| Geant4 Cross Reference |
1 Environment variable "G4FORCE_RUN_MANAGER_TYPE <<
2 1
3 ###################################### 2 ############################################
4 !!! WARNING - FPE detection is activat 3 !!! WARNING - FPE detection is activated !!!
5 ###################################### 4 ############################################
6 5
>> 6 *************************************************************
>> 7 Geant4 version Name: geant4-10-00-patch-01 (28-February-2014)
>> 8 Copyright : Geant4 Collaboration
>> 9 Reference : NIM A 506 (2003), 250-303
>> 10 WWW : http://cern.ch/geant4
>> 11 *************************************************************
7 12
8 ################################ << 13 <<< Geant4 Physics List simulation engine: FTFP_BERT 2.0
9 !!! G4Backtrace is activated !!! <<
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 <<< Geant4 Physics List simulation engine: FTF <<
23 <<
24 <<
25 hInelastic FTFP_BERT : threshold between BERT <<
26 for pions : 3 to 6 GeV <<
27 for kaons : 3 to 6 GeV <<
28 for proton : 3 to 6 GeV <<
29 for neutron : 3 to 6 GeV <<
30 14
31 ### Adding tracking cuts for neutron TimeCut( 15 ### Adding tracking cuts for neutron TimeCut(ns)= 10000 KinEnergyCut(MeV)= 0
32 paraFlag: 0 16 paraFlag: 0
33 Preparing Importance Sampling 17 Preparing Importance Sampling
34 G4IStore:: Creating new MASS IStore 18 G4IStore:: Creating new MASS IStore
35 G4GeometrySampler:: preparing importance sampl 19 G4GeometrySampler:: preparing importance sampling WorldName is
36 G4ImportanceConfigurator:: setting world name <<
37 G4ImportanceConfigurator:: entering importance 20 G4ImportanceConfigurator:: entering importance configure, paraflag 0
38 ### G4ImportanceProcess:: Creating << 21
>> 22
>> 23
>> 24 G4ImportanceProcess:: Creating
39 G4ImportanceProcess:: importance process paraf 25 G4ImportanceProcess:: importance process paraflag is: 0
40 === G4ProcessPlacer::AddProcessAsSecondDoIt: f 26 === G4ProcessPlacer::AddProcessAsSecondDoIt: for: neutron
41 Modifying Process Order for ProcessName: Imp 27 Modifying Process Order for ProcessName: ImportanceProcess
42 The initial AlongStep Vectors: 28 The initial AlongStep Vectors:
43 GPIL Vector: 29 GPIL Vector:
44 Transportation 30 Transportation
45 DoIt Vector: 31 DoIt Vector:
46 Transportation 32 Transportation
47 The initial PostStep Vectors: 33 The initial PostStep Vectors:
48 GPIL Vector: 34 GPIL Vector:
49 nKiller 35 nKiller
50 nCapture 36 nCapture
51 neutronInelastic 37 neutronInelastic
52 hadElastic 38 hadElastic
53 Decay 39 Decay
54 Transportation 40 Transportation
55 DoIt Vector: 41 DoIt Vector:
56 Transportation 42 Transportation
57 Decay 43 Decay
58 hadElastic 44 hadElastic
59 neutronInelastic 45 neutronInelastic
60 nCapture 46 nCapture
61 nKiller 47 nKiller
62 The final AlongStep Vectors: 48 The final AlongStep Vectors:
63 GPIL Vector: 49 GPIL Vector:
64 ImportanceProcess 50 ImportanceProcess
65 Transportation 51 Transportation
66 DoIt Vector: 52 DoIt Vector:
67 Transportation 53 Transportation
68 ImportanceProcess 54 ImportanceProcess
69 The final PostStep Vectors: 55 The final PostStep Vectors:
70 GPIL Vector: 56 GPIL Vector:
71 nKiller 57 nKiller
72 nCapture 58 nCapture
73 neutronInelastic 59 neutronInelastic
74 hadElastic 60 hadElastic
75 Decay 61 Decay
76 ImportanceProcess 62 ImportanceProcess
77 Transportation 63 Transportation
78 DoIt Vector: 64 DoIt Vector:
79 Transportation 65 Transportation
80 ImportanceProcess 66 ImportanceProcess
81 Decay 67 Decay
82 hadElastic 68 hadElastic
83 neutronInelastic 69 neutronInelastic
84 nCapture 70 nCapture
85 nKiller 71 nKiller
86 ============================================== 72 ================================================
87 B01DetectorConstruction:: Creating Importance 73 B01DetectorConstruction:: Creating Importance Store
88 Going to assign importance: 1, to volume: cell 74 Going to assign importance: 1, to volume: cell_01
89 Going to assign importance: 2, to volume: cell 75 Going to assign importance: 2, to volume: cell_02
90 Going to assign importance: 4, to volume: cell 76 Going to assign importance: 4, to volume: cell_03
91 Going to assign importance: 8, to volume: cell 77 Going to assign importance: 8, to volume: cell_04
92 Going to assign importance: 16, to volume: cel 78 Going to assign importance: 16, to volume: cell_05
93 Going to assign importance: 32, to volume: cel 79 Going to assign importance: 32, to volume: cell_06
94 Going to assign importance: 64, to volume: cel 80 Going to assign importance: 64, to volume: cell_07
95 Going to assign importance: 128, to volume: ce 81 Going to assign importance: 128, to volume: cell_08
96 Going to assign importance: 256, to volume: ce 82 Going to assign importance: 256, to volume: cell_09
97 Going to assign importance: 512, to volume: ce 83 Going to assign importance: 512, to volume: cell_10
98 Going to assign importance: 1024, to volume: c 84 Going to assign importance: 1024, to volume: cell_11
99 Going to assign importance: 2048, to volume: c 85 Going to assign importance: 2048, to volume: cell_12
100 Going to assign importance: 4096, to volume: c 86 Going to assign importance: 4096, to volume: cell_13
101 Going to assign importance: 8192, to volume: c 87 Going to assign importance: 8192, to volume: cell_14
102 Going to assign importance: 16384, to volume: 88 Going to assign importance: 16384, to volume: cell_15
103 Going to assign importance: 32768, to volume: 89 Going to assign importance: 32768, to volume: cell_16
104 Going to assign importance: 65536, to volume: 90 Going to assign importance: 65536, to volume: cell_17
105 Going to assign importance: 131072, to volume: 91 Going to assign importance: 131072, to volume: cell_18
106 ============================================== <<
107 ====== Electromagnetic Physics <<
108 ============================================== <<
109 LPM effect enabled <<
110 Enable creation and use of sampling tables <<
111 Apply cuts on all EM processes <<
112 Use combined TransportationWithMsc <<
113 Use general process <<
114 Enable linear polarisation for gamma <<
115 Enable photoeffect sampling below K-shell <<
116 Enable sampling of quantum entanglement <<
117 X-section factor for integral approach <<
118 Min kinetic energy for tables <<
119 Max kinetic energy for tables <<
120 Number of bins per decade of a table <<
121 Verbose level <<
122 Verbose level for worker thread <<
123 Bremsstrahlung energy threshold above which <<
124 primary e+- is added to the list of secondar <<
125 Bremsstrahlung energy threshold above which pr <<
126 muon/hadron is added to the list of secondar <<
127 Positron annihilation at rest model <<
128 Enable 3 gamma annihilation on fly <<
129 Lowest triplet kinetic energy <<
130 Enable sampling of gamma linear polarisation <<
131 5D gamma conversion model type <<
132 5D gamma conversion model on isolated ion <<
133 Use Ricardo-Gerardo pair production model <<
134 Livermore data directory <<
135 ============================================== <<
136 ====== Ionisation Parameters <<
137 ============================================== <<
138 Step function for e+- <<
139 Step function for muons/hadrons <<
140 Step function for light ions <<
141 Step function for general ions <<
142 Lowest e+e- kinetic energy <<
143 Lowest muon/hadron kinetic energy <<
144 Use ICRU90 data <<
145 Fluctuations of dE/dx are enabled <<
146 Type of fluctuation model for leptons and hadr <<
147 Use built-in Birks satuaration <<
148 Build CSDA range enabled <<
149 Use cut as a final range enabled <<
150 Enable angular generator interface <<
151 Max kinetic energy for CSDA tables <<
152 Max kinetic energy for NIEL computation <<
153 Linear loss limit <<
154 Read data from file for e+e- pair production b <<
155 ============================================== <<
156 ====== Multiple Scattering Par <<
157 ============================================== <<
158 Type of msc step limit algorithm for e+- <<
