| Geant4 Cross Reference |
1 Environment variable "G4FORCE_RUN_MANAGER_TYPE << 1 **********************************************
2 << 2 Geant4 version $Name: geant4-08-03-patch-01 $
3 ###################################### << 3 (31-Jul-2002)
4 !!! WARNING - FPE detection is activat << 4 Copyright : Geant4 Collaboration
5 ###################################### << 5 **********************************************
6 << 6 Going to assign importance: 1, to volumeworldCylinder_phys
7 << 7 Going to assign importance: 2, to volumecell: 02, shield
8 ################################ << 8 Going to assign importance: 4, to volumecell: 03, shield
9 !!! G4Backtrace is activated !!! << 9 Going to assign importance: 8, to volumecell: 04, shield
10 ################################ <<
11 <<
12 <<
13 ********************************************** <<
14 Geant4 version Name: geant4-11-03-ref-00 ( <<
15 Copyright : Geant4 Coll <<
16 References : NIM A 506 ( <<
17 : IEEE-TNS 53 <<
18 : NIM A 835 ( <<
19 WWW : http://gean <<
20 ********************************************** <<
21 <<
22 constructing parallel world <<
23 B03ImportanceDetectorConstruction:: ghostWorl <<
24 --- G4CoupledTransportation is used <<
25 Preparing Importance Sampling with GhostWorld <<
26 G4IStore:: Creating new Parallel IStore Parall <<
27 G4IStore:: ParallelWorldName = ParallelBiasin <<
28 G4IStore:: fParallelWorldVolume = ParallelBia <<
29 G4GeometrySampler:: preparing importance sampl <<
30 G4ImportanceConfigurator:: setting world name <<
31 G4ImportanceConfigurator:: entering importance <<
32 ### G4ImportanceProcess:: Creating <<
33 G4ImportanceProcess:: importance process paraf <<
34 <<
35 10
>> 11 phot: Total cross sections from Sandia parametrisation.
>> 12 B03PhysicsList::SetCuts:CutLength : 1 (mm)
36 13
37 G4ImportanceProcess:: SetParallelWorld name = << 14 conv: Total cross sections from a parametrisation. Good description from 1.5 MeV to 100 GeV for all Z.
38 === G4ProcessPlacer::AddProcessAsSecondDoIt: f << 15 e+e- energies according Bethe-Heitler
39 Modifying Process Order for ProcessName: Imp << 16 PhysicsTables from 1.022 MeV to 100 GeV in 100 bins.
40 The initial AlongStep Vectors: << 17
>> 18 compt: Total cross sections from a parametrisation. Good description from 10 KeV to (100/Z) GeV.
>> 19 Scattered gamma energy according Klein-Nishina.
>> 20 PhysicsTables from 1 keV to 100 GeV in 80 bins.
>> 21
>> 22 msc: Tables of transport mean free paths.
>> 23 New model of MSC , computes the lateral
>> 24 displacement of the particle , too.
>> 25 PhysicsTables from 100 eV to 100 TeV in 100 bins.
>> 26
>> 27 eIoni: delta cross sections from Moller+Bhabha. Good description from 1 KeV to 100 GeV.
>> 28 delta ray energy sampled from differential Xsection.
>> 29 PhysicsTables from 1 keV to 100 TeV in 100 bins.
>> 30
>> 31 eBrem: Total cross sections from a NEW parametrisation based on the EEDL data library.
>> 32 Good description from 1 KeV to 100 GeV.
>> 33 log scale extrapolation above 100 GeV
>> 34 Gamma energy sampled from a parametrised formula.
>> 35 PhysicsTables from 1 keV to 100 TeV in 100 bins.
>> 36
>> 37 annihil: Total cross section from Heilter formula(annihilation into 2 photons).
>> 38 gamma energies sampled according Heitler
>> 39 PhysicsTables from 10 keV to 10 TeV in 100 bins.
>> 40
>> 41 msc: Tables of transport mean free paths.
>> 42 New model of MSC , computes the lateral
>> 43 displacement of the particle , too.
>> 44 PhysicsTables from 100 eV to 100 TeV in 100 bins.
>> 45
>> 46 hIoni: Knock-on electron cross sections .
>> 47 Good description above the mean excitation energy.
>> 48 delta ray energy sampled from differential Xsection.
