions inherited from G4GEMProbability
 G4GEMProbability (G4int anA, G4int aZ, G4double aSpin)
 
virtual ~G4GEMProbability ()
 
virtual G4double EmissionProbability (const G4Fragment &fragment, G4double maxKineticEnergy)
 
void Dump () const
 
G4double GetSpin (void) const
 
void SetCoulomBarrier (const G4VCoulombBarrier *aCoulombBarrierStrategy)
 
G4double GetCoulombBarrier (const G4Fragment &fragment) const
 
G4double CalcAlphaParam (const G4Fragment &) const
 
G4double CalcBetaParam (const G4Fragment &) const
 
- Public Member Functions inherited from G4VEmissionProbability
 G4VEmissionProbability (G4int Z, G4int A)
 
virtual ~G4VEmissionProbability ()
 
void Initialise ()
 
virtual G4double EmissionProbability (const G4Fragment &fragment, G4double anEnergy)
 
virtual G4double ComputeProbability (G4double anEnergy, G4double CB)
 
G4int GetZ (void) const
 
G4int GetA (void) const
 
void SetDecayKinematics (G4int Z, G4int A, G4double rmass, G4double fmass)
 
G4double GetRecoilExcitation () const
 
void SetEvapExcitation (G4double exc)
 
G4double GetProbability () const
 
void ResetProbability ()
 
G4double SampleEnergy ()
 

Additional Inherited Members

- Protected Member Functions inherited from G4VEmissionProbability
void ResetIntegrator (size_t nbin, G4double de, G4double eps)
 
G4double IntegrateProbability (G4double elow, G4double ehigh, G4double CB)
 
- Protected Attributes inherited from G4GEMProbability
G4double fPlanck
 
std::vector< G4doubleExcitEnergies
 
std::vector< G4doubleExcitSpins
 
std::vector< G4doubleExcitLifetimes
 
- Protected Attributes inherited from G4VEmissionProbability
G4int OPTxs
 
G4int pVerbose
 
G4int theZ
 
G4int theA
 
G4int resZ
 
G4int resA
 
G4double pMass
 
G4double pEvapMass
 
G4double pResMass
 
G4double pProbability
 
G4NuclearLevelDatapNuclearLevelData
 
G4PowpG4pow
 

Detailed Description

Definition at line 38 of file G4Ne20GEMProbability.hh.

Constructor & Destructor Documentation

◆ G4Ne20GEMProbability()

G4Ne20GEMProbability::G4Ne20GEMProbability ( )

Definition at line 34 of file G4Ne20GEMProbability.cc.