159 Type of msc step limit algorithm for muons/had <<
160 Msc lateral displacement for e+- enabled <<
161 Msc lateral displacement for muons and hadrons <<
162 Urban msc model lateral displacement alg96 <<
163 Range factor for msc step limit for e+- <<
164 Range factor for msc step limit for muons/hadr <<
165 Geometry factor for msc step limitation of e+- <<
166 Safety factor for msc step limit for e+- <<
167 Skin parameter for msc step limitation of e+- <<
168 Lambda limit for msc step limit for e+- <<
169 Use Mott correction for e- scattering <<
170 Factor used for dynamic computation of angular <<
171 limit between single and multiple scattering <<
172 Fixed angular limit between single <<
173 and multiple scattering <<
174 Upper energy limit for e+- multiple scattering <<
175 Type of electron single scattering model <<
176 Type of nuclear form-factor <<
177 Screening factor <<
178 ============================================== <<
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 LivermorePhElectric : Emin= 0 eV Emax= 1 <<
184 92
185 compt: for gamma SubType=13 BuildTable=1 << 93 phot: for gamma SubType= 12
186 Lambda table from 100 eV to 1 MeV, 7 bi << 94 LambdaPrime table from 200 keV to 10 TeV in 54 bins
187 LambdaPrime table from 1 MeV to 100 TeV <<
188 ===== EM models for the G4Region Defaul 95 ===== EM models for the G4Region DefaultRegionForTheWorld ======
189 Klein-Nishina : Emin= 0 eV Emax= 1 << 96 PhotoElectric : Emin= 0 eV Emax= 10 TeV AngularGenSauterGavrila FluoActive
190 97
191 conv: for gamma SubType=14 BuildTable=1 << 98 compt: for gamma SubType= 13
192 Lambda table from 1.022 MeV to 100 TeV, << 99 Lambda table from 100 eV to 1 MeV in 28 bins, spline: 1
>> 100 LambdaPrime table from 1 MeV to 10 TeV in 49 bins
193 ===== EM models for the G4Region Defaul 101 ===== EM models for the G4Region DefaultRegionForTheWorld ======
194 BetheHeitlerLPM : Emin= 0 eV Emax= 1 << 102 Klein-Nishina : Emin= 0 eV Emax= 10 TeV
195 103
196 Rayl: for gamma SubType=11 BuildTable=1 << 104 conv: for gamma SubType= 14
197 Lambda table from 100 eV to 150 keV, 7 << 105 Lambda table from 1.022 MeV to 10 TeV in 49 bins, spline: 1
198 LambdaPrime table from 150 keV to 100 Te <<
199 ===== EM models for the G4Region Defaul 106 ===== EM models for the G4Region DefaultRegionForTheWorld ======
200 LivermoreRayleigh : Emin= 0 eV Emax= 1 << 107 BetheHeitler : Emin= 0 eV Emax= 80 GeV
>> 108 BetheHeitlerLPM : Emin= 80 GeV Emax= 10 TeV
201 109
202 msc: for e- SubType= 10 << 110 msc: for e- SubType= 10
>> 111 RangeFactor= 0.04, stepLimitType: 1, latDisplacement: 1
203 ===== EM models for the G4Region Defaul 112 ===== EM models for the G4Region DefaultRegionForTheWorld ======
204 UrbanMsc : Emin= 0 eV Emax= 1 << 113 UrbanMsc : Emin= 0 eV Emax= 100 MeV Table with 42 bins Emin= 100 eV Emax= 100 MeV
205 StepLim=UseSafety Rfact=0.04 Gfact=2 << 114 WentzelVIUni : Emin= 100 MeV Emax= 10 TeV Table with 35 bins Emin= 100 MeV Emax= 10 TeV
206 WentzelVIUni : Emin= 100 MeV Emax= 1 <<
207 StepLim=UseSafety Rfact=0.04 Gfact=2 <<
208 115
209 eIoni: for e- XStype:3 SubType=2 << 116 eIoni: for e- SubType= 2
210 dE/dx and range tables from 100 eV to 1 << 117 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
211 Lambda tables from threshold to 100 TeV, << 118 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
212 StepFunction=(0.2, 1 mm), integ: 3, fluc << 119 finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
213 ===== EM models for the G4Region Defaul 120 ===== EM models for the G4Region DefaultRegionForTheWorld ======
214 MollerBhabha : Emin= 0 eV Emax= 1 << 121 MollerBhabha : Emin= 0 eV Emax= 10 TeV
215 122
216 eBrem: for e- XStype:4 SubType=3 << 123 eBrem: for e- SubType= 3
217 dE/dx and range tables from 100 eV to 1 << 124 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
218 Lambda tables from threshold to 100 TeV, << 125 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
219 LPM flag: 1 for E > 1 GeV, VertexHighEn << 126 LPM flag: 1 for E > 1 GeV
220 ===== EM models for the G4Region Defaul 127 ===== EM models for the G4Region DefaultRegionForTheWorld ======
221 eBremSB : Emin= 0 eV Emax= << 128 eBremSB : Emin= 0 eV Emax= 1 GeV DipBustGen
222 eBremLPM : Emin= 1 GeV Emax= 1 << 129 eBremLPM : Emin= 1 GeV Emax= 10 TeV DipBustGen
223 130
224 CoulombScat: for e- XStype:1 SubType=1 BuildT << 131 CoulombScat: for e- SubType= 1
225 Lambda table from 100 MeV to 100 TeV, 7 << 132 Lambda table from 100 MeV to 10 TeV in 35 bins, spline: 1
226 ThetaMin(p) < Theta(degree) < 180, pLimi << 133 180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
227 ===== EM models for the G4Region Defaul 134 ===== EM models for the G4Region DefaultRegionForTheWorld ======
228 eCoulombScattering : Emin= 100 MeV Emax= 1 << 135 eCoulombScattering : Emin= 100 MeV Emax= 10 TeV
229 136
230 msc: for e+ SubType= 10 << 137 msc: for e+ SubType= 10
>> 138 RangeFactor= 0.04, stepLimitType: 1, latDisplacement: 1
231 ===== EM models for the G4Region Defaul 139 ===== EM models for the G4Region DefaultRegionForTheWorld ======
232 UrbanMsc : Emin= 0 eV Emax= 1 << 140 UrbanMsc : Emin= 0 eV Emax= 100 MeV Table with 42 bins Emin= 100 eV Emax= 100 MeV
233 StepLim=UseSafety Rfact=0.04 Gfact=2 << 141 WentzelVIUni : Emin= 100 MeV Emax= 10 TeV Table with 35 bins Emin= 100 MeV Emax= 10 TeV
234 WentzelVIUni : Emin= 100 MeV Emax= 1 <<
235 StepLim=UseSafety Rfact=0.04 Gfact=2 <<
236 142
237 eIoni: for e+ XStype:3 SubType=2 << 143 eIoni: for e+ SubType= 2
238 dE/dx and range tables from 100 eV to 1 << 144 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
239 Lambda tables from threshold to 100 TeV, << 145 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
240 StepFunction=(0.2, 1 mm), integ: 3, fluc << 146 finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
241 ===== EM models for the G4Region Defaul 147 ===== EM models for the G4Region DefaultRegionForTheWorld ======
242 MollerBhabha : Emin= 0 eV Emax= 1 << 148 MollerBhabha : Emin= 0 eV Emax= 10 TeV
243 149
244 eBrem: for e+ XStype:4 SubType=3 << 150 eBrem: for e+ SubType= 3
245 dE/dx and range tables from 100 eV to 1 << 151 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
246 Lambda tables from threshold to 100 TeV, << 152 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
247 LPM flag: 1 for E > 1 GeV, VertexHighEn << 153 LPM flag: 1 for E > 1 GeV
248 ===== EM models for the G4Region Defaul 154 ===== EM models for the G4Region DefaultRegionForTheWorld ======
249 eBremSB : Emin= 0 eV Emax= << 155 eBremSB : Emin= 0 eV Emax= 1 GeV DipBustGen
250 eBremLPM : Emin= 1 GeV Emax= 1 << 156 eBremLPM : Emin= 1 GeV Emax= 10 TeV DipBustGen
251 157
252 annihil: for e+ XStype:2 SubType=5 AtRestMode << 158 annihil: for e+ SubType= 5
253 ===== EM models for the G4Region Defaul 159 ===== EM models for the G4Region DefaultRegionForTheWorld ======
254 eplus2gg : Emin= 0 eV Emax= 1 << 160 eplus2gg : Emin= 0 eV Emax= 10 TeV
255 161
256 CoulombScat: for e+ XStype:1 SubType=1 BuildT << 162 CoulombScat: for e+ SubType= 1
257 Lambda table from 100 MeV to 100 TeV, 7 << 163 Lambda table from 100 MeV to 10 TeV in 35 bins, spline: 1
258 ThetaMin(p) < Theta(degree) < 180, pLimi << 164 180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
259 ===== EM models for the G4Region Defaul 165 ===== EM models for the G4Region DefaultRegionForTheWorld ======
260 eCoulombScattering : Emin= 100 MeV Emax= 1 << 166 eCoulombScattering : Emin= 100 MeV Emax= 10 TeV
261 167
262 msc: for proton SubType= 10 << 168 msc: for proton SubType= 10
>> 169 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
263 ===== EM models for the G4Region Defaul 170 ===== EM models for the G4Region DefaultRegionForTheWorld ======
264 WentzelVIUni : Emin= 0 eV Emax= 1 << 171 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
265 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
266 172
267 hIoni: for proton XStype:3 SubType=2 << 173 hIoni: for proton SubType= 2
