Geant4 9.6.0
Toolkit for the simulation of the passage of particles through matter
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G4EmLivermorePolarizedPhysics.cc
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25//
26// $Id$
27
28#include "G4EmLivermorePolarizedPhysics.hh"
29#include "G4ParticleDefinition.hh"
30#include "G4SystemOfUnits.hh"
31
32// *** Processes and models
33
34// gamma
35#include "G4PhotoElectricEffect.hh"
36#include "G4LivermorePolarizedPhotoElectricModel.hh"
37
38#include "G4ComptonScattering.hh"
39#include "G4LivermorePolarizedComptonModel.hh"
40
41#include "G4GammaConversion.hh"
42#include "G4LivermorePolarizedGammaConversionModel.hh"
43
44#include "G4RayleighScattering.hh"
45#include "G4LivermorePolarizedRayleighModel.hh"
46
47// e+-
48#include "G4eMultipleScattering.hh"
49#include "G4UniversalFluctuation.hh"
50
51#include "G4eIonisation.hh"
52#include "G4LivermoreIonisationModel.hh"
53
54#include "G4eBremsstrahlung.hh"
55#include "G4LivermoreBremsstrahlungModel.hh"
56
57// e+
58#include "G4eplusAnnihilation.hh"
59
60// mu+-
61#include "G4MuMultipleScattering.hh"
62#include "G4MuIonisation.hh"
63#include "G4MuBremsstrahlung.hh"
64#include "G4MuPairProduction.hh"
65
66#include "G4MuBremsstrahlungModel.hh"
67#include "G4MuPairProductionModel.hh"
68#include "G4hBremsstrahlungModel.hh"
69#include "G4hPairProductionModel.hh"
70
71// hadrons
72#include "G4hMultipleScattering.hh"
73#include "G4MscStepLimitType.hh"
74
75#include "G4hBremsstrahlung.hh"
76#include "G4hPairProduction.hh"
77
78#include "G4hIonisation.hh"
79#include "G4ionIonisation.hh"
80#include "G4alphaIonisation.hh"
81#include "G4IonParametrisedLossModel.hh"
82#include "G4NuclearStopping.hh"
83
84// msc models
85#include "G4UrbanMscModel95.hh"
86#include "G4WentzelVIModel.hh"
87#include "G4GoudsmitSaundersonMscModel.hh"
88#include "G4CoulombScattering.hh"
89#include "G4eCoulombScatteringModel.hh"
90
91// interfaces
92#include "G4LossTableManager.hh"
93#include "G4EmProcessOptions.hh"
94#include "G4UAtomicDeexcitation.hh"
95
96// particles
97#include "G4Gamma.hh"
98#include "G4Electron.hh"
99#include "G4Positron.hh"
100#include "G4MuonPlus.hh"
101#include "G4MuonMinus.hh"
102#include "G4PionPlus.hh"
103#include "G4PionMinus.hh"
104#include "G4KaonPlus.hh"
105#include "G4KaonMinus.hh"
106#include "G4Proton.hh"
107#include "G4AntiProton.hh"
108#include "G4Deuteron.hh"
109#include "G4Triton.hh"
110#include "G4He3.hh"
111#include "G4Alpha.hh"
112#include "G4GenericIon.hh"
113
114//
115#include "G4PhysicsListHelper.hh"
116#include "G4BuilderType.hh"
117
118// factory
119#include "G4PhysicsConstructorFactory.hh"
120//
121G4_DECLARE_PHYSCONSTR_FACTORY(G4EmLivermorePolarizedPhysics);
122
123
124//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
125
126G4EmLivermorePolarizedPhysics::G4EmLivermorePolarizedPhysics(G4int ver)
127 : G4VPhysicsConstructor("G4EmLivermorePolarizedPhysics"), verbose(ver)
128{
129 G4LossTableManager::Instance();
130 SetPhysicsType(bElectromagnetic);
131}
132
133//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
134
135G4EmLivermorePolarizedPhysics::G4EmLivermorePolarizedPhysics(G4int ver, const G4String&)
136 : G4VPhysicsConstructor("G4EmLivermorePolarizedPhysics"), verbose(ver)
137{
138 G4LossTableManager::Instance();
139 SetPhysicsType(bElectromagnetic);
140}
141
142//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
143
144G4EmLivermorePolarizedPhysics::~G4EmLivermorePolarizedPhysics()
145{}
146
147//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
148
149void G4EmLivermorePolarizedPhysics::ConstructParticle()
150{
151// gamma
152 G4Gamma::Gamma();
153
154// leptons
155 G4Electron::Electron();
156 G4Positron::Positron();
157 G4MuonPlus::MuonPlus();
158 G4MuonMinus::MuonMinus();
159
160// mesons
161 G4PionPlus::PionPlusDefinition();
162 G4PionMinus::PionMinusDefinition();
163 G4KaonPlus::KaonPlusDefinition();
164 G4KaonMinus::KaonMinusDefinition();
165
166// baryons
167 G4Proton::Proton();
168 G4AntiProton::AntiProton();
169
170// ions
171 G4Deuteron::Deuteron();
172 G4Triton::Triton();
173 G4He3::He3();
174 G4Alpha::Alpha();
175 G4GenericIon::GenericIonDefinition();
176}
177
178//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
179
180void G4EmLivermorePolarizedPhysics::ConstructProcess()
181{
182 G4PhysicsListHelper* ph = G4PhysicsListHelper::GetPhysicsListHelper();
183
184 // muon & hadron bremsstrahlung and pair production
185 G4MuBremsstrahlung* mub = new G4MuBremsstrahlung();
186 G4MuPairProduction* mup = new G4MuPairProduction();
187 G4hBremsstrahlung* pib = new G4hBremsstrahlung();
188 G4hPairProduction* pip = new G4hPairProduction();
189 G4hBremsstrahlung* kb = new G4hBremsstrahlung();
190 G4hPairProduction* kp = new G4hPairProduction();
191 G4hBremsstrahlung* pb = new G4hBremsstrahlung();
192 G4hPairProduction* pp = new G4hPairProduction();
193
194 // muon & hadron multiple scattering
195 G4MuMultipleScattering* mumsc = new G4MuMultipleScattering();
196 mumsc->AddEmModel(0, new G4WentzelVIModel());
197 G4MuMultipleScattering* pimsc = new G4MuMultipleScattering();
198 pimsc->AddEmModel(0, new G4WentzelVIModel());
199 G4MuMultipleScattering* kmsc = new G4MuMultipleScattering();
200 kmsc->AddEmModel(0, new G4WentzelVIModel());
201 G4MuMultipleScattering* pmsc = new G4MuMultipleScattering();
202 pmsc->AddEmModel(0, new G4WentzelVIModel());
203 G4hMultipleScattering* hmsc = new G4hMultipleScattering("ionmsc");
204
205 // high energy limit for e+- scattering models
206 G4double highEnergyLimit = 100*MeV;
207
208 // nuclear stopping
209 G4NuclearStopping* ionnuc = new G4NuclearStopping();
210 G4NuclearStopping* pnuc = new G4NuclearStopping();
211
212 // Add Livermore EM Processes
213 theParticleIterator->reset();
214
215 while( (*theParticleIterator)() ){
216
217 G4ParticleDefinition* particle = theParticleIterator->value();
218 G4String particleName = particle->GetParticleName();
219
220 if(verbose > 1)
221 G4cout << "### " << GetPhysicsName() << " instantiates for "
222 << particleName << G4endl;
223
224 //Applicability range for Livermore models
225 //for higher energies, the Standard models are used
226 G4double LivermoreHighEnergyLimit = GeV;
227
228 if (particleName == "gamma") {
229
230 G4PhotoElectricEffect* thePhotoElectricEffect = new G4PhotoElectricEffect();
231 G4LivermorePolarizedPhotoElectricModel* theLivermorePhotoElectricModel = new G4LivermorePolarizedPhotoElectricModel();
232 theLivermorePhotoElectricModel->SetHighEnergyLimit(LivermoreHighEnergyLimit);
233 thePhotoElectricEffect->AddEmModel(0, theLivermorePhotoElectricModel);
234 ph->RegisterProcess(thePhotoElectricEffect, particle);
235
236 G4ComptonScattering* theComptonScattering = new G4ComptonScattering();
237 G4LivermorePolarizedComptonModel* theLivermoreComptonModel = new G4LivermorePolarizedComptonModel();
238 theLivermoreComptonModel->SetHighEnergyLimit(LivermoreHighEnergyLimit);
239 theComptonScattering->AddEmModel(0, theLivermoreComptonModel);
240 ph->RegisterProcess(theComptonScattering, particle);
241
242 G4GammaConversion* theGammaConversion = new G4GammaConversion();
243 G4LivermorePolarizedGammaConversionModel* theLivermoreGammaConversionModel = new G4LivermorePolarizedGammaConversionModel();
244 theLivermoreGammaConversionModel->SetHighEnergyLimit(LivermoreHighEnergyLimit);
245 theGammaConversion->AddEmModel(0, theLivermoreGammaConversionModel);
246 ph->RegisterProcess(theGammaConversion, particle);
247
248 G4RayleighScattering* theRayleigh = new G4RayleighScattering();
249 G4LivermorePolarizedRayleighModel* theRayleighModel = new G4LivermorePolarizedRayleighModel();
250 theRayleighModel->SetHighEnergyLimit(LivermoreHighEnergyLimit);
251 theRayleigh->AddEmModel(0, theRayleighModel);
252 ph->RegisterProcess(theRayleigh, particle);
253
254 } else if (particleName == "e-") {
255
256 // multiple scattering
257 G4eMultipleScattering* msc = new G4eMultipleScattering;
258 msc->SetStepLimitType(fUseDistanceToBoundary);
259 G4UrbanMscModel95* msc1 = new G4UrbanMscModel95();
260 G4WentzelVIModel* msc2 = new G4WentzelVIModel();
261 msc1->SetHighEnergyLimit(highEnergyLimit);
262 msc2->SetLowEnergyLimit(highEnergyLimit);
263 msc->AddEmModel(0, msc1);
264 msc->AddEmModel(0, msc2);
265
266 G4eCoulombScatteringModel* ssm = new G4eCoulombScatteringModel();
267 G4CoulombScattering* ss = new G4CoulombScattering();
268 ss->SetEmModel(ssm, 1);
269 ss->SetMinKinEnergy(highEnergyLimit);
270 ssm->SetLowEnergyLimit(highEnergyLimit);
271 ssm->SetActivationLowEnergyLimit(highEnergyLimit);
272 ph->RegisterProcess(msc, particle);
273 ph->RegisterProcess(ss, particle);
274
275 // Ionisation
276 G4eIonisation* eIoni = new G4eIonisation();
277 G4LivermoreIonisationModel* theIoniLivermore = new
278 G4LivermoreIonisationModel();
279 theIoniLivermore->SetHighEnergyLimit(0.1*MeV);
280 eIoni->AddEmModel(0, theIoniLivermore, new G4UniversalFluctuation() );
281 eIoni->SetStepFunction(0.2, 100*um); //
282 ph->RegisterProcess(eIoni, particle);
283
284 // Bremsstrahlung from standard
285 G4eBremsstrahlung* eBrem = new G4eBremsstrahlung();
286 ph->RegisterProcess(eBrem, particle);
287
288 } else if (particleName == "e+") {
289
290 // multiple scattering
291 G4eMultipleScattering* msc = new G4eMultipleScattering;
292 msc->SetStepLimitType(fUseDistanceToBoundary);
293 G4UrbanMscModel95* msc1 = new G4UrbanMscModel95();
294 G4WentzelVIModel* msc2 = new G4WentzelVIModel();
295 msc1->SetHighEnergyLimit(highEnergyLimit);
296 msc2->SetLowEnergyLimit(highEnergyLimit);
297 msc->AddEmModel(0, msc1);
298 msc->AddEmModel(0, msc2);
299
300 G4eCoulombScatteringModel* ssm = new G4eCoulombScatteringModel();
301 G4CoulombScattering* ss = new G4CoulombScattering();
302 ss->SetEmModel(ssm, 1);
303 ss->SetMinKinEnergy(highEnergyLimit);
304 ssm->SetLowEnergyLimit(highEnergyLimit);
305 ssm->SetActivationLowEnergyLimit(highEnergyLimit);
306
307 // Ionisation
308 G4eIonisation* eIoni = new G4eIonisation();
309 eIoni->SetStepFunction(0.2, 100*um);
310
311 ph->RegisterProcess(msc, particle);
312 ph->RegisterProcess(eIoni, particle);
313 ph->RegisterProcess(new G4eBremsstrahlung(), particle);
314 ph->RegisterProcess(new G4eplusAnnihilation(), particle);
315 ph->RegisterProcess(ss, particle);
316
317 } else if (particleName == "mu+" ||
318 particleName == "mu-" ) {
319
320 G4MuIonisation* muIoni = new G4MuIonisation();
321 muIoni->SetStepFunction(0.2, 50*um);
322
323 ph->RegisterProcess(mumsc, particle);
324 ph->RegisterProcess(muIoni, particle);
325 ph->RegisterProcess(mub, particle);
326 ph->RegisterProcess(mup, particle);
327 ph->RegisterProcess(new G4CoulombScattering(), particle);
328
329 } else if (particleName == "alpha" ||
330 particleName == "He3" ) {
331
332 // Identical to G4EmStandardPhysics_option3
333
334 G4hMultipleScattering* msc = new G4hMultipleScattering();
335 G4ionIonisation* ionIoni = new G4ionIonisation();
336 ionIoni->SetStepFunction(0.1, 10*um);
337
338 ph->RegisterProcess(msc, particle);
339 ph->RegisterProcess(ionIoni, particle);
340 ph->RegisterProcess(ionnuc, particle);
341
342 } else if (particleName == "GenericIon") {
343
344 // Identical to G4EmStandardPhysics_option3
345
346 G4ionIonisation* ionIoni = new G4ionIonisation();
347 ionIoni->SetEmModel(new G4IonParametrisedLossModel());
348 ionIoni->SetStepFunction(0.1, 1*um);
349
350 ph->RegisterProcess(hmsc, particle);
351 ph->RegisterProcess(ionIoni, particle);
352 ph->RegisterProcess(ionnuc, particle);
353
354 } else if (particleName == "pi+" ||
355 particleName == "pi-" ) {
356
357 //G4hMultipleScattering* pimsc = new G4hMultipleScattering();
358 G4hIonisation* hIoni = new G4hIonisation();
359 hIoni->SetStepFunction(0.2, 50*um);
360
361 ph->RegisterProcess(pimsc, particle);
362 ph->RegisterProcess(hIoni, particle);
363 ph->RegisterProcess(pib, particle);
364 ph->RegisterProcess(pip, particle);
365
366 } else if (particleName == "kaon+" ||
367 particleName == "kaon-" ) {
368
369 //G4hMultipleScattering* kmsc = new G4hMultipleScattering();
370 G4hIonisation* hIoni = new G4hIonisation();
371 hIoni->SetStepFunction(0.2, 50*um);
372
373 ph->RegisterProcess(kmsc, particle);
374 ph->RegisterProcess(hIoni, particle);
375 ph->RegisterProcess(kb, particle);
376 ph->RegisterProcess(kp, particle);
377
378 } else if (particleName == "proton" ||
379 particleName == "anti_proton") {
380
381 //G4hMultipleScattering* pmsc = new G4hMultipleScattering();
382 G4hIonisation* hIoni = new G4hIonisation();
383 hIoni->SetStepFunction(0.2, 50*um);
384
385 ph->RegisterProcess