34 :
35 G4GEMProbability(20,10,0.0) // A,Z,Spin
36{
37
38 ExcitEnergies.push_back(1633.8*keV);
39 ExcitSpins.push_back(2.0);
40 ExcitLifetimes.push_back(0.83*picosecond);
41
42 ExcitEnergies.push_back(4247.3*keV);
43 ExcitSpins.push_back(4.0);
44 ExcitLifetimes.push_back(64.0e-3*picosecond);
45
46 ExcitEnergies.push_back(4968.2*keV);
47 ExcitSpins.push_back(2.0);
48 ExcitLifetimes.push_back(3.3*picosecond);
49
50 ExcitEnergies.push_back(5621.7*keV);
51 ExcitSpins.push_back(3.0);
52 ExcitLifetimes.push_back(139.0e-3*picosecond);
53
54 ExcitEnergies.push_back(5785.0*keV);
55 ExcitSpins.push_back(1.0);
56 ExcitLifetimes.push_back(fPlanck/(1.3E-2*keV));
57
58 ExcitEnergies.push_back(6722.0*keV);
59 ExcitSpins.push_back(0.0);
60 ExcitLifetimes.push_back(fPlanck/(15.0*keV));
61
62
63 ExcitEnergies.push_back(7005.5*keV);
64 ExcitSpins.push_back(4.0);
65 ExcitLifetimes.push_back(305.0e-3*picosecond);
66
67
68 ExcitEnergies.push_back(7166.0*keV);
69 ExcitSpins.push_back(3.0);
70 ExcitLifetimes.push_back(fPlanck/(8.0*keV));
71
72 ExcitEnergies.push_back(7196.0*keV);
73 ExcitSpins.push_back(0.0);
74 ExcitLifetimes.push_back(fPlanck/(4.0*keV));
75
76 ExcitEnergies.push_back(7424.0*keV);
77 ExcitSpins.push_back(2.0);
78 ExcitLifetimes.push_back(fPlanck/(8.0*keV));
79
80 ExcitEnergies.push_back(7834.0*keV);
81 ExcitSpins.push_back(2.0);
82 ExcitLifetimes.push_back(fPlanck/(2.0*keV));
83
84 ExcitEnergies.push_back(8600.0*keV);
85 ExcitSpins.push_back(0.0);
86 ExcitLifetimes.push_back(fPlanck/(800.0*keV));
87
88 ExcitEnergies.push_back(8720.0*keV);
89 ExcitSpins.push_back(1.0);
90 ExcitLifetimes.push_back(fPlanck/(2.5*keV));
91
92 ExcitEnergies.push_back(8775.0*keV);
93 ExcitSpins.push_back(6.0);
94 ExcitLifetimes.push_back(fPlanck/(0.110*keV));
95
96 ExcitEnergies.push_back(8800.0*keV);
97 ExcitSpins.push_back(2.0);
98 ExcitLifetimes.push_back(fPlanck/(800.0*keV));
99
100 ExcitEnergies.push_back(8820.0*keV);
101 ExcitSpins.push_back(5.0);
102 ExcitLifetimes.push_back(fPlanck/(1.0*keV));
103
104 ExcitEnergies.push_back(8850.0*keV);
105 ExcitSpins.push_back(1.0);
106 ExcitLifetimes.push_back(fPlanck/(19.0*keV));
107
108 ExcitEnergies.push_back(9040.0*keV);
109 ExcitSpins.push_back(4.0);
110 ExcitLifetimes.push_back(fPlanck/(3.0*keV));
111
112 ExcitEnergies.push_back(9117.0*keV);
113 ExcitSpins.push_back(3.0);
114 ExcitLifetimes.push_back(fPlanck/(3.2*keV));
115
116 ExcitEnergies.push_back(9489.0*keV);
117 ExcitSpins.push_back(2.0);
118 ExcitLifetimes.push_back(fPlanck/(29.0*keV));
119
120 ExcitEnergies.push_back(9950.0*keV);
121 ExcitSpins.push_back(1.0);
122 ExcitLifetimes.push_back(fPlanck/(24.0*keV));
123
124 ExcitEnergies.push_back(9990.0*keV);
125 ExcitSpins.push_back(4.0);
126 ExcitLifetimes.push_back(fPlanck/(150.0*keV));
127
128 ExcitEnergies.push_back(10257.0*keV);
129 ExcitSpins.push_back(5.0);
130 ExcitLifetimes.push_back(fPlanck/(141.0*keV));
131
132 ExcitEnergies.push_back(10260.0*keV);
133 ExcitSpins.push_back(2.0);