268 dE/dx and range tables from 100 eV to 1 << 174 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
269 Lambda tables from threshold to 100 TeV, << 175 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
270 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 176 finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
271 ===== EM models for the G4Region Defaul 177 ===== EM models for the G4Region DefaultRegionForTheWorld ======
272 Bragg : Emin= 0 eV Emax= << 178 Bragg : Emin= 0 eV Emax= 2 MeV
273 BetheBloch : Emin= 2 MeV Emax= 1 << 179 BetheBloch : Emin= 2 MeV Emax= 10 TeV
274 180
275 hBrems: for proton XStype:1 SubType=3 << 181 hBrems: for proton SubType= 3
276 dE/dx and range tables from 100 eV to 1 << 182 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
277 Lambda tables from threshold to 100 TeV, << 183 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
278 ===== EM models for the G4Region Defaul 184 ===== EM models for the G4Region DefaultRegionForTheWorld ======
279 hBrem : Emin= 0 eV Emax= 1 << 185 hBrem : Emin= 0 eV Emax= 10 TeV
280 186
281 hPairProd: for proton XStype:1 SubType=4 << 187 hPairProd: for proton SubType= 4
282 dE/dx and range tables from 100 eV to 1 << 188 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
283 Lambda tables from threshold to 100 TeV, << 189 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
284 Sampling table 17x1001 from 7.50618 GeV << 190 Sampling table 13x1001 from 7.50618 GeV to 10 TeV
285 ===== EM models for the G4Region Defaul 191 ===== EM models for the G4Region DefaultRegionForTheWorld ======
286 hPairProd : Emin= 0 eV Emax= 1 << 192 hPairProd : Emin= 0 eV Emax= 10 TeV
287 193
288 CoulombScat: for proton XStype:1 SubType=1 Bu << 194 CoulombScat: for proton SubType= 1
289 Lambda table from threshold to 100 TeV, << 195 Lambda table from 100 eV to 10 TeV in 44 bins, spline: 1
290 ThetaMin(p) < Theta(degree) < 180, pLimi << 196 180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
291 ===== EM models for the G4Region Defaul 197 ===== EM models for the G4Region DefaultRegionForTheWorld ======
292 eCoulombScattering : Emin= 0 eV Emax= 1 << 198 eCoulombScattering : Emin= 0 eV Emax= 10 TeV
293 199
294 msc: for GenericIon SubType= 10 << 200 msc: for GenericIon SubType= 10
>> 201 RangeFactor= 0.2, stepLimitType: 0, latDisplacement: 0
295 ===== EM models for the G4Region Defaul 202 ===== EM models for the G4Region DefaultRegionForTheWorld ======
296 UrbanMsc : Emin= 0 eV Emax= 1 << 203 UrbanMsc : Emin= 0 eV Emax= 10 TeV
297 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
298 204
299 ionIoni: for GenericIon XStype:3 SubType=2 << 205 ionIoni: for GenericIon SubType= 2
300 dE/dx and range tables from 100 eV to 1 << 206 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
301 Lambda tables from threshold to 100 TeV, << 207 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
302 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 208 finalRange(mm)= 0.01, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.02
>> 209 Stopping Power data for 17 ion/material pairs
303 ===== EM models for the G4Region Defaul 210 ===== EM models for the G4Region DefaultRegionForTheWorld ======
304 Bragg : Emin= 0 eV Emax= << 211 BraggIon : Emin= 0 eV Emax= 2 MeV
305 BetheBloch : Emin= 2 MeV Emax= 1 << 212 BetheBloch : Emin= 2 MeV Emax= 10 TeV
306 213
307 msc: for alpha SubType= 10 << 214 msc: for alpha SubType= 10
>> 215 RangeFactor= 0.2, stepLimitType: 0, latDisplacement: 0
308 ===== EM models for the G4Region Defaul 216 ===== EM models for the G4Region DefaultRegionForTheWorld ======
309 UrbanMsc : Emin= 0 eV Emax= 1 << 217 UrbanMsc : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
310 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
311 218
312 ionIoni: for alpha XStype:3 SubType=2 << 219 ionIoni: for alpha SubType= 2
313 dE/dx and range tables from 100 eV to 1 << 220 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
314 Lambda tables from threshold to 100 TeV, << 221 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
315 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 222 finalRange(mm)= 0.01, dRoverRange= 0.1, integral: 1, fluct: 1, linLossLimit= 0.02
316 ===== EM models for the G4Region Defaul 223 ===== EM models for the G4Region DefaultRegionForTheWorld ======
317 BraggIon : Emin= 0 eV Emax=7.9 << 224 BraggIon : Emin= 0 eV Emax= 7.9452 MeV
318 BetheBloch : Emin=7.9452 MeV Emax= << 225 BetheBloch : Emin= 7.9452 MeV Emax= 10 TeV
319 226
320 msc: for anti_proton SubType= 10 << 227 msc: for anti_proton SubType= 10
>> 228 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
321 ===== EM models for the G4Region Defaul 229 ===== EM models for the G4Region DefaultRegionForTheWorld ======
322 WentzelVIUni : Emin= 0 eV Emax= 1 << 230 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
323 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
324 231
325 hIoni: for anti_proton XStype:3 SubType=2 << 232 hIoni: for anti_proton SubType= 2
326 dE/dx and range tables from 100 eV to 1 << 233 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
327 Lambda tables from threshold to 100 TeV, << 234 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
328 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 235 finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
329 ===== EM models for the G4Region Defaul 236 ===== EM models for the G4Region DefaultRegionForTheWorld ======
330 ICRU73QO : Emin= 0 eV Emax= << 237 ICRU73QO : Emin= 0 eV Emax= 2 MeV
331 BetheBloch : Emin= 2 MeV Emax= 1 << 238 BetheBloch : Emin= 2 MeV Emax= 10 TeV
332 239
333 hBrems: for anti_proton XStype:1 SubType=3 << 240 hBrems: for anti_proton SubType= 3
334 dE/dx and range tables from 100 eV to 1 << 241 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
335 Lambda tables from threshold to 100 TeV, << 242 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
336 ===== EM models for the G4Region Defaul 243 ===== EM models for the G4Region DefaultRegionForTheWorld ======
337 hBrem : Emin= 0 eV Emax= 1 << 244 hBrem : Emin= 0 eV Emax= 10 TeV
338 245
339 hPairProd: for anti_proton XStype:1 SubType << 246 hPairProd: for anti_proton SubType= 4
340 dE/dx and range tables from 100 eV to 1 << 247 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
341 Lambda tables from threshold to 100 TeV, << 248 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
342 Sampling table 17x1001 from 7.50618 GeV << 249 Sampling table 13x1001 from 7.50618 GeV to 10 TeV
343 ===== EM models for the G4Region Defaul 250 ===== EM models for the G4Region DefaultRegionForTheWorld ======
344 hPairProd : Emin= 0 eV Emax= 1 << 251 hPairProd : Emin= 0 eV Emax= 10 TeV
345 252
346 CoulombScat: for anti_proton XStype:1 SubType << 253 msc: for kaon+ SubType= 10
347 Lambda table from threshold to 100 TeV, << 254 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
348 ThetaMin(p) < Theta(degree) < 180, pLimi <<
349 ===== EM models for the G4Region Defaul 255 ===== EM models for the G4Region DefaultRegionForTheWorld ======
350 eCoulombScattering : Emin= 0 eV Emax= 1 << 256 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
351 257
352 msc: for kaon+ SubType= 10 << 258 hIoni: for kaon+ SubType= 2
>> 259 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
>> 260 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 261 finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
353 ===== EM models for the G4Region Defaul 262 ===== EM models for the G4Region DefaultRegionForTheWorld ======
354 WentzelVIUni : Emin= 0 eV Emax= 1 << 263 Bragg : Emin= 0 eV Emax= 1.05231 MeV
355 StepLim=Minimal Rfact=0.2 Gfact=2.5 << 264 BetheBloch : Emin= 1.05231 MeV Emax= 10 TeV
356 265
357 hIoni: for kaon+ XStype:3 SubType=2 << 266 hBrems: for kaon+ SubType= 3
358 dE/dx and range tables from 100 eV to 1 << 267 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
