Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4Na23GEMProbability Class Reference

#include <G4Na23GEMProbability.hh>

+ Inheritance diagram for G4Na23GEMProbability:

Public Member Functions

 G4Na23GEMProbability ()
 
 ~G4Na23GEMProbability ()
 
- 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 ()=default
 
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 rZ, G4int rA, G4double rmass, G4double fmass)
 
G4double GetRecoilExcitation () const
 
void SetEvapExcitation (G4double exc)
 
G4double GetProbability () const
 
void ResetProbability ()
 
G4double SampleEnergy ()
 
 G4VEmissionProbability (const G4VEmissionProbability &right)=delete
 
const G4VEmissionProbabilityoperator= (const G4VEmissionProbability &right)=delete
 
G4bool operator== (const G4VEmissionProbability &right) const =delete
 
G4bool operator!= (const G4VEmissionProbability &right) const =delete
 

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
G4NuclearLevelDatapNuclearLevelData
 
G4PowpG4pow
 
G4int OPTxs
 
G4int pVerbose
 
G4int theZ
 
G4int theA
 
G4int resZ = 0
 
G4int resA = 0
 
G4double pMass = 0.0
 
G4double pEvapMass = 0.0
 
G4double pResMass = 0.0
 
G4double pProbability = 0.0
 
G4double pTolerance = 0.0
 

Detailed Description

Definition at line 36 of file G4Na23GEMProbability.hh.

Constructor & Destructor Documentation

◆ G4Na23GEMProbability()

G4Na23GEMProbability::G4Na23GEMProbability ( )

Definition at line 34 of file G4Na23GEMProbability.cc.