134 ExcitLifetimes.push_back(fPlanck/(2.0*keV));
135
136 ExcitEnergies.push_back(10401.0*keV);
137 ExcitSpins.push_back(3.0);
138 ExcitLifetimes.push_back(fPlanck/(81.0*keV));
139
140 ExcitEnergies.push_back(10548.0*keV);
141 ExcitSpins.push_back(4.0);
142 ExcitLifetimes.push_back(fPlanck/(16.0*keV));
143
144 ExcitEnergies.push_back(10579.0*keV);
145 ExcitSpins.push_back(2.0);
146 ExcitLifetimes.push_back(fPlanck/(24.0*keV));
147
148 ExcitEnergies.push_back(10609.0*keV);
149 ExcitSpins.push_back(6.0);
150 ExcitLifetimes.push_back(16.0e-3*picosecond);
151
152 ExcitEnergies.push_back(10790.0*keV);
153 ExcitSpins.push_back(4.0);
154 ExcitLifetimes.push_back(fPlanck/(350.0*keV));
155
156 ExcitEnergies.push_back(10836.0*keV);
157 ExcitSpins.push_back(2.0);
158 ExcitLifetimes.push_back(fPlanck/(13.0*keV));
159
160 ExcitEnergies.push_back(10836.0*keV);
161 ExcitSpins.push_back(3.0);
162 ExcitLifetimes.push_back(fPlanck/(45.0*keV));
163
164 ExcitEnergies.push_back(10970.0*keV);
165 ExcitSpins.push_back(0.0);
166 ExcitLifetimes.push_back(fPlanck/(580.0*keV));
167
168 ExcitEnergies.push_back(11015.0*keV);
169 ExcitSpins.push_back(4.0);
170 ExcitLifetimes.push_back(fPlanck/(24.0*keV));
171
172 ExcitEnergies.push_back(11080.0*keV);
173 ExcitSpins.push_back(4.0);
174 ExcitLifetimes.push_back(fPlanck/(3.0*keV));
175
176 ExcitEnergies.push_back(11230.0*keV);
177 ExcitSpins.push_back(1.0);
178 ExcitLifetimes.push_back(fPlanck/(172.0*keV));
179
180 ExcitEnergies.push_back(11270.0*keV);
181 ExcitSpins.push_back(2.0);
182 ExcitLifetimes.push_back(fPlanck/(4.0*keV));
183
184 ExcitEnergies.push_back(11324.0*keV);
185 ExcitSpins.push_back(2.0);
186 ExcitLifetimes.push_back(fPlanck/(53.0*keV));
187
188 ExcitEnergies.push_back(11871.0*keV);
189 ExcitSpins.push_back(2.0);
190 ExcitLifetimes.push_back(fPlanck/(46.0*keV));
191
192 ExcitEnergies.push_back(11925.0*keV);
193 ExcitSpins.push_back(4.0);
194 ExcitLifetimes.push_back(fPlanck/(0.44*keV));
195
196 ExcitEnergies.push_back(11948.0*keV);
197 ExcitSpins.push_back(8.0);
198 ExcitLifetimes.push_back(fPlanck/(35.0e-3*keV));
199
200 ExcitEnergies.push_back(11953.0*keV);
201 ExcitSpins.push_back(1.0);
202 ExcitLifetimes.push_back(fPlanck/(24.0*keV));
203
204 ExcitEnergies.push_back(11971.0*keV);
205 ExcitSpins.push_back(1.0);
206 ExcitLifetimes.push_back(fPlanck/(29.0*keV));
207
208 ExcitEnergies.push_back(12150.0*keV);
209 ExcitSpins.push_back(6.0);
210 ExcitLifetimes.push_back(fPlanck/(40.0*keV));
211
212 ExcitEnergies.push_back(12224.0*keV);
213 ExcitSpins.push_back(4.0);
214 ExcitLifetimes.push_back(fPlanck/(142.0*keV));
215
216 ExcitEnergies.push_back(12245.0*keV);
217 ExcitSpins.push_back(2.0);
218 ExcitLifetimes.push_back(fPlanck/(40.0*keV));
219
220 ExcitEnergies.push_back(12367.0*keV);
221 ExcitSpins.push_back(3.0);
222 ExcitLifetimes.push_back(fPlanck/(46.0*keV));
223
224 ExcitEnergies.push_back(12410.0*keV);
225 ExcitSpins.push_back(0.0);
226 ExcitLifetimes.push_back(fPlanck/(8.0*keV));
227
228 ExcitEnergies.push_back(12559.0*keV);