359 Lambda tables from threshold to 100 TeV, << 268 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
360 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
361 ===== EM models for the G4Region Defaul 269 ===== EM models for the G4Region DefaultRegionForTheWorld ======
362 Bragg : Emin= 0 eV Emax=1.0 << 270 hBrem : Emin= 0 eV Emax= 10 TeV
363 BetheBloch : Emin=1.05231 MeV Emax= <<
364 271
365 hBrems: for kaon+ XStype:1 SubType=3 << 272 hPairProd: for kaon+ SubType= 4
366 dE/dx and range tables from 100 eV to 1 << 273 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
367 Lambda tables from threshold to 100 TeV, << 274 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 275 Sampling table 14x1001 from 3.94942 GeV to 10 TeV
368 ===== EM models for the G4Region Defaul 276 ===== EM models for the G4Region DefaultRegionForTheWorld ======
369 hBrem : Emin= 0 eV Emax= 1 << 277 hPairProd : Emin= 0 eV Emax= 10 TeV
370 278
371 hPairProd: for kaon+ XStype:1 SubType=4 << 279 CoulombScat: for kaon+ SubType= 1
372 dE/dx and range tables from 100 eV to 1 << 280 Lambda table from 100 eV to 10 TeV in 42 bins, spline: 1
373 Lambda tables from threshold to 100 TeV, << 281 180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
374 Sampling table 18x1001 from 3.94942 GeV <<
375 ===== EM models for the G4Region Defaul 282 ===== EM models for the G4Region DefaultRegionForTheWorld ======
376 hPairProd : Emin= 0 eV Emax= 1 << 283 eCoulombScattering : Emin= 0 eV Emax= 10 TeV
377 284
378 CoulombScat: for kaon+ XStype:1 SubType=1 Bui << 285 msc: for kaon- SubType= 10
379 Lambda table from threshold to 100 TeV, << 286 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
380 ThetaMin(p) < Theta(degree) < 180, pLimi <<
381 ===== EM models for the G4Region Defaul 287 ===== EM models for the G4Region DefaultRegionForTheWorld ======
382 eCoulombScattering : Emin= 0 eV Emax= 1 << 288 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
383 289
384 msc: for kaon- SubType= 10 << 290 hIoni: for kaon- SubType= 2
>> 291 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
>> 292 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 293 finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
385 ===== EM models for the G4Region Defaul 294 ===== EM models for the G4Region DefaultRegionForTheWorld ======
386 WentzelVIUni : Emin= 0 eV Emax= 1 << 295 ICRU73QO : Emin= 0 eV Emax= 1.05231 MeV
387 StepLim=Minimal Rfact=0.2 Gfact=2.5 << 296 BetheBloch : Emin= 1.05231 MeV Emax= 10 TeV
388 297
389 hIoni: for kaon- XStype:3 SubType=2 << 298 hBrems: for kaon- SubType= 3
390 dE/dx and range tables from 100 eV to 1 << 299 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
391 Lambda tables from threshold to 100 TeV, << 300 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
392 StepFunction=(0.2, 0.1 mm), integ: 3, fl <<
393 ===== EM models for the G4Region Defaul 301 ===== EM models for the G4Region DefaultRegionForTheWorld ======
394 ICRU73QO : Emin= 0 eV Emax=1.0 << 302 hBrem : Emin= 0 eV Emax= 10 TeV
395 BetheBloch : Emin=1.05231 MeV Emax= <<
396 303
397 hBrems: for kaon- XStype:1 SubType=3 << 304 hPairProd: for kaon- SubType= 4
398 dE/dx and range tables from 100 eV to 1 << 305 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
399 Lambda tables from threshold to 100 TeV, << 306 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 307 Sampling table 14x1001 from 3.94942 GeV to 10 TeV
400 ===== EM models for the G4Region Defaul 308 ===== EM models for the G4Region DefaultRegionForTheWorld ======
401 hBrem : Emin= 0 eV Emax= 1 << 309 hPairProd : Emin= 0 eV Emax= 10 TeV
402 310
403 hPairProd: for kaon- XStype:1 SubType=4 << 311 msc: for mu+ SubType= 10
404 dE/dx and range tables from 100 eV to 1 << 312 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
405 Lambda tables from threshold to 100 TeV, <<
406 Sampling table 18x1001 from 3.94942 GeV <<
407 ===== EM models for the G4Region Defaul 313 ===== EM models for the G4Region DefaultRegionForTheWorld ======
408 hPairProd : Emin= 0 eV Emax= 1 << 314 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
409 315
410 CoulombScat: for kaon- XStype:1 SubType=1 Bui << 316 muIoni: for mu+ SubType= 2
411 Used Lambda table of kaon+ << 317 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
412 ThetaMin(p) < Theta(degree) < 180, pLimi << 318 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 319 finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
413 ===== EM models for the G4Region Defaul 320 ===== EM models for the G4Region DefaultRegionForTheWorld ======
414 eCoulombScattering : Emin= 0 eV Emax= 1 << 321 Bragg : Emin= 0 eV Emax= 200 keV
>> 322 BetheBloch : Emin= 200 keV Emax= 1 GeV
>> 323 MuBetheBloch : Emin= 1 GeV Emax= 10 TeV
415 324
416 msc: for mu+ SubType= 10 << 325 muBrems: for mu+ SubType= 3
>> 326 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
>> 327 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
417 ===== EM models for the G4Region Defaul 328 ===== EM models for the G4Region DefaultRegionForTheWorld ======
418 WentzelVIUni : Emin= 0 eV Emax= 1 << 329 MuBrem : Emin= 0 eV Emax= 10 TeV
419 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
420 330
421 muIoni: for mu+ XStype:3 SubType=2 << 331 muPairProd: for mu+ SubType= 4
422 dE/dx and range tables from 100 eV to 1 << 332 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
423 Lambda tables from threshold to 100 TeV, << 333 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
424 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 334 Sampling table 17x1001 from 1 GeV to 10 TeV
425 ===== EM models for the G4Region Defaul 335 ===== EM models for the G4Region DefaultRegionForTheWorld ======
426 Bragg : Emin= 0 eV Emax= 2 << 336 muPairProd : Emin= 0 eV Emax= 10 TeV
427 MuBetheBloch : Emin= 200 keV Emax= 1 <<
428 337
429 muBrems: for mu+ XStype:1 SubType=3 << 338 CoulombScat: for mu+ SubType= 1
430 dE/dx and range tables from 100 eV to 1 << 339 Lambda table from 100 eV to 10 TeV in 38 bins, spline: 1
431 Lambda tables from threshold to 100 TeV, << 340 180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
432 ===== EM models for the G4Region Defaul 341 ===== EM models for the G4Region DefaultRegionForTheWorld ======
433 MuBrem : Emin= 0 eV Emax= 1 << 342 eCoulombScattering : Emin= 0 eV Emax= 10 TeV
434 343
435 muPairProd: for mu+ XStype:1 SubType=4 << 344 msc: for mu- SubType= 10
436 dE/dx and range tables from 100 eV to 1 << 345 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
437 Lambda tables from threshold to 100 TeV, <<
438 Sampling table 21x1001 from 0.85 GeV to <<
439 ===== EM models for the G4Region Defaul 346 ===== EM models for the G4Region DefaultRegionForTheWorld ======
440 muPairProd : Emin= 0 eV Emax= 1 << 347 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
441 348
442 CoulombScat: for mu+ XStype:1 SubType=1 Build << 349 muIoni: for mu- SubType= 2
443 Lambda table from threshold to 100 TeV, << 350 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
444 ThetaMin(p) < Theta(degree) < 180, pLimi << 351 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 352 finalRange(mm)= 1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
445 ===== EM models for the G4Region Defaul 353 ===== EM models for the G4Region DefaultRegionForTheWorld ======
446 eCoulombScattering : Emin= 0 eV Emax= 1 << 354 ICRU73QO : Emin= 0 eV Emax= 200 keV
>> 355 BetheBloch : Emin= 200 keV Emax= 1 GeV
>> 356 MuBetheBloch : Emin= 1 GeV Emax= 10 TeV
447 357
448 msc: for mu- SubType= 10 << 358 muBrems: for mu- SubType= 3
>> 359 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
>> 360 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
449 ===== EM models for the G4Region Defaul 361 ===== EM models for the G4Region DefaultRegionForTheWorld ======
450 WentzelVIUni : Emin= 0 eV Emax= 1 << 362 MuBrem : Emin= 0 eV Emax= 10 TeV
451 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
452 363
453 muIoni: for mu- XStype:3 SubType=2 << 364 muPairProd: for mu- SubType= 4