34 :
35 G4GEMProbability(23,11,3.0/2.0) // A,Z,Spin
36{
37
38 ExcitEnergies.push_back(439.80*keV);
39 ExcitSpins.push_back(5.0/2.0);
40 ExcitLifetimes.push_back(1109.0e-3*picosecond);
41
42 ExcitEnergies.push_back(2076.4*keV);
43 ExcitSpins.push_back(7.0/2.0);
44 ExcitLifetimes.push_back(28.0e-3*picosecond);
45
46 ExcitEnergies.push_back(2390.9*keV);
47 ExcitSpins.push_back(1.0/2.0);
48 ExcitLifetimes.push_back(555.0e-3*picosecond);
49
50 ExcitEnergies.push_back(2639.8*keV);
51 ExcitSpins.push_back(1.0/2.0);
52 ExcitLifetimes.push_back(69.0e-3*picosecond);
53
54 ExcitEnergies.push_back(2703.7*keV);
55 ExcitSpins.push_back(9.0/2.0);
56 ExcitLifetimes.push_back(76.0e-3*picosecond);
57
58 ExcitEnergies.push_back(2982.4*keV);
59 ExcitSpins.push_back(3.0/2.0);
60 ExcitLifetimes.push_back(3.5e-3*picosecond);
61
62 ExcitEnergies.push_back(3678.3*keV);
63 ExcitSpins.push_back(3.0/2.0);
64 ExcitLifetimes.push_back(22.0e-3*picosecond);
65
66 ExcitEnergies.push_back(3848.2*keV);
67 ExcitSpins.push_back(5.0/2.0);
68 ExcitLifetimes.push_back(90.0e-3*picosecond);
69
70 ExcitEnergies.push_back(3914.7*keV);
71 ExcitSpins.push_back(5.0/2.0);
72 ExcitLifetimes.push_back(7.6e-3*picosecond);
73
74 ExcitEnergies.push_back(4432.0*keV);
75 ExcitSpins.push_back(1.0/2.0);
76 ExcitLifetimes.push_back(0.19e-3*picosecond);
77
78 ExcitEnergies.push_back(4775.6*keV);
79 ExcitSpins.push_back(7.0/2.0);
80 ExcitLifetimes.push_back(1.4e-3*picosecond);
81
82 ExcitEnergies.push_back(5377.0*keV);
83 ExcitSpins.push_back(5.0/2.0);
84 ExcitLifetimes.push_back(0.25e-3*picosecond);
85
86 ExcitEnergies.push_back(5533.0*keV);
87 ExcitSpins.push_back(11.0/2.0);
88 ExcitLifetimes.push_back(8.0e-3*picosecond);
89
90 ExcitEnergies.push_back(6117.0*keV);
91 ExcitSpins.push_back(5.0/2.0);
92 ExcitLifetimes.push_back(52.0e-3*picosecond);
93
94 ExcitEnergies.push_back(6237.0*keV);
95 ExcitSpins.push_back(9.0/2.0);
96 ExcitLifetimes.push_back(17.0e-3*picosecond);
97
98 ExcitEnergies.push_back(6348.0*keV);
99 ExcitSpins.push_back(9.0/2.0);
100 ExcitLifetimes.push_back(26e-3*picosecond);
101
102 ExcitEnergies.push_back(7080.0*keV);
103 ExcitSpins.push_back(3.0/2.0);
104 ExcitLifetimes.push_back(0.24e-3*picosecond);
105
106 ExcitEnergies.push_back(7132.0*keV);
107 ExcitSpins.push_back(5.0/2.0);
108 ExcitLifetimes.push_back(0.21e-3*picosecond);
109
110 ExcitEnergies.push_back(7888.0*keV);
111 ExcitSpins.push_back(5.0/2.0);
112 ExcitLifetimes.push_back(0.17e-3*picosecond);
113
114 ExcitEnergies.push_back(8663.0*keV);
115 ExcitSpins.push_back(1.0/2.0);
116 ExcitLifetimes.push_back(0.10e-3*picosecond);
117
118 ExcitEnergies.push_back(8945.0*keV);
119 ExcitSpins.push_back(7.0/2.0);
120 ExcitLifetimes.push_back(21.0e-3*picosecond);
121
122 ExcitEnergies.push_back(9209.6*keV);
123 ExcitSpins.push_back(3.0/2.0);
124 ExcitLifetimes.push_back(fPlanck/(0.11*keV));
125
126 ExcitEnergies.push_back(9250.8*keV);
127 ExcitSpins.push_back(1.0/2.0);
128 ExcitLifetimes.push_back(fPlanck/(1.6*keV));
129
130 ExcitEnergies.push_back(9395.4*keV);
131 ExcitSpins.push_back(5.0/2.0);
132 ExcitLifetimes.push_back(fPlanck/(0.03*keV));
133
134 ExcitEnergies.push_back(9404.4*keV);
135 ExcitSpins.push_back(1.0/2.0);
136 ExcitLifetimes.push_back(fPlanck/(65.0*keV));
137
138 ExcitEnergies.push_back(9425.6*keV);
139 ExcitSpins.push_back(3.0/2.0);
140 ExcitLifetimes.push_back(fPlanck/(0.6*keV));
141
142 ExcitEnergies.push_back(9485.9*keV);
143 ExcitSpins.push_back(3.0/2.0);
144 ExcitLifetimes.push_back(fPlanck/(0.22*keV));
145
146 ExcitEnergies.push_back(9606.6*keV);