229 ExcitSpins.push_back(6.0);
230 ExcitLifetimes.push_back(fPlanck/(101.0*keV));
231
232 ExcitEnergies.push_back(12770.0*keV);
233 ExcitSpins.push_back(4.0);
234 ExcitLifetimes.push_back(fPlanck/(100.0*keV));
235
236 ExcitEnergies.push_back(12980.0*keV);
237 ExcitSpins.push_back(4.0);
238 ExcitLifetimes.push_back(fPlanck/(60.0*keV));
239
240 ExcitEnergies.push_back(13060.0*keV);
241 ExcitSpins.push_back(2.0);
242 ExcitLifetimes.push_back(fPlanck/(1.0*keV));
243
244 ExcitEnergies.push_back(13086.0*keV);
245 ExcitSpins.push_back(4.0);
246 ExcitLifetimes.push_back(fPlanck/(70.0*keV));
247
248 ExcitEnergies.push_back(13168.0*keV);
249 ExcitSpins.push_back(1.0);
250 ExcitLifetimes.push_back(fPlanck/(2.3*keV));
251
252 ExcitEnergies.push_back(13180.0*keV);
253 ExcitSpins.push_back(4.0);
254 ExcitLifetimes.push_back(fPlanck/(60.0*keV));
255
256 ExcitEnergies.push_back(13224.0*keV);
257 ExcitSpins.push_back(1.0);
258 ExcitLifetimes.push_back(fPlanck/(95.0*keV));
259
260 ExcitEnergies.push_back(13224.0*keV);
261 ExcitSpins.push_back(0.0);
262 ExcitLifetimes.push_back(fPlanck/(95.0*keV));
263
264 ExcitEnergies.push_back(13304.0*keV);
265 ExcitSpins.push_back(1.0);
266 ExcitLifetimes.push_back(fPlanck/(0.9*keV));
267
268 ExcitEnergies.push_back(13333.0*keV);
269 ExcitSpins.push_back(7.0);
270 ExcitLifetimes.push_back(fPlanck/(80.0e-3*keV));
271
272 ExcitEnergies.push_back(13342.0*keV);
273 ExcitSpins.push_back(4.0);
274 ExcitLifetimes.push_back(fPlanck/(20.0*keV));
275
276 ExcitEnergies.push_back(13411.0*keV);
277 ExcitSpins.push_back(2.0);
278 ExcitLifetimes.push_back(fPlanck/(35.0*keV));
279
280 ExcitEnergies.push_back(13420.0*keV);
281 ExcitSpins.push_back(4.0);
282 ExcitLifetimes.push_back(fPlanck/(110.0*keV));
283
284 ExcitEnergies.push_back(13462.0*keV);
285 ExcitSpins.push_back(1.0);
286 ExcitLifetimes.push_back(fPlanck/(190.0*keV));
287
288 ExcitEnergies.push_back(13479.0*keV);
289 ExcitSpins.push_back(1.0);
290 ExcitLifetimes.push_back(fPlanck/(7.1*keV));
291
292 ExcitEnergies.push_back(13523.0*keV);
293 ExcitSpins.push_back(1.0);
294 ExcitLifetimes.push_back(fPlanck/(30.0*keV));
295
296 ExcitEnergies.push_back(13541.0*keV);
297 ExcitSpins.push_back(2.0);
298 ExcitLifetimes.push_back(fPlanck/(63.0*keV));
299
300 ExcitEnergies.push_back(13584.0*keV);
301 ExcitSpins.push_back(2.0);
302 ExcitLifetimes.push_back(fPlanck/(10.0*keV));
303
304 ExcitEnergies.push_back(13650.0*keV);
305 ExcitSpins.push_back(0.0);
306 ExcitLifetimes.push_back(fPlanck/(22.0*keV));
307
308 ExcitEnergies.push_back(13660.0*keV);
309 ExcitSpins.push_back(1.0);
310 ExcitLifetimes.push_back(fPlanck/(115.0*keV));
311
312 ExcitEnergies.push_back(13673.0*keV);
313 ExcitSpins.push_back(2.0);
314 ExcitLifetimes.push_back(fPlanck/(4.5*keV));
315
316 ExcitEnergies.push_back(13700.0*keV);
317 ExcitSpins.push_back(3.0);
318 ExcitLifetimes.push_back(fPlanck/(320.0*keV));
319
320 ExcitEnergies.push_back(13730.0*keV);
321 ExcitSpins.push_back(0.0);