454 dE/dx and range tables from 100 eV to 1 << 365 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
455 Lambda tables from threshold to 100 TeV, << 366 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
456 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 367 Sampling table 17x1001 from 1 GeV to 10 TeV
457 ===== EM models for the G4Region Defaul 368 ===== EM models for the G4Region DefaultRegionForTheWorld ======
458 ICRU73QO : Emin= 0 eV Emax= 2 << 369 muPairProd : Emin= 0 eV Emax= 10 TeV
459 MuBetheBloch : Emin= 200 keV Emax= 1 <<
460 370
461 muBrems: for mu- XStype:1 SubType=3 << 371 CoulombScat: for mu- SubType= 1
462 dE/dx and range tables from 100 eV to 1 << 372 Lambda table from 100 eV to 10 TeV in 38 bins, spline: 1
463 Lambda tables from threshold to 100 TeV, << 373 180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
464 ===== EM models for the G4Region Defaul 374 ===== EM models for the G4Region DefaultRegionForTheWorld ======
465 MuBrem : Emin= 0 eV Emax= 1 << 375 eCoulombScattering : Emin= 0 eV Emax= 10 TeV
466 376
467 muPairProd: for mu- XStype:1 SubType=4 << 377 msc: for pi+ SubType= 10
468 dE/dx and range tables from 100 eV to 1 << 378 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
469 Lambda tables from threshold to 100 TeV, <<
470 Sampling table 21x1001 from 0.85 GeV to <<
471 ===== EM models for the G4Region Defaul 379 ===== EM models for the G4Region DefaultRegionForTheWorld ======
472 muPairProd : Emin= 0 eV Emax= 1 << 380 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
473 381
474 CoulombScat: for mu- XStype:1 SubType=1 Build << 382 hIoni: for pi+ SubType= 2
475 Used Lambda table of mu+ << 383 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
476 ThetaMin(p) < Theta(degree) < 180, pLimi << 384 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 385 finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
477 ===== EM models for the G4Region Defaul 386 ===== EM models for the G4Region DefaultRegionForTheWorld ======
478 eCoulombScattering : Emin= 0 eV Emax= 1 << 387 Bragg : Emin= 0 eV Emax= 297.505 keV
>> 388 BetheBloch : Emin= 297.505 keV Emax= 10 TeV
479 389
480 msc: for pi+ SubType= 10 << 390 hBrems: for pi+ SubType= 3
>> 391 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
>> 392 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
481 ===== EM models for the G4Region Defaul 393 ===== EM models for the G4Region DefaultRegionForTheWorld ======
482 WentzelVIUni : Emin= 0 eV Emax= 1 << 394 hBrem : Emin= 0 eV Emax= 10 TeV
483 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
484 395
485 hIoni: for pi+ XStype:3 SubType=2 << 396 hPairProd: for pi+ SubType= 4
486 dE/dx and range tables from 100 eV to 1 << 397 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
487 Lambda tables from threshold to 100 TeV, << 398 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
488 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 399 Sampling table 16x1001 from 1.11656 GeV to 10 TeV
489 ===== EM models for the G4Region Defaul 400 ===== EM models for the G4Region DefaultRegionForTheWorld ======
490 Bragg : Emin= 0 eV Emax=297 << 401 hPairProd : Emin= 0 eV Emax= 10 TeV
491 BetheBloch : Emin=297.505 keV Emax= <<
492 402
493 hBrems: for pi+ XStype:1 SubType=3 << 403 CoulombScat: for pi+ SubType= 1
494 dE/dx and range tables from 100 eV to 1 << 404 Lambda table from 100 eV to 10 TeV in 39 bins, spline: 1
495 Lambda tables from threshold to 100 TeV, << 405 180 < Theta(degree) < 180 pLimit(GeV^1)= 0.139531
496 ===== EM models for the G4Region Defaul 406 ===== EM models for the G4Region DefaultRegionForTheWorld ======
497 hBrem : Emin= 0 eV Emax= 1 << 407 eCoulombScattering : Emin= 0 eV Emax= 10 TeV
498 408
499 hPairProd: for pi+ XStype:1 SubType=4 << 409 msc: for pi- SubType= 10
500 dE/dx and range tables from 100 eV to 1 << 410 RangeFactor= 0.2, step limit type: 0, lateralDisplacement: 1, polarAngleLimit(deg)= 180
501 Lambda tables from threshold to 100 TeV, <<
502 Sampling table 20x1001 from 1.11656 GeV <<
503 ===== EM models for the G4Region Defaul 411 ===== EM models for the G4Region DefaultRegionForTheWorld ======
504 hPairProd : Emin= 0 eV Emax= 1 << 412 WentzelVIUni : Emin= 0 eV Emax= 10 TeV Table with 77 bins Emin= 100 eV Emax= 10 TeV
505 413
506 CoulombScat: for pi+ XStype:1 SubType=1 Build << 414 hIoni: for pi- SubType= 2
507 Lambda table from threshold to 100 TeV, << 415 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
508 ThetaMin(p) < Theta(degree) < 180, pLimi << 416 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
>> 417 finalRange(mm)= 0.1, dRoverRange= 0.2, integral: 1, fluct: 1, linLossLimit= 0.01
509 ===== EM models for the G4Region Defaul 418 ===== EM models for the G4Region DefaultRegionForTheWorld ======
510 eCoulombScattering : Emin= 0 eV Emax= 1 << 419 ICRU73QO : Emin= 0 eV Emax= 297.505 keV
>> 420 BetheBloch : Emin= 297.505 keV Emax= 10 TeV
511 421
512 msc: for pi- SubType= 10 << 422 hBrems: for pi- SubType= 3
>> 423 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
>> 424 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
513 ===== EM models for the G4Region Defaul 425 ===== EM models for the G4Region DefaultRegionForTheWorld ======
514 WentzelVIUni : Emin= 0 eV Emax= 1 << 426 hBrem : Emin= 0 eV Emax= 10 TeV
515 StepLim=Minimal Rfact=0.2 Gfact=2.5 <<
516 427
517 hIoni: for pi- XStype:3 SubType=2 << 428 hPairProd: for pi- SubType= 4
518 dE/dx and range tables from 100 eV to 1 << 429 dE/dx and range tables from 100 eV to 10 TeV in 77 bins
519 Lambda tables from threshold to 100 TeV, << 430 Lambda tables from threshold to 10 TeV in 77 bins, spline: 1
520 StepFunction=(0.2, 0.1 mm), integ: 3, fl << 431 Sampling table 16x1001 from 1.11656 GeV to 10 TeV
521 ===== EM models for the G4Region Defaul 432 ===== EM models for the G4Region DefaultRegionForTheWorld ======
522 ICRU73QO : Emin= 0 eV Emax=297 << 433 hPairProd : Emin= 0 eV Emax= 10 TeV
523 BetheBloch : Emin=297.505 keV Emax= <<
524 <<
525 hBrems: for pi- XStype:1 SubType=3 <<
526 dE/dx and range tables from 100 eV to 1 <<
527 Lambda tables from threshold to 100 TeV, <<
528 ===== EM models for the G4Region Defaul <<
529 hBrem : Emin= 0 eV Emax= 1 <<
530 <<
531 hPairProd: for pi- XStype:1 SubType=4 <<
532 dE/dx and range tables from 100 eV to 1 <<
533 Lambda tables from threshold to 100 TeV, <<
534 Sampling table 20x1001 from 1.11656 GeV <<
535 ===== EM models for the G4Region Defaul <<
536 hPairProd : Emin= 0 eV Emax= 1 <<
537 <<
538 CoulombScat: for pi- XStype:1 SubType=1 Build <<
539 Used Lambda table of pi+ <<
540 ThetaMin(p) < Theta(degree) < 180, pLimi <<
541 ===== EM models for the G4Region Defaul <<
542 eCoulombScattering : Emin= 0 eV Emax= 1 <<
543 434
544 ============================================== 435 ====================================================================
545 HADRONIC PROCESSES SUMMARY ( 436 HADRONIC PROCESSES SUMMARY (verbose level 1)
546 ---------------------------------------------- << 437
547 Hadronic Processes << 438 ---------------------------------------------------
548 Process: hadElastic <<
549 Model: hElasticCHIPS: 0 eV <<
550 Cr_sctns: G4NeutronElasticXS: 0 eV <<
551 Process: neutronInelastic <<
552 Model: FTFP: 3 Ge <<
553 Model: BertiniCascade: 0 eV <<
554 Cr_sctns: G4NeutronInelasticXS: 0 eV <<
555 Process: nCapture <<
556 Model: nRadCapture: 0 eV <<
557 Cr_sctns: G4NeutronCaptureXS: 0 eV <<
558 Process: nKiller <<
559 ---------------------------------------------- <<
560 Hadronic Processes <<
561 Process: hadElastic <<
562 Model: hElasticLHEP: 0 eV <<
563 Cr_sctns: Glauber-Gribov: 0 eV <<
564 Process: B-Inelastic <<
565 Model: FTFP: 0 eV <<
566 Cr_sctns: Glauber-Gribov: 0 eV <<
567 ---------------------------------------------- <<
568 Hadronic Processes <<
569 Process: hadElastic <<
570 Model: hElasticLHEP: 0 eV <<
571 Cr_sctns: Glauber-Gribov: 0 eV <<
572 Process: D-Inelastic <<
573 Model: FTFP: 0 eV <<
574 Cr_sctns: Glauber-Gribov: 0 eV <<
575 ---------------------------------------------- <<
576 Hadronic Processes 439 Hadronic Processes for GenericIon
>> 440
577 Process: ionInelastic 441 Process: ionInelastic
578 Model: Binary Light Ion Cascade: 0 eV << 442 Model: Binary Light Ion Cascade: 0 eV ---> 4 GeV
579 Model: FTFP: 3 Ge << 443 Model: FTFP: 2 GeV ---> 100 TeV
580 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV << 444 Cr_sctns: Glauber-Gribov nucleus nucleus: 0 eV ---> 2.88022e+295 J
581 ---------------------------------------------- << 445 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
582 Hadronic Processes << 446
583 Process: hadElastic << 447 ---------------------------------------------------
584 Model: hElasticLHEP: 0 eV <<
585 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
586 Process: He3Inelastic <<
587 Model: Binary Light Ion Cascade: 0 eV <<
588 Model: FTFP: 3 Ge <<
589 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
590 ---------------------------------------------- <<
591 Hadronic Processes <<
592 Process: hadElastic <<
593 Model: hElasticLHEP: 0 eV <<
594 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
595 Process: alphaInelastic <<
596 Model: Binary Light Ion Cascade: 0 eV <<
597 Model: FTFP: 3 Ge <<
598 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
599 ---------------------------------------------- <<
600 Hadronic Processes <<
601 Process: hadElastic <<
602 Model: hElasticLHEP: 0 eV <<
603 Model: AntiAElastic: 100 <<
604 Cr_sctns: AntiAGlauber: 0 eV <<
605 Process: anti_He3Inelastic <<
606 Model: FTFP: 0 eV <<
607 Cr_sctns: AntiAGlauber: 0 eV <<
608 Process: hFritiofCaptureAtRest <<
609 ---------------------------------------------- <<
610 Hadronic Processes <<
611 Process: hadElastic <<
612 Model: hElasticLHEP: 0 eV <<
613 Model: AntiAElastic: 100 <<
614 Cr_sctns: AntiAGlauber: 0 eV <<
615 Process: anti_alphaInelastic <<
616 Model: FTFP: 0 eV <<
617 Cr_sctns: AntiAGlauber: 0 eV <<
618 Process: hFritiofCaptureAtRest <<
619 ---------------------------------------------- <<
620 Hadronic Processes <<
621 Process: hadElastic <<
622 Model: hElasticLHEP: 0 eV <<
623 Model: AntiAElastic: 100 <<
624 Cr_sctns: AntiAGlauber: 0 eV <<
625 Process: anti_deuteronInelastic <<
626 Model: FTFP: 0 eV <<
627 Cr_sctns: AntiAGlauber: 0 eV <<
628 Process: hFritiofCaptureAtRest <<
629 ---------------------------------------------- <<
630 Hadronic Processes <<
631 Process: hFritiofCaptureAtRest <<
632 ---------------------------------------------- <<
633 Hadronic Processes <<
634 Process: hadElastic <<
635 Model: hElasticLHEP: 0 eV <<
636 Cr_sctns: Glauber-Gribov: 0 eV <<
637 Process: anti_lambdaInelastic <<
638 Model: FTFP: 0 eV <<
639 Cr_sctns: Glauber-Gribov: 0 eV <<
640 Process: hFritiofCaptureAtRest <<
641 ---------------------------------------------- <<
642 Hadronic Processes 448 Hadronic Processes for anti_neutron
>> 449
643 Process: hadElastic 450 Process: hadElastic
644 Model: hElasticLHEP: 0 eV << 451 Model: hElasticLHEP: 0 eV ---> 100 TeV
645 Model: AntiAElastic: 100 << 452 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
646 Cr_sctns: AntiAGlauber: 0 eV << 453
647 Process: anti_neutronInelastic 454 Process: anti_neutronInelastic
648 Model: FTFP: 0 eV 455 Model: FTFP: 0 eV ---> 100 TeV
649 Cr_sctns: AntiAGlauber: 0 eV << 456 Cr_sctns: AntiAGlauber: 0 eV ---> 2.88022e+295 J
650 Process: hFritiofCaptureAtRest << 457 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
651 ---------------------------------------------- << 458
>> 459 ---------------------------------------------------
652 Hadronic Processes 460 Hadronic Processes for anti_proton
>> 461
653 Process: hadElastic 462 Process: hadElastic
654 Model: hElasticLHEP: 0 eV 463 Model: hElasticLHEP: 0 eV ---> 100.1 MeV
655 Model: AntiAElastic: 100 464 Model: AntiAElastic: 100 MeV ---> 100 TeV
656 Cr_sctns: AntiAGlauber: 0 eV << 465 Cr_sctns: AntiAGlauber: 0 eV ---> 2.88022e+295 J
>> 466 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 467
657 Process: anti_protonInelastic 468 Process: anti_protonInelastic
658 Model: FTFP: 0 eV 469 Model: FTFP: 0 eV ---> 100 TeV
659 Cr_sctns: AntiAGlauber: 0 eV << 470 Cr_sctns: AntiAGlauber: 0 eV ---> 2.88022e+295 J
660 Process: hFritiofCaptureAtRest << 471 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
661 ---------------------------------------------- << 472
662 Hadronic Processes <<
663 Process: hadElastic <<
664 Model: hElasticLHEP: 0 eV <<
665 Model: AntiAElastic: 100 <<
666 Cr_sctns: AntiAGlauber: 0 eV <<
667 Process: anti_tritonInelastic <<
668 Model: FTFP: 0 eV <<
669 Cr_sctns: AntiAGlauber: 0 eV <<
670 Process: hFritiofCaptureAtRest 473 Process: hFritiofCaptureAtRest
671 ---------------------------------------------- << 474
672 Hadronic Processes << 475 ---------------------------------------------------
673 Process: hadElastic <<
674 Model: hElasticLHEP: 0 eV <<
675 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
676 Process: dInelastic <<
677 Model: Binary Light Ion Cascade: 0 eV <<
678 Model: FTFP: 3 Ge <<
679 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
680 ---------------------------------------------- <<
681 Hadronic Processes 476 Hadronic Processes for e+
>> 477
682 Process: positronNuclear 478 Process: positronNuclear
683 Model: G4ElectroVDNuclearModel: 0 eV 479 Model: G4ElectroVDNuclearModel: 0 eV ---> 1 PeV
684 Cr_sctns: ElectroNuclearXS: 0 eV 480 Cr_sctns: ElectroNuclearXS: 0 eV ---> 100 TeV
685 ---------------------------------------------- << 481 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 482
>> 483 ---------------------------------------------------
686 Hadronic Processes 484 Hadronic Processes for e-
>> 485
687 Process: electronNuclear 486 Process: electronNuclear
688 Model: G4ElectroVDNuclearModel: 0 eV 487 Model: G4ElectroVDNuclearModel: 0 eV ---> 1 PeV
689 Cr_sctns: ElectroNuclearXS: 0 eV 488 Cr_sctns: ElectroNuclearXS: 0 eV ---> 100 TeV
690 ---------------------------------------------- << 489 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 490
>> 491 ---------------------------------------------------
691 Hadronic Processes 492 Hadronic Processes for gamma
>> 493
692 Process: photonNuclear 494 Process: photonNuclear
693 Model: GammaNPreco: 0 eV << 495 Model: BertiniCascade: 0 eV ---> 3.5 GeV
694 Model: BertiniCascade: 199 <<
695 Model: TheoFSGenerator: 3 Ge 496 Model: TheoFSGenerator: 3 GeV ---> 100 TeV
696 Cr_sctns: GammaNuclearXS: 0 eV << 497 Cr_sctns: PhotoNuclearXS: 0 eV ---> 100 TeV
697 ---------------------------------------------- << 498 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 499
>> 500 ---------------------------------------------------
698 Hadronic Processes 501 Hadronic Processes for kaon+
>> 502
699 Process: hadElastic 503 Process: hadElastic
700 Model: hElasticLHEP: 0 eV 504 Model: hElasticLHEP: 0 eV ---> 100 TeV
701 Cr_sctns: Glauber-Gribov: 0 eV << 505 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 506
702 Process: kaon+Inelastic 507 Process: kaon+Inelastic
703 Model: FTFP: 3 Ge << 508 Model: FTFP: 4 GeV ---> 100 TeV
704 Model: BertiniCascade: 0 eV << 509 Model: BertiniCascade: 0 eV ---> 5 GeV
705 Cr_sctns: Glauber-Gribov: 0 eV << 510 Cr_sctns: ChipsKaonPlusInelasticXS: 0 eV ---> 100 TeV
706 ---------------------------------------------- << 511 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 512
>> 513 ---------------------------------------------------
707 Hadronic Processes 514 Hadronic Processes for kaon-
>> 515
708 Process: hadElastic 516 Process: hadElastic
709 Model: hElasticLHEP: 0 eV 517 Model: hElasticLHEP: 0 eV ---> 100 TeV
710 Cr_sctns: Glauber-Gribov: 0 eV << 518 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 519
711 Process: kaon-Inelastic 520 Process: kaon-Inelastic
712 Model: FTFP: 3 Ge << 521 Model: FTFP: 4 GeV ---> 100 TeV
713 Model: BertiniCascade: 0 eV << 522 Model: BertiniCascade: 0 eV ---> 5 GeV
714 Cr_sctns: Glauber-Gribov: 0 eV << 523 Cr_sctns: ChipsKaonMinusInelasticXS: 0 eV ---> 100 TeV
>> 524 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 525
715 Process: hBertiniCaptureAtRest 526 Process: hBertiniCaptureAtRest
716 ---------------------------------------------- << 527
>> 528 ---------------------------------------------------
717 Hadronic Processes 529 Hadronic Processes for lambda
>> 530
718 Process: hadElastic 531 Process: hadElastic
719 Model: hElasticLHEP: 0 eV 532 Model: hElasticLHEP: 0 eV ---> 100 TeV
720 Cr_sctns: Glauber-Gribov: 0 eV << 533 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 534
721 Process: lambdaInelastic 535 Process: lambdaInelastic
722 Model: FTFP: 3 Ge <<
723 Model: BertiniCascade: 0 eV 536 Model: BertiniCascade: 0 eV ---> 6 GeV
724 Cr_sctns: Glauber-Gribov: 0 eV << 537 Model: FTFP: 2 GeV ---> 100 TeV
725 ---------------------------------------------- << 538 Cr_sctns: ChipsHyperonInelasticXS: 0 eV ---> 100 TeV
726 Hadronic Processes << 539 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
727 Process: muonNuclear << 540
728 Model: G4MuonVDNuclearModel: 0 eV << 541 ---------------------------------------------------
729 Cr_sctns: KokoulinMuonNuclearXS: 0 eV <<
730 ---------------------------------------------- <<
731 Hadronic Processes 542 Hadronic Processes for mu-
732 Process: muonNuclear << 543
733 Model: G4MuonVDNuclearModel: 0 eV <<
734 Cr_sctns: KokoulinMuonNuclearXS: 0 eV <<
735 Process: muMinusCaptureAtRest 544 Process: muMinusCaptureAtRest
736 ---------------------------------------------- << 545
>> 546 ---------------------------------------------------
>> 547 Hadronic Processes for neutron
>> 548
>> 549 Process: hadElastic
>> 550 Model: hElasticCHIPS: 0 eV ---> 100 TeV
>> 551 Cr_sctns: ChipsNeutronElasticXS: 0 eV ---> 100 TeV
>> 552 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 553
>> 554 Process: neutronInelastic
>> 555 Model: FTFP: 4 GeV ---> 100 TeV
>> 556 Model: BertiniCascade: 0 eV ---> 5 GeV
>> 557 Cr_sctns: G4NeutronInelasticXS: 0 eV ---> 100 TeV
>> 558 Cr_sctns: Barashenkov-Glauber: 0 eV ---> 100 TeV
>> 559 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 560
>> 561 Process: nCapture
>> 562 Model: nRadCapture: 0 eV ---> 100 TeV
>> 563 Cr_sctns: G4NeutronCaptureXS: 0 eV ---> 100 TeV
>> 564 Cr_sctns: GheishaCaptureXS: 0 eV ---> 100 TeV
>> 565
>> 566 ---------------------------------------------------
737 Hadronic Processes 567 Hadronic Processes for pi+
>> 568
738 Process: hadElastic 569 Process: hadElastic
739 Model: hElasticGlauber: 0 eV << 570 Model: hElasticLHEP: 0 eV ---> 1.0001 GeV
740 Cr_sctns: BarashenkovGlauberGribov: 0 eV << 571 Model: hElasticGlauber: 1 GeV ---> 100 TeV
>> 572 Cr_sctns: Barashenkov-Glauber: 0 eV ---> 100 TeV
>> 573 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 574
741 Process: pi+Inelastic 575 Process: pi+Inelastic
742 Model: FTFP: 3 Ge << 576 Model: FTFP: 4 GeV ---> 100 TeV
743 Model: BertiniCascade: 0 eV << 577 Model: BertiniCascade: 0 eV ---> 5 GeV
744 Cr_sctns: BarashenkovGlauberGribov: 0 eV << 578 Cr_sctns: G4CrossSectionPairGG: 0 eV ---> 100 TeV
745 ---------------------------------------------- << 579 G4CrossSectionPairGG: G4PiNuclearCrossSection cross sections
>> 580 below 91 GeV, Glauber-Gribov above
>> 581 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 582
>> 583 ---------------------------------------------------
746 Hadronic Processes 584 Hadronic Processes for pi-
>> 585
747 Process: hadElastic 586 Process: hadElastic
748 Model: hElasticGlauber: 0 eV << 587 Model: hElasticLHEP: 0 eV ---> 1.0001 GeV
749 Cr_sctns: BarashenkovGlauberGribov: 0 eV << 588 Model: hElasticGlauber: 1 GeV ---> 100 TeV
>> 589 Cr_sctns: Barashenkov-Glauber: 0 eV ---> 100 TeV
>> 590 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 591
750 Process: pi-Inelastic 592 Process: pi-Inelastic
751 Model: FTFP: 3 Ge << 593 Model: FTFP: 4 GeV ---> 100 TeV
752 Model: BertiniCascade: 0 eV << 594 Model: BertiniCascade: 0 eV ---> 5 GeV
753 Cr_sctns: BarashenkovGlauberGribov: 0 eV << 595 Cr_sctns: G4CrossSectionPairGG: 0 eV ---> 100 TeV
>> 596 G4CrossSectionPairGG: G4PiNuclearCrossSection cross sections
>> 597 below 91 GeV, Glauber-Gribov above
>> 598 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
>> 599
754 Process: hBertiniCaptureAtRest 600 Process: hBertiniCaptureAtRest
755 ---------------------------------------------- << 601
>> 602 ---------------------------------------------------
756 Hadronic Processes 603 Hadronic Processes for proton
>> 604
757 Process: hadElastic 605 Process: hadElastic
758 Model: hElasticCHIPS: 0 eV 606 Model: hElasticCHIPS: 0 eV ---> 100 TeV
759 Cr_sctns: BarashenkovGlauberGribov: 0 eV << 607 Cr_sctns: ChipsProtonElasticXS: 0 eV ---> 100 TeV
>> 608 Cr_sctns: GheishaElastic: 0 eV ---> 100 TeV
>> 609
760 Process: protonInelastic 610 Process: protonInelastic
761 Model: FTFP: 3 Ge << 611 Model: FTFP: 4 GeV ---> 100 TeV
762 Model: BertiniCascade: 0 eV << 612 Model: BertiniCascade: 0 eV ---> 5 GeV
763 Cr_sctns: BarashenkovGlauberGribov: 0 eV << 613 Cr_sctns: Barashenkov-Glauber: 0 eV ---> 100 TeV
764 ---------------------------------------------- << 614 Cr_sctns: GheishaInelastic: 0 eV ---> 100 TeV
765 Hadronic Processes << 615
766 Process: hadElastic << 616 ================================================================
767 Model: hElasticLHEP: 0 eV <<
768 Cr_sctns: Glauber-Gribov: 0 eV <<
769 Process: sigma-Inelastic <<
770 Model: FTFP: 3 Ge <<
771 Model: BertiniCascade: 0 eV <<
772 Cr_sctns: Glauber-Gribov: 0 eV <<
773 Process: hBertiniCaptureAtRest <<
774 ---------------------------------------------- <<
775 Hadronic Processes <<
776 Process: hadElastic <<
777 Model: hElasticLHEP: 0 eV <<
778 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
779 Process: tInelastic <<
780 Model: Binary Light Ion Cascade: 0 eV <<
781 Model: FTFP: 3 Ge <<
782 Cr_sctns: Glauber-Gribov Nucl-nucl: 0 eV <<
783 ============================================== <<
784 ====== Geant4 Native Pre-compound Model <<
785 ============================================== <<
786 Type of pre-compound inverse x-section <<
787 Pre-compound model active <<
788 Pre-compound excitation low energy <<
789 Pre-compound excitation high energy <<
790 Angular generator for pre-compound model <<
791 Use NeverGoBack option for pre-compound model <<
792 Use SoftCutOff option for pre-compound model <<
793 Use CEM transitions for pre-compound model <<
794 Use GNASH transitions for pre-compound model <<
795 Use HETC submodel for pre-compound model <<
796 ============================================== <<
797 ====== Nuclear De-excitation Module Para <<
798 ============================================== <<
799 Type of de-excitation inverse x-section <<
800 Type of de-excitation factory <<
801 Number of de-excitation channels <<
802 Min excitation energy <<
803 Min energy per nucleon for multifragmentation <<
804 Limit excitation energy for Fermi BreakUp <<
805 Level density (1/MeV) <<
806 Use simple level density model <<
807 Use discrete excitation energy of the residual <<
808 Time limit for long lived isomeres <<
809 Isomer production flag <<
810 Internal e- conversion flag <<
811 Store e- internal conversion data <<
812 Correlated gamma emission flag <<
813 Max 2J for sampling of angular correlations <<
814 ============================================== <<
815 ++ ConcreteSD/Collisions id 0 617 ++ ConcreteSD/Collisions id 0
816 ++ ConcreteSD/CollWeight id 1 618 ++ ConcreteSD/CollWeight id 1
817 ++ ConcreteSD/Population id 2 619 ++ ConcreteSD/Population id 2
818 ++ ConcreteSD/TrackEnter id 3 620 ++ ConcreteSD/TrackEnter id 3
819 ++ ConcreteSD/SL id 4 621 ++ ConcreteSD/SL id 4
820 ++ ConcreteSD/SLW id 5 622 ++ ConcreteSD/SLW id 5
821 ++ ConcreteSD/SLWE id 6 623 ++ ConcreteSD/SLWE id 6
822 ++ ConcreteSD/SLW_V id 7 624 ++ ConcreteSD/SLW_V id 7
823 ++ ConcreteSD/SLWE_V id 8 625 ++ ConcreteSD/SLWE_V id 8
824 ### Run 0 start. 626 ### Run 0 start.
825 ###### EndOfRunAction 627 ###### EndOfRunAction
826 628
827 --------------------End of Global Run--------- 629 --------------------End of Global Run-----------------------
828 Number of event processed : 100 630 Number of event processed : 100
829 ============================================== 631 =============================================================
830 ============================================== 632 =============================================================
831 Volume | Tr.Entering | Population 633 Volume | Tr.Entering | Population | Collisions | Coll*WGT | NumWGTedE | FluxWGTedE | Av.Tr.WGT | SL | SLW | SLW_v | SLWE | SLWE_v |
832 cell_00 | 32 | 127 << 634 cell_00 | 57 | 151 | 57 | 57 | 0.0557815 | 1.28621 | 1 | 10212.4 | 10212.4 | 11724 | 13135.3 | 653.98 |
833 cell_01 | 139 | 179 << 635 cell_01 | 175 | 206 | 726 | 726 | 0.04981 | 3.70115 | 1 | 30544.3 | 30544.3 | 65249.2 | 113049 | 3250.06 |
834 cell_02 | 174 | 270 << 636 cell_02 | 234 | 326 | 2003 | 1001.5 | 0.0164092 | 2.16748 | 0.5 | 67855.9 | 33928 | 145419 | 73538.2 | 2386.2 |
835 cell_03 | 229 | 334 << 637 cell_03 | 306 | 442 | 2954 | 738.5 | 0.00823257 | 1.67555 | 0.25 | 93427.7 | 23356.9 | 165041 | 39135.7 | 1358.71 |
836 cell_04 | 254 | 381 << 638 cell_04 | 398 | 528 | 3983 | 497.875 | 0.00646293 | 1.10785 | 0.125 | 113501 | 14187.6 | 93644.4 | 15717.8 | 605.217 |
837 cell_05 | 291 | 420 << 639 cell_05 | 461 | 591 | 4802 | 300.125 | 0.00431153 | 0.900214 | 0.0625 | 130133 | 8133.31 | 66001 | 7321.72 | 284.566 |
838 cell_06 | 327 | 472 << 640 cell_06 | 461 | 603 | 4402 | 137.562 | 0.0041202 | 0.863442 | 0.03125 | 123425 | 3857.04 | 33087 | 3330.33 | 136.325 |
839 cell_07 | 296 | 437 << 641 cell_07 | 465 | 625 | 4922 | 76.9062 | 0.00444681 | 0.835971 | 0.015625 | 135190 | 2112.35 | 16460.7 | 1765.86 | 73.1976 |
840 cell_08 | 262 | 372 << 642 cell_08 | 476 | 620 | 5136 | 40.125 | 0.00387649 | 0.816473 | 0.0078125 | 139245 | 1087.85 | 9725.62 | 888.2 | 37.7012 |
841 cell_09 | 260 | 356 << 643 cell_09 | 478 | 599 | 5263 | 20.5586 | 0.00254585 | 0.568365 | 0.00390625 | 137251 | 536.136 | 5405.54 | 304.721 | 13.7617 |
842 cell_10 | 229 | 331 << 644 cell_10 | 416 | 542 | 4581 | 8.94727 | 0.00232876 | 0.530196 | 0.00195312 | 122010 | 238.3 | 2502.56 | 126.346 | 5.82787 |
843 cell_11 | 186 | 270 << 645 cell_11 | 336 | 446 | 3472 | 3.39062 | 0.00290695 | 0.591106 | 0.000976562 | 93972.6 | 91.7701 | 836.286 | 54.2459 | 2.43104 |
844 cell_12 | 154 | 220 << 646 cell_12 | 296 | 400 | 2939 | 1.43506 | 0.00219588 | 0.586943 | 0.000488281 | 78813.6 | 38.4832 | 432.064 | 22.5875 | 0.948758 |
845 cell_13 | 123 | 185 << 647 cell_13 | 248 | 327 | 2654 | 0.647949 | 0.00328388 | 0.753011 | 0.000244141 | 70075.6 | 17.1083 | 153.841 | 12.8827 | 0.505194 |
846 cell_14 | 109 | 157 << 648 cell_14 | 199 | 275 | 2216 | 0.270508 | 0.002131 | 0.645366 | 0.00012207 | 58480.4 | 7.13872 | 90.5171 | 4.60708 | 0.192891 |
847 cell_15 | 79 | 112 << 649 cell_15 | 144 | 190 | 1338 | 0.081665 | 0.00296398 | 0.673788 | 6.10352e-05 | 36294 | 2.21521 | 23.0825 | 1.49258 | 0.0684163 |
848 cell_16 | 68 | 99 << 650 cell_16 | 136 | 168 | 1364 | 0.041626 | 0.00421852 | 0.619761 | 3.05176e-05 | 36828 | 1.1239 | 8.45204 | 0.696551 | 0.0356551 |
849 cell_17 | 53 | 82 << 651 cell_17 | 113 | 145 | 1180 | 0.0180054 | 0.00333747 | 0.617534 | 1.52588e-05 | 31259.8 | 0.476987 | 4.16493 | 0.294556 | 0.0139003 |
850 cell_18 | 32 | 57 << 652 cell_18 | 59 | 104 | 843 | 0.00643158 | 0.00406953 | 0.747177 | 7.62939e-06 | 23060.8 | 0.17594 | 1.42856 | 0.131458 | 0.00581357 |
851 cell_19 | 25 | 25 << 653 cell_19 | 32 | 32 | 32 | 0.000244141 | 0.00607446 | 0.96005 | 7.62939e-06 | 5562.87 | 0.0424413 | 0.275832 | 0.0407458 | 0.00167553 |
852 ============================================= 654 =============================================
>> 655 === G4ProcessPlacer::RemoveProcess: for: neutron
>> 656 ProcessName: ImportanceProcess, will be removed!
>> 657 The initial AlongStep Vectors:
>> 658 GPIL Vector:
>> 659 ImportanceProcess
>> 660 Transportation
>> 661 DoIt Vector:
>> 662 Transportation
>> 663 ImportanceProcess
>> 664 The initial PostStep Vectors:
>> 665 GPIL Vector:
>> 666 nKiller
>> 667 nCapture
>> 668 neutronInelastic
>> 669 hadElastic
>> 670 Decay
>> 671 ImportanceProcess
>> 672 Transportation
>> 673 DoIt Vector:
>> 674 Transportation
>> 675 ImportanceProcess
>> 676 Decay
>> 677 hadElastic
>> 678 neutronInelastic
>> 679 nCapture
>> 680 nKiller
>> 681 The final AlongStep Vectors:
>> 682 GPIL Vector:
>> 683 Transportation
>> 684 DoIt Vector:
>> 685 Transportation
>> 686 The final PostStep Vectors:
>> 687 GPIL Vector:
>> 688 nKiller
>> 689 nCapture
>> 690 neutronInelastic
>> 691 hadElastic
>> 692 Decay
>> 693 Transportation
>> 694 DoIt Vector:
>> 695 Transportation
>> 696 Decay
>> 697 hadElastic
>> 698 neutronInelastic
>> 699 nCapture
>> 700 nKiller
>> 701 ================================================