147 ExcitSpins.push_back(3.0/2.0);
148 ExcitLifetimes.push_back(fPlanck/(6.0*keV));
149
150 ExcitEnergies.push_back(9650.0*keV);
151 ExcitSpins.push_back(5.0/2.0);
152 ExcitLifetimes.push_back(fPlanck/(2.1*keV));
153
154 ExcitEnergies.push_back(9653.7*keV);
155 ExcitSpins.push_back(1.0/2.0);
156 ExcitLifetimes.push_back(fPlanck/(105.0*keV));
157
158 ExcitEnergies.push_back(9679.5*keV);
159 ExcitSpins.push_back(3.0/2.0);
160 ExcitLifetimes.push_back(fPlanck/(0.6*keV));
161
162 ExcitEnergies.push_back(9698.9*keV);
163 ExcitSpins.push_back(3.0/2.0);
164 ExcitLifetimes.push_back(fPlanck/(29.0*keV));
165
166 ExcitEnergies.push_back(9730.8*keV);
167 ExcitSpins.push_back(7.0/2.0);
168 ExcitLifetimes.push_back(fPlanck/(0.35*keV));
169
170 ExcitEnergies.push_back(9753.5*keV);
171 ExcitSpins.push_back(3.0/2.0);
172 ExcitLifetimes.push_back(fPlanck/(4.0*keV));
173
174 ExcitEnergies.push_back(9813.8*keV);
175 ExcitSpins.push_back(5.0/2.0);
176 ExcitLifetimes.push_back(fPlanck/(1.0*keV));
177
178 ExcitEnergies.push_back(9833.4*keV);
179 ExcitSpins.push_back(3.0/2.0);
180 ExcitLifetimes.push_back(fPlanck/(47.0*keV));
181
182 ExcitEnergies.push_back(9849.1*keV);
183 ExcitSpins.push_back(1.0/2.0);
184 ExcitLifetimes.push_back(fPlanck/(150.0*keV));
185
186 ExcitEnergies.push_back(9998.0*keV);
187 ExcitSpins.push_back(1.0/2.0);
188 ExcitLifetimes.push_back(fPlanck/(475.0*keV));
189
190 ExcitEnergies.push_back(10014.0*keV);
191 ExcitSpins.push_back(5.0/2.0);
192 ExcitLifetimes.push_back(fPlanck/(69.0*keV));
193
194 ExcitEnergies.push_back(10083.0*keV);
195 ExcitSpins.push_back(1.0/2.0);
196 ExcitLifetimes.push_back(fPlanck/(1270.0*keV));
197
198 ExcitEnergies.push_back(10110.0*keV);
199 ExcitSpins.push_back(1.0/2.0);
200 ExcitLifetimes.push_back(fPlanck/(4200.0*keV));
201
202 ExcitEnergies.push_back(10167.0*keV);
203 ExcitSpins.push_back(5.0/2.0);
204 ExcitLifetimes.push_back(fPlanck/(65.0*keV));
205
206 ExcitEnergies.push_back(10229.0*keV);
207 ExcitSpins.push_back(3.0/2.0);
208 ExcitLifetimes.push_back(fPlanck/(5.0*keV));
209
210 ExcitEnergies.push_back(10239.0*keV);
211 ExcitSpins.push_back(1.0/2.0);
212 ExcitLifetimes.push_back(fPlanck/(2450.0*keV));
213
214 ExcitEnergies.push_back(10313.0*keV);
215 ExcitSpins.push_back(3.0/2.0);
216 ExcitLifetimes.push_back(fPlanck/(2000.0*keV));
217
218 ExcitEnergies.push_back(10334.0*keV);
219 ExcitSpins.push_back(1.0/2.0);
220 ExcitLifetimes.push_back(fPlanck/(190.0*keV));
221
222 ExcitEnergies.push_back(10341.0*keV);
223 ExcitSpins.push_back(5.0/2.0);
224 ExcitLifetimes.push_back(fPlanck/(11.0*keV));
225
226 ExcitEnergies.push_back(10348.0*keV);
227 ExcitSpins.push_back(3.0/2.0);
228 ExcitLifetimes.push_back(fPlanck/(210.0*keV));
229
230 ExcitEnergies.push_back(10436.0*keV);
231 ExcitSpins.push_back(5.0/2.0);
232 ExcitLifetimes.push_back(fPlanck/(25.0*keV));
233
234 ExcitEnergies.push_back(10476.0*keV);
235 ExcitSpins.push_back(3.0/2.0);
236 ExcitLifetimes.push_back(fPlanck/(470.0*keV));
237
238 ExcitEnergies.push_back(10499.0*keV);
239 ExcitSpins.push_back(3.0/2.0);
240 ExcitLifetimes.push_back(fPlanck/(920.0*keV));
241
242 ExcitEnergies.push_back(10505.0*keV);
243 ExcitSpins.push_back(1.0/2.0);
244 ExcitLifetimes.push_back(fPlanck/(560.0*keV));
245
246 ExcitEnergies.push_back(10516.0*keV);
247 ExcitSpins.push_back(5.0/2.0);
248 ExcitLifetimes.push_back(fPlanck/(100.0*keV));
249
250 ExcitEnergies.push_back(10546.0*keV);
251 ExcitSpins.push_back(5.0/2.0);
252 ExcitLifetimes.push_back(fPlanck/(540.0*keV));
253
254 ExcitEnergies.push_back(10570.0*keV);
255 ExcitSpins.push_back(3.0/2.0);
256 ExcitLifetimes.push_back(fPlanck/(1100.0*keV));
257
258 ExcitEnergies.push_back(10615.0*keV);
259 ExcitSpins.push_back(5.0/2.0);
260 ExcitLifetimes.push_back(fPlanck/(425.0*keV));
261
262 ExcitEnergies.push_back(10673.0*keV);
263 ExcitSpins.push_back(3.0/2.0);
264 ExcitLifetimes.push_back(fPlanck/(23000.0*keV));
265
266 ExcitEnergies.push_back(10702.0*keV);
267 ExcitSpins.push_back(3.0/2.0);
268 ExcitLifetimes.push_back(fPlanck/(400.0*keV));
269
270 ExcitEnergies.push_back(10769.0*keV);
271 ExcitSpins.push_back(3.0/2.0);
272 ExcitLifetimes.push_back(fPlanck/(5.0*keV));
273
274 ExcitEnergies.push_back(10822.0*keV);
275 ExcitSpins.push_back(3.0/2.0);
276 ExcitLifetimes.push_back(fPlanck/(1700.0*keV));
277
278 ExcitEnergies.push_back(10823.0*keV);
279 ExcitSpins.push_back(3.0/2.0);
280 ExcitLifetimes.push_back(fPlanck/(26000.0*keV));
281
282 ExcitEnergies.push_back(10837.0*keV);
283 ExcitSpins.push_back(5.0/2.0);
284 ExcitLifetimes.push_back(fPlanck/(100.0*keV));
285
286 ExcitEnergies.push_back(10869.0*keV);
287 ExcitSpins.push_back(3.0/2.0);
288 ExcitLifetimes.push_back(fPlanck/(21000.0*keV));
289
290 ExcitEnergies.push_back(10904.0*keV);
291 ExcitSpins.push_back(1.0/2.0);
292 ExcitLifetimes.push_back(fPlanck/(53.0*keV));
293
294 ExcitEnergies.push_back(10907.0*keV);
295 ExcitSpins.push_back(1.0/2.0);
296 ExcitLifetimes.push_back(fPlanck/(2850.0*keV));
297
298 ExcitEnergies.push_back(10908.0*keV);
299 ExcitSpins.push_back(5.0/2.0);
300 ExcitLifetimes.push_back(fPlanck/(900.0*keV));
301
302 ExcitEnergies.push_back(10917.0*keV);
303 ExcitSpins.push_back(1.0/2.0);
304 ExcitLifetimes.push_back(fPlanck/(55.0*keV));
305
306 ExcitEnergies.push_back(10931.0*keV);
307 ExcitSpins.push_back(3.0/2.0);
308 ExcitLifetimes.push_back(fPlanck/(3500.0*keV));
309
310 ExcitEnergies.push_back(10949.0*keV);
311 ExcitSpins.push_back(1.0/2.0);
312 ExcitLifetimes.push_back(fPlanck/(5200.0*keV));
313
314 ExcitEnergies.push_back(10954.0*keV);
315 ExcitSpins.push_back(7.0/2.0);
316 ExcitLifetimes.push_back(fPlanck/(65.0*keV));
317
318 ExcitEnergies.push_back(10972.0*keV);
319 ExcitSpins.push_back(5.0/2.0);
320 ExcitLifetimes.push_back(fPlanck/(400.0*keV));
321
322 ExcitEnergies.push_back(10975.0*keV);
323 ExcitSpins.push_back(3.0/2.0);
324 ExcitLifetimes.push_back(fPlanck/(18.0*keV));
325
326 ExcitEnergies.push_back(10979.0*keV);
327 ExcitSpins.push_back(3.0/2.0);
328 ExcitLifetimes.push_back(fPlanck/(6000.0*keV));
329
330 ExcitEnergies.push_back(10993.0*keV);
331 ExcitSpins.push_back(1.0/2.0);
332 ExcitLifetimes.push_back(fPlanck/(20600.0*keV));
333
334 ExcitEnergies.push_back(10994.0*keV);
335 ExcitSpins.push_back(3.0/2.0);
336 ExcitLifetimes.push_back(fPlanck/(60.0*keV));
337
338 ExcitEnergies.push_back(11039.0*keV);
339 ExcitSpins.push_back(1.0/2.0);
340 ExcitLifetimes.push_back(fPlanck/(500.0*keV));
341
342 ExcitEnergies.push_back(11087.0*keV);
343 ExcitSpins.push_back(3.0/2.0);
344 ExcitLifetimes.push_back(fPlanck/(800.0*keV));
345
346 ExcitEnergies.push_back(11109.0*keV);
347 ExcitSpins.push_back(5.0/2.0);
348 ExcitLifetimes.push_back(fPlanck/(135.0*keV));
349
350 ExcitEnergies.push_back(11110.0*keV);
351 ExcitSpins.push_back(3.0/2.0);
352 ExcitLifetimes.push_back(fPlanck/(4100.0*keV));
353
354}
std::vector< G4double > ExcitSpins
std::vector< G4double > ExcitEnergies
std::vector< G4double > ExcitLifetimes

◆ ~G4Na23GEMProbability()

G4Na23GEMProbability::~G4Na23GEMProbability ( )

Definition at line 356 of file G4Na23GEMProbability.cc.

357{}

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