322 ExcitLifetimes.push_back(fPlanck/(170.0*keV));
323
324 ExcitEnergies.push_back(13733.0*keV);
325 ExcitSpins.push_back(1.0);
326 ExcitLifetimes.push_back(fPlanck/(7.7*keV));
327
328 ExcitEnergies.push_back(13870.0*keV);
329 ExcitSpins.push_back(1.0);
330 ExcitLifetimes.push_back(fPlanck/(190.0*keV));
331
332 ExcitEnergies.push_back(13880.0*keV);
333 ExcitSpins.push_back(6.0);
334 ExcitLifetimes.push_back(fPlanck/(100.0*keV));
335
336 ExcitEnergies.push_back(13903.0*keV);
337 ExcitSpins.push_back(2.0);
338 ExcitLifetimes.push_back(fPlanck/(48.0*keV));
339
340 ExcitEnergies.push_back(13946.0*keV);
341 ExcitSpins.push_back(0.0);
342 ExcitLifetimes.push_back(fPlanck/(70.0*keV));
343
344 ExcitEnergies.push_back(14017.0*keV);
345 ExcitSpins.push_back(1.0);
346 ExcitLifetimes.push_back(fPlanck/(70.0*keV));
347
348 ExcitEnergies.push_back(14030.0*keV);
349 ExcitSpins.push_back(2.0);
350 ExcitLifetimes.push_back(fPlanck/(140.0*keV));
351
352 ExcitEnergies.push_back(14124.0*keV);
353 ExcitSpins.push_back(2.0);
354 ExcitLifetimes.push_back(fPlanck/(4.7*keV));
355
356 ExcitEnergies.push_back(14134.0*keV);
357 ExcitSpins.push_back(2.0);
358 ExcitLifetimes.push_back(fPlanck/(51.0*keV));
359
360 ExcitEnergies.push_back(14148.0*keV);
361 ExcitSpins.push_back(2.0);
362 ExcitLifetimes.push_back(fPlanck/(11.8*keV));
363
364 ExcitEnergies.push_back(14197.0*keV);
365 ExcitSpins.push_back(1.0);
366 ExcitLifetimes.push_back(fPlanck/(13.9*keV));
367
368 ExcitEnergies.push_back(14300.0*keV);
369 ExcitSpins.push_back(6.0);
370 ExcitLifetimes.push_back(fPlanck/(240.0*keV));
371
372 ExcitEnergies.push_back(14467.0*keV);
373 ExcitSpins.push_back(0.0);
374 ExcitLifetimes.push_back(fPlanck/(135.0*keV));
375
376 ExcitEnergies.push_back(14600.0*keV);
377 ExcitSpins.push_back(4.0);
378 ExcitLifetimes.push_back(fPlanck/(240.0*keV));
379
380 ExcitEnergies.push_back(14604.0*keV);
381 ExcitSpins.push_back(1.0);
382 ExcitLifetimes.push_back(fPlanck/(125.0*keV));
383
384 ExcitEnergies.push_back(14695.0*keV);
385 ExcitSpins.push_back(1.0);
386 ExcitLifetimes.push_back(fPlanck/(38.0*keV));
387
388 ExcitEnergies.push_back(14850.0*keV);
389 ExcitSpins.push_back(2.0);
390 ExcitLifetimes.push_back(fPlanck/(100.0*keV));
391
392 ExcitEnergies.push_back(15030.0*keV);
393 ExcitSpins.push_back(2.0);
394 ExcitLifetimes.push_back(fPlanck/(90.0*keV));
395
396 ExcitEnergies.push_back(15260.0*keV);
397 ExcitSpins.push_back(1.0);
398 ExcitLifetimes.push_back(fPlanck/(285.0*keV));
399
400 ExcitEnergies.push_back(15300.0*keV);
401 ExcitSpins.push_back(0.0);
402 ExcitLifetimes.push_back(fPlanck/(285.0*keV));
403
404 ExcitEnergies.push_back(15618.0*keV);
405 ExcitSpins.push_back(8.0);
406 ExcitLifetimes.push_back(fPlanck/(28.0*keV));
407
408 ExcitEnergies.push_back(16728.0*keV);
409 ExcitSpins.push_back(0.0);
410 ExcitLifetimes.push_back(fPlanck/(2.0*keV));
411
412 ExcitEnergies.push_back(18080.0*keV);
413 ExcitSpins.push_back(7.0);
414 ExcitLifetimes.push_back(fPlanck/(140.0*keV));
415
416 ExcitEnergies.push_back(18310.0*keV);