>> 49 PhysicsTables from 1 keV to 100 TeV in 100 bins.
>> 50
>> 51 msc: Tables of transport mean free paths.
>> 52 New model of MSC , computes the lateral
>> 53 displacement of the particle , too.
>> 54 PhysicsTables from 100 eV to 100 TeV in 100 bins.
>> 55
>> 56 MuIoni: Knock-on electron cross sections .
>> 57 Good description above the mean excitation energy.
>> 58 delta ray energy sampled from differential Xsection.
>> 59 PhysicsTables from 1 keV to 1000 PeV in 150 bins.
>> 60
>> 61 MuBrems: theoretical cross section
>> 62 Good description up to 1000 PeV.
>> 63 PhysicsTables from 1 keV to 1000 PeV in 150 bins.
>> 64
>> 65 MuPairProd: theoretical cross sections
>> 66 Good description up to 1000 PeV.
>> 67 PhysicsTables from 1 keV to 1000 PeV in 150 bins.
>> 68 +++ G4ProcessPlacer::G4ProcessPlacer: for: neutron
>> 69 === G4ProcessPlacer::AddProcessAsSecondDoIt ===
>> 70 ProcessName: MassImportanceProcess
>> 71 The initial Vectors:
41 GPIL Vector: 72 GPIL Vector:
42 ParaWorldProc_ParallelBiasingWorld << 73 Decay
43 CoupledTransportation << 74 LCapture
>> 75 LFission
>> 76 inelastic
>> 77 LElastic
>> 78 Transportation
44 DoIt Vector: 79 DoIt Vector:
45 CoupledTransportation << 80 Transportation
46 ParaWorldProc_ParallelBiasingWorld << 81 LElastic
47 The initial PostStep Vectors: << 82 inelastic
>> 83 LFission
>> 84 LCapture
>> 85 Decay
>> 86 The final Vectors:
48 GPIL Vector: 87 GPIL Vector:
49 ParaWorldProc_ParallelBiasingWorld << 88 Decay
50 CoupledTransportation << 89 LCapture
>> 90 LFission
>> 91 inelastic
>> 92 LElastic
>> 93 MassImportanceProcess
>> 94 Transportation
51 DoIt Vector: 95 DoIt Vector:
52 CoupledTransportation << 96 Transportation
53 ParaWorldProc_ParallelBiasingWorld << 97 MassImportanceProcess
54 The final AlongStep Vectors: << 98 LElastic
>> 99 inelastic
>> 100 LFission
>> 101 LCapture
>> 102 Decay
>> 103 ================================================
>> 104 WARNING - G4ImportanceAlgorithm::Calculate: ipre_over_ipost ! in [0.25, 4]: ipre_over_ipost = 8
>> 105 +++ G4ProcessPlacer::G4ProcessPlacer: for: neutron
>> 106 ProcessName: MassImportanceProcess, will be removed!
>> 107 The initial Vectors:
55 GPIL Vector: 108 GPIL Vector:
56 ImportanceProcess << 109 Decay
57 ParaWorldProc_ParallelBiasingWorld << 110 LCapture
58 CoupledTransportation << 111 LFission
>> 112 inelastic
>> 113 LElastic
>> 114 MassImportanceProcess
>> 115 Transportation
59 DoIt Vector: 116 DoIt Vector:
60 CoupledTransportation << 117 Transportation
61 ParaWorldProc_ParallelBiasingWorld << 118 MassImportanceProcess
62 ImportanceProcess << 119 LElastic
63 The final PostStep Vectors: << 120 inelastic
>> 121 LFission
>> 122 LCapture
>> 123 Decay
>> 124 The final Vectors:
64 GPIL Vector: 125 GPIL Vector:
65 ParaWorldProc_ParallelBiasingWorld << 126 Decay
66 ImportanceProcess << 127 LCapture
67 CoupledTransportation << 128 LFission
>> 129 inelastic
>> 130 LElastic
>> 131 Transportation
68 DoIt Vector: 132 DoIt Vector:
69 CoupledTransportation << 133 Transportation
70 ImportanceProcess << 134 LElastic
71 ParaWorldProc_ParallelBiasingWorld << 135 inelastic
72 ============================================== << 136 LFission
73 GeomSampler Configured!!! << 137 LCapture
74 Running in singlethreaded mode!!! << 138 Decay
75 B03PhysicsList::SetCuts:CutLength : 1 (mm) << 139
76 ghost world: ParallelBiasingWorld << 140 WARNING - G4ImportanceAlgorithm::~G4ImportanceAlgorithm: ipre_over_ipost ! in [0.25, 4] seen
77 adding cell: 1 replica: 0 name: cell_01 << 141
78 adding cell: 2 replica: 0 name: cell_02 << 142 WARNING - Attempt to delete the physical volume store while geometry closed !
79 adding cell: 3 replica: 0 name: cell_03 << 143 WARNING - Attempt to delete the logical volume store while geometry closed !
80 adding cell: 4 replica: 0 name: cell_04 << 144 WARNING - Attempt to delete the solid store while geometry closed !
81 adding cell: 5 replica: 0 name: cell_05 <<
82 adding cell: 6 replica: 0 name: cell_06 <<
83 adding cell: 7 replica: 0 name: cell_07 <<
84 adding cell: 8 replica: 0 name: cell_08 <<
85 adding cell: 9 replica: 0 name: cell_09 <<
86 adding cell: 10 replica: 0 name: cell_10 <<
87 adding cell: 11 replica: 0 name: cell_11 <<
88 adding cell: 12 replica: 0 name: cell_12 <<
89 adding cell: 13 replica: 0 name: cell_13 <<
90 adding cell: 14 replica: 0 name: cell_14 <<
91 adding cell: 15 replica: 0 name: cell_15 <<
92 adding cell: 16 replica: 0 name: cell_16 <<
93 adding cell: 17 replica: 0 name: cell_17 <<
94 adding cell: 18 replica: 0 name: cell_18 <<
95 ============================================== <<
96 ====== Electromagnetic Physics <<
97 ============================================== <<
98 LPM effect enabled <<
99 Enable creation and use of sampling tables <<
100 Apply cuts on all EM processes <<
101 Use combined TransportationWithMsc <<
102 Use general process <<
103 Enable linear polarisation for gamma <<
104 Enable photoeffect sampling below K-shell <<
105 Enable sampling of quantum entanglement <<
106 X-section factor for integral approach <<
107 Min kinetic energy for tables <<
108 Max kinetic energy for tables <<
109 Number of bins per decade of a table <<
110 Verbose level <<
111 Verbose level for worker thread <<
112 Bremsstrahlung energy threshold above which <<
113 primary e+- is added to the list of secondar <<
114 Bremsstrahlung energy threshold above which pr <<
115 muon/hadron is added to the list of secondar <<
116 Positron annihilation at rest model <<
117 Enable 3 gamma annihilation on fly <<
118 Lowest triplet kinetic energy <<
119 Enable sampling of gamma linear polarisation <<
120 5D gamma conversion model type <<
121 5D gamma conversion model on isolated ion <<
122 Use Ricardo-Gerardo pair production model <<
123 Livermore data directory <<
124 ============================================== <<
125 ====== Ionisation Parameters <<
126 ============================================== <<
127 Step function for e+- <<
128 Step function for muons/hadrons <<
129 Step function for light ions <<
130 Step function for general ions <<
131 Lowest e+e- kinetic energy <<
132 Lowest muon/hadron kinetic energy <<
133 Use ICRU90 data <<
134 Fluctuations of dE/dx are enabled <<
135 Type of fluctuation model for leptons and hadr <<
136 Use built-in Birks satuaration <<
137 Build CSDA range enabled <<
138 Use cut as a final range enabled <<
139 Enable angular generator interface <<
140 Max kinetic energy for CSDA tables <<
141 Max kinetic energy for NIEL computation <<
142 Linear loss limit <<
143 Read data from file for e+e- pair production b <<
144 ============================================== <<
145 ====== Multiple Scattering Par <<
146 ============================================== <<
147 Type of msc step limit algorithm for e+- <<
148 Type of msc step limit algorithm for muons/had <<
149 Msc lateral displacement for e+- enabled <<
150 Msc lateral displacement for muons and hadrons <<
151 Urban msc model lateral displacement alg96 <<
152 Range factor for msc step limit for e+- <<
153 Range factor for msc step limit for muons/hadr <<
154 Geometry factor for msc step limitation of e+- <<
155 Safety factor for msc step limit for e+- <<
156 Skin parameter for msc step limitation of e+- <<
157 Lambda limit for msc step limit for e+- <<
158 Use Mott correction for e- scattering <<
159 Factor used for dynamic computation of angular <<
160 limit between single and multiple scattering <<
161 Fixed angular limit between single <<
162 and multiple scattering <<
163 Upper energy limit for e+- multiple scattering <<
164 Type of electron single scattering model <<
165 Type of nuclear form-factor <<
166 Screening factor <<
167 ============================================== <<
168 <<
169 conv: for gamma SubType=14 BuildTable=1 <<
170 Lambda table from 1.022 MeV to 100 TeV, <<
171 ===== EM models for the G4Region Defaul <<
172 BetheHeitlerLPM : Emin= 0 eV Emax= 1 <<
173 <<
174 compt: for gamma SubType=13 BuildTable=1 <<
175 Lambda table from 100 eV to 1 MeV, 7 bi <<
176 LambdaPrime table from 1 MeV to 100 TeV <<
177 ===== EM models for the G4Region Defaul <<
178 Klein-Nishina : Emin= 0 eV Emax= 1 <<
179 <<
180 phot: for gamma SubType=12 BuildTable=0 <<
181 LambdaPrime table from 200 keV to 100 Te <<
182 ===== EM models for the G4Region Defaul <<
183 PhotoElectric : Emin= 0 eV Emax= 1 <<
184 <<
185 msc: for e- SubType= 10 <<
186 ===== EM models for the G4Region Defaul <<
187 UrbanMsc : Emin= 0 eV Emax= 1 <<
188 StepLim=UseSafety Rfact=0.04 Gfact=2 <<
189 <<
190 eIoni: for e- XStype:3 SubType=2 <<
191 dE/dx and range tables from 100 eV to 1 <<
192 Lambda tables from threshold to 100 TeV, <<
193 StepFunction=(0.2, 1 mm), integ: 3, fluc <<
194 ===== EM models for the G4Region Defaul <<
195 MollerBhabha : Emin= 0 eV Emax= 1 <<
196 <<
197 eBrem: for e- XStype:4 SubType=3 <<
198 dE/dx and range tables from 100 eV to 1 <<
199 Lambda tables from threshold to 100 TeV, <<
200 LPM flag: 1 for E > 1 GeV, VertexHighEn <<
201 ===== EM models for the G4Region Defaul <<
202 eBremSB : Emin= 0 eV Emax= <<
203 eBremLPM : Emin= 1 GeV Emax= 1 <<
204 <<
205 msc: for e+ SubType= 10 <<
206 ===== EM models for the G4Region Defaul <<
207 UrbanMsc : Emin= 0 eV Emax= 1 <<
208 StepLim=UseSafety Rfact=0.04 Gfact=2 <<
209 <<
210 eIoni: for e+ XStype:3 SubType=2 <<
211 dE/dx and range tables from 100 eV to 1 <<
212 Lambda tables from threshold to 100 TeV, <<
213 StepFunction=(0.2, 1 mm), integ: 3, fluc <<
214 ===== EM models for the G4Region Defaul <<
215 MollerBhabha : Emin= 0 eV Emax= 1 <<
216 <<
217 eBrem: for e+ XStype:4 SubType=3 <<
218 dE/dx and range tables from 100 eV to 1 <<
219 Lambda tables from threshold to 100 TeV, <<
220 LPM flag: 1 for E > 1 GeV, VertexHighEn <<
221 ===== EM models for the G4Region Defaul <<
222 eBremSB : Emin= 0 eV Emax= <<
223 eBremLPM : Emin= 1 GeV Emax= 1 <<
224 <<
225 annihil: for e+ XStype:2 SubType=5 AtRestMode <<
226 ===== EM models for the G4Region Defaul <<
227 eplus2gg : Emin= 0 eV Emax= 1 <<
228 <<
229 msc: for proton SubType= 10 <<
230 ===== EM models for the G4Region Defaul <<
231 UrbanMsc : Emin= 0 eV Emax= 1 <<
232 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
233 <<
234 hIoni: for proton XStype:3 SubType=2 <<
235 dE/dx and range tables from 100 eV to 1 <<
236 Lambda tables from threshold to 100 TeV, <<
237 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
238 ===== EM models for the G4Region Defaul <<
239 Bragg : Emin= 0 eV Emax= <<
240 BetheBloch : Emin= 2 MeV Emax= 1 <<
241 <<
242 msc: for GenericIon SubType= 10 <<
243 ===== EM models for the G4Region Defaul <<
244 UrbanMsc : Emin= 0 eV Emax= 1 <<
245 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
246 <<
247 hIoni: for GenericIon XStype:3 SubType=2 <<
248 dE/dx and range tables from 100 eV to 1 <<
249 Lambda tables from threshold to 100 TeV, <<
250 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
251 ===== EM models for the G4Region Defaul <<
252 Bragg : Emin= 0 eV Emax= <<
253 BetheBloch : Emin= 2 MeV Emax= 1 <<
254 <<
255 msc: for alpha SubType= 10 <<
256 ===== EM models for the G4Region Defaul <<
257 UrbanMsc : Emin= 0 eV Emax= 1 <<
258 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
259 <<
260 hIoni: for alpha XStype:3 SubType=2 <<
261 dE/dx and range tables from 100 eV to 1 <<
262 Lambda tables from threshold to 100 TeV, <<
263 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
264 ===== EM models for the G4Region Defaul <<
265 Bragg : Emin= 0 eV Emax=7.9 <<
266 BetheBloch : Emin=7.9452 MeV Emax= <<
267 <<
268 msc: for anti_proton SubType= 10 <<
269 ===== EM models for the G4Region Defaul <<
270 UrbanMsc : Emin= 0 eV Emax= 1 <<
271 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
272 <<
273 hIoni: for anti_proton XStype:3 SubType=2 <<
274 dE/dx and range tables from 100 eV to 1 <<
275 Lambda tables from threshold to 100 TeV, <<
276 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
277 ===== EM models for the G4Region Defaul <<
278 ICRU73QO : Emin= 0 eV Emax= <<
279 BetheBloch : Emin= 2 MeV Emax= 1 <<
280 <<
281 msc: for kaon+ SubType= 10 <<
282 ===== EM models for the G4Region Defaul <<
283 UrbanMsc : Emin= 0 eV Emax= 1 <<
284 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
285 <<
286 hIoni: for kaon+ XStype:3 SubType=2 <<
287 dE/dx and range tables from 100 eV to 1 <<
288 Lambda tables from threshold to 100 TeV, <<
289 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
290 ===== EM models for the G4Region Defaul <<
291 Bragg : Emin= 0 eV Emax=1.0 <<
292 BetheBloch : Emin=1.05231 MeV Emax= <<
293 <<
294 msc: for kaon- SubType= 10 <<
295 ===== EM models for the G4Region Defaul <<
296 UrbanMsc : Emin= 0 eV Emax= 1 <<
297 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
298 <<
299 hIoni: for kaon- XStype:3 SubType=2 <<
300 dE/dx and range tables from 100 eV to 1 <<
301 Lambda tables from threshold to 100 TeV, <<
302 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
303 ===== EM models for the G4Region Defaul <<
304 ICRU73QO : Emin= 0 eV Emax=1.0 <<
305 BetheBloch : Emin=1.05231 MeV Emax= <<
306 <<
307 msc: for mu+ SubType= 10 <<
308 ===== EM models for the G4Region Defaul <<
309 UrbanMsc : Emin= 0 eV Emax= 1 <<
310 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
311 <<
312 muIoni: for mu+ XStype:3 SubType=2 <<
313 dE/dx and range tables from 100 eV to 1 <<
314 Lambda tables from threshold to 100 TeV, <<
315 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
316 ===== EM models for the G4Region Defaul <<
317 Bragg : Emin= 0 eV Emax= 2 <<
318 MuBetheBloch : Emin= 200 keV Emax= 1 <<
319 <<
320 muBrems: for mu+ XStype:1 SubType=3 <<
321 dE/dx and range tables from 100 eV to 1 <<
322 Lambda tables from threshold to 100 TeV, <<
323 ===== EM models for the G4Region Defaul <<
324 MuBrem : Emin= 0 eV Emax= 1 <<
325 <<
326 muPairProd: for mu+ XStype:1 SubType=4 <<
327 dE/dx and range tables from 100 eV to 1 <<
328 Lambda tables from threshold to 100 TeV, <<
329 Sampling table 21x1001 from 0.85 GeV to <<
330 ===== EM models for the G4Region Defaul <<
331 muPairProd : Emin= 0 eV Emax= 1 <<
332 <<
333 msc: for mu- SubType= 10 <<
334 ===== EM models for the G4Region Defaul <<
335 UrbanMsc : Emin= 0 eV Emax= 1 <<
336 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
337 <<
338 muIoni: for mu- XStype:3 SubType=2 <<
339 dE/dx and range tables from 100 eV to 1 <<
340 Lambda tables from threshold to 100 TeV, <<
341 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
342 ===== EM models for the G4Region Defaul <<
343 ICRU73QO : Emin= 0 eV Emax= 2 <<
344 MuBetheBloch : Emin= 200 keV Emax= 1 <<
345 <<
346 muBrems: for mu- XStype:1 SubType=3 <<
347 dE/dx and range tables from 100 eV to 1 <<
348 Lambda tables from threshold to 100 TeV, <<
349 ===== EM models for the G4Region Defaul <<
350 MuBrem : Emin= 0 eV Emax= 1 <<
351 <<
352 muPairProd: for mu- XStype:1 SubType=4 <<
353 dE/dx and range tables from 100 eV to 1 <<
354 Lambda tables from threshold to 100 TeV, <<
355 Sampling table 21x1001 from 0.85 GeV to <<
356 ===== EM models for the G4Region Defaul <<
357 muPairProd : Emin= 0 eV Emax= 1 <<
358 <<
359 msc: for pi+ SubType= 10 <<
360 ===== EM models for the G4Region Defaul <<
361 UrbanMsc : Emin= 0 eV Emax= 1 <<
362 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
363 <<
364 hIoni: for pi+ XStype:3 SubType=2 <<
365 dE/dx and range tables from 100 eV to 1 <<
366 Lambda tables from threshold to 100 TeV, <<
367 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
368 ===== EM models for the G4Region Defaul <<
369 Bragg : Emin= 0 eV Emax=297 <<
370 BetheBloch : Emin=297.505 keV Emax= <<
371 <<
372 msc: for pi- SubType= 10 <<
373 ===== EM models for the G4Region Defaul <<
374 UrbanMsc : Emin= 0 eV Emax= 1 <<
375 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
376 <<
377 hIoni: for pi- XStype:3 SubType=2 <<
378 dE/dx and range tables from 100 eV to 1 <<
379 Lambda tables from threshold to 100 TeV, <<
380 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
381 ===== EM models for the G4Region Defaul <<
382 ICRU73QO : Emin= 0 eV Emax=297 <<
383 BetheBloch : Emin=297.505 keV Emax= <<
384 <<
385 ============================================== <<
386 HADRONIC PROCESSES SUMMARY ( <<
387 ---------------------------------------------- <<
388 Hadronic Processes <<
389 Process: hadElastic <<
390 Model: hElasticLHEP: 0 eV <<
391 Cr_sctns: Glauber-Gribov: 0 eV <<
392 Process: inelastic <<
393 Model: Binary Light Ion Cascade: 0 eV <<
394 Model: QMDModel: 100 <<
395 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
396 ---------------------------------------------- <<
397 Hadronic Processes <<
398 Process: hadElastic <<
399 Model: hElasticLHEP: 0 eV <<
400 Cr_sctns: Glauber-Gribov: 0 eV <<
401 Process: inelastic <<
402 Model: ANTI-FTFP: 0 eV <<
403 Cr_sctns: Glauber-Gribov: 0 eV <<
404 ---------------------------------------------- <<
405 Hadronic Processes <<
406 Process: hadElastic <<
407 Model: hElasticLHEP: 0 eV <<
408 Cr_sctns: Glauber-Gribov: 0 eV <<
409 Process: inelastic <<
410 Model: ANTI-FTFP: 0 eV <<
411 Cr_sctns: Glauber-Gribov: 0 eV <<
412 ---------------------------------------------- <<
413 Hadronic Processes <<
414 Process: hadElastic <<
415 Model: hElasticLHEP: 0 eV <<
416 Cr_sctns: Glauber-Gribov: 0 eV <<
417 Process: inelastic <<
418 Model: ANTI-FTFP: 0 eV <<
419 Cr_sctns: Glauber-Gribov: 0 eV <<
420 ---------------------------------------------- <<
421 Hadronic Processes <<
422 Process: hadElastic <<
423 Model: hElasticLHEP: 0 eV <<
424 Cr_sctns: Glauber-Gribov: 0 eV <<
425 Process: inelastic <<
426 Model: Binary Light Ion Cascade: 0 eV <<
427 Model: QMDModel: 100 <<
428 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
429 ---------------------------------------------- <<
430 Hadronic Processes <<
431 Process: hadElastic <<
432 Model: hElasticLHEP: 0 eV <<
433 Cr_sctns: Glauber-Gribov: 0 eV <<
434 Process: inelastic <<
435 Model: BertiniCascade: 0 eV <<
436 Model: TheoFSGenerator: 19 G <<
437 Cr_sctns: Glauber-Gribov: 0 eV <<
438 ---------------------------------------------- <<
439 Hadronic Processes <<
440 Process: hadElastic <<
441 Model: hElasticLHEP: 0 eV <<
442 Cr_sctns: Glauber-Gribov: 0 eV <<
443 Process: inelastic <<
444 Model: BertiniCascade: 0 eV <<
445 Model: TheoFSGenerator: 19 G <<
446 Cr_sctns: Glauber-Gribov: 0 eV <<
447 ---------------------------------------------- <<
448 Hadronic Processes <<
449 Process: hadElastic <<
450 Model: hElasticLHEP: 0 eV <<
451 Cr_sctns: Glauber-Gribov: 0 eV <<
452 Process: inelastic <<
453 Model: BertiniCascade: 0 eV <<
454 Model: TheoFSGenerator: 19 G <<
455 Cr_sctns: Glauber-Gribov: 0 eV <<
456 ---------------------------------------------- <<
457 Hadronic Processes <<
458 Process: hadElastic <<
459 Model: hElasticLHEP: 0 eV <<
460 Cr_sctns: Glauber-Gribov: 0 eV <<
461 Process: inelastic <<
462 Model: BertiniCascade: 0 eV <<
463 Model: TheoFSGenerator: 19 G <<
464 Cr_sctns: G4NeutronInelasticXS: 0 eV <<
465 Process: nFission <<
466 Model: G4LFission: 0 eV <<
467 Cr_sctns: ZeroXS: 0 eV <<
468 Process: nCapture <<
469 Model: nRadCapture: 0 eV <<
470 Cr_sctns: G4NeutronCaptureXS: 0 eV <<
471 ---------------------------------------------- <<
472 Hadronic Processes <<
473 Process: hadElastic <<
474 Model: hElasticLHEP: 0 eV <<
475 Cr_sctns: Glauber-Gribov: 0 eV <<
476 Process: inelastic <<
477 Model: BertiniCascade: 0 eV <<
478 Model: TheoFSGenerator: 19 G <<
479 Cr_sctns: Glauber-Gribov: 0 eV <<
480 ---------------------------------------------- <<
481 Hadronic Processes <<
482 Process: hadElastic <<
483 Model: hElasticLHEP: 0 eV <<
484 Cr_sctns: Glauber-Gribov: 0 eV <<
485 Process: inelastic <<
486 Model: BertiniCascade: 0 eV <<
487 Model: TheoFSGenerator: 19 G <<
488 Cr_sctns: Glauber-Gribov: 0 eV <<
489 ---------------------------------------------- <<
490 Hadronic Processes <<
491 Process: hadElastic <<
492 Model: hElasticLHEP: 0 eV <<
493 Cr_sctns: Glauber-Gribov: 0 eV <<
494 Process: inelastic <<
495 Model: BertiniCascade: 0 eV <<
496 Model: TheoFSGenerator: 19 G <<
497 Cr_sctns: Glauber-Gribov: 0 eV <<
498 ---------------------------------------------- <<
499 Hadronic Processes <<
500 Process: hadElastic <<
501 Model: hElasticLHEP: 0 eV <<
502 Cr_sctns: Glauber-Gribov: 0 eV <<
503 Process: inelastic <<
504 Model: BertiniCascade: 0 eV <<
505 Model: TheoFSGenerator: 19 G <<
506 Cr_sctns: Glauber-Gribov: 0 eV <<
507 ---------------------------------------------- <<
508 Hadronic Processes <<
509 Process: hadElastic <<
510 Model: hElasticLHEP: 0 eV <<
511 Cr_sctns: Glauber-Gribov: 0 eV <<
512 Process: inelastic <<
513 Model: Binary Light Ion Cascade: 0 eV <<
514 Model: QMDModel: 100 <<
515 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
516 ============================================== <<
517 ====== Geant4 Native Pre-compound Model <<
518 ============================================== <<
519 Type of pre-compound inverse x-section <<
520 Pre-compound model active <<
521 Pre-compound excitation low energy <<
522 Pre-compound excitation high energy <<
523 Angular generator for pre-compound model <<
524 Use NeverGoBack option for pre-compound model <<
525 Use SoftCutOff option for pre-compound model <<
526 Use CEM transitions for pre-compound model <<
527 Use GNASH transitions for pre-compound model <<
528 Use HETC submodel for pre-compound model <<
529 ============================================== <<
530 ====== Nuclear De-excitation Module Para <<
531 ============================================== <<
532 Type of de-excitation inverse x-section <<
533 Type of de-excitation factory <<
534 Number of de-excitation channels <<
535 Min excitation energy <<
536 Min energy per nucleon for multifragmentation <<
537 Limit excitation energy for Fermi BreakUp <<
538 Level density (1/MeV) <<
539 Use simple level density model <<
540 Use discrete excitation energy of the residual <<
541 Time limit for long lived isomeres <<
542 Isomer production flag <<
543 Internal e- conversion flag <<
544 Store e- internal conversion data <<
545 Correlated gamma emission flag <<
546 Max 2J for sampling of angular correlations <<
547 ============================================== <<
548 ++ ConcreteSD/Collisions id 0 <<
549 ++ ConcreteSD/CollWeight id 1 <<
550 ++ ConcreteSD/Population id 2 <<
551 ++ ConcreteSD/TrackEnter id 3 <<
552 ++ ConcreteSD/SL id 4 <<
553 ++ ConcreteSD/SLW id 5 <<
554 ++ ConcreteSD/SLWE id 6 <<
555 ++ ConcreteSD/SLW_V id 7 <<
556 ++ ConcreteSD/SLWE_V id 8 <<
557 ### Run 0 start. <<
558 <<
559 -------- WWWW ------- G4Exception-START ------ <<
560 *** G4Exception : GeomBias1001 <<
561 issued by : G4ImportanceAlgorithm::Warni <<
562 Calculate() - ipre_over_ipost ! in [0.25, 4]. <<
563 ipre_over_ipost = 256. <<
564 *** This is just a warning message. *** <<
565 -------- WWWW -------- G4Exception-END ------- <<
566 <<
567 ###### EndOfRunAction <<
568 getting hits map ConcreteSD/Collisions <<
569 getting hits map ConcreteSD/CollWeight <<
570 getting hits map ConcreteSD/Population <<
571 getting hits map ConcreteSD/TrackEnter <<
572 getting hits map ConcreteSD/SL <<
573 getting hits map ConcreteSD/SLW <<
574 getting hits map ConcreteSD/SLWE <<
575 getting hits map ConcreteSD/SLW_V <<
576 getting hits map ConcreteSD/SLWE_V <<
577 <<
578 --------------------End of Global Run--------- <<
579 Number of event processed : 100 <<
580 ============================================== <<
581 ============================================== <<
582 Volume | Tr.Entering | Population <<
583 cell_00 | 50 | 148 <<
584 cell_01 | 156 | 190 <<
585 cell_02 | 219 | 320 <<
586 cell_03 | 370 | 513 <<
587 cell_04 | 559 | 755 <<
588 cell_05 | 727 | 987 <<
589 cell_06 | 866 | 1198 <<
590 cell_07 | 995 | 1438 <<
591 cell_08 | 1222 | 1711 <<
592 cell_09 | 1566 | 2075 <<
593 cell_10 | 1752 | 2446 <<
594 cell_11 | 2009 | 2799 <<
595 cell_12 | 2323 | 3188 <<
596 cell_13 | 2682 | 3657 <<
597 cell_14 | 3060 | 4156 <<
598 cell_15 | 3297 | 4592 <<
599 cell_16 | 3546 | 4940 <<
600 cell_17 | 3585 | 5154 <<
601 cell_18 | 2582 | 4827 <<
602 cell_19 | 2205 | 2205 <<
603 ============================================= <<