417 ExcitSpins.push_back(6.0);
418 ExcitLifetimes.push_back(fPlanck/(240.0*keV));
419
420 ExcitEnergies.push_back(18426.0*keV);
421 ExcitSpins.push_back(2.0);
422 ExcitLifetimes.push_back(fPlanck/(10.0*keV));
423
424 ExcitEnergies.push_back(18700.0*keV);
425 ExcitSpins.push_back(6.0);
426 ExcitLifetimes.push_back(fPlanck/(600.0*keV));
427
428 ExcitEnergies.push_back(19160.0*keV);
429 ExcitSpins.push_back(6.0);
430 ExcitLifetimes.push_back(fPlanck/(200.0*keV));
431
432 ExcitEnergies.push_back(19400.0*keV);
433 ExcitSpins.push_back(6.0);
434 ExcitLifetimes.push_back(fPlanck/(280.0*keV));
435
436 ExcitEnergies.push_back(19840.0*keV);
437 ExcitSpins.push_back(6.0);
438 ExcitLifetimes.push_back(fPlanck/(280.0*keV));
439
440 ExcitEnergies.push_back(20160.0*keV);
441 ExcitSpins.push_back(7.0);
442 ExcitLifetimes.push_back(fPlanck/(250.0*keV));
443
444 ExcitEnergies.push_back(20400.0*keV);
445 ExcitSpins.push_back(6.0);
446 ExcitLifetimes.push_back(fPlanck/(360.0*keV));
447
448 ExcitEnergies.push_back(20400.0*keV);
449 ExcitSpins.push_back(7.0);
450 ExcitLifetimes.push_back(fPlanck/(200.0*keV));
451
452 ExcitEnergies.push_back(20680.0*keV);
453 ExcitSpins.push_back(9.0);
454 ExcitLifetimes.push_back(fPlanck/(120.0*keV));
455
456 ExcitEnergies.push_back(21000.0*keV);
457 ExcitSpins.push_back(7.0);
458 ExcitLifetimes.push_back(fPlanck/(200.0*keV));
459
460 ExcitEnergies.push_back(21080.0*keV);
461 ExcitSpins.push_back(9.0);
462 ExcitLifetimes.push_back(fPlanck/(80.0*keV));
463
464 ExcitEnergies.push_back(21300.0*keV);
465 ExcitSpins.push_back(7.0);
466 ExcitLifetimes.push_back(fPlanck/(300.0*keV));
467
468 ExcitEnergies.push_back(21800.0*keV);
469 ExcitSpins.push_back(7.0);
470 ExcitLifetimes.push_back(fPlanck/(300.0*keV));
471
472 ExcitEnergies.push_back(22300.0*keV);
473 ExcitSpins.push_back(7.0);
474 ExcitLifetimes.push_back(fPlanck/(500.0*keV));
475
476 ExcitEnergies.push_back(22700.0*keV);
477 ExcitSpins.push_back(9.0);
478 ExcitLifetimes.push_back(fPlanck/(500.0*keV));
479
480 ExcitEnergies.push_back(22840.0*keV);
481 ExcitSpins.push_back(9.0);
482 ExcitLifetimes.push_back(fPlanck/(250.0*keV));
483
484 ExcitEnergies.push_back(23400.0*keV);
485 ExcitSpins.push_back(8.0);
486 ExcitLifetimes.push_back(fPlanck/(500.0*keV));
487
488 ExcitEnergies.push_back(24110.0*keV);
489 ExcitSpins.push_back(8.0);
490 ExcitLifetimes.push_back(fPlanck/(350.0*keV));
491
492 ExcitEnergies.push_back(25000.0*keV);
493 ExcitSpins.push_back(8.0);
494 ExcitLifetimes.push_back(fPlanck/(600.0*keV));
495
496 ExcitEnergies.push_back(28000.0*keV);
497 ExcitSpins.push_back(8.0);
498 ExcitLifetimes.push_back(fPlanck/(1600.0*keV));
499
500}
std::vector< G4double > ExcitSpins
std::vector< G4double > ExcitEnergies
std::vector< G4double > ExcitLifetimes

◆ ~G4Ne20GEMProbability()

G4Ne20GEMProbability::~G4Ne20GEMProbability ( )

Definition at line 502 of file G4Ne20GEMProbability.cc.

503{}

The documentation for this class was generated from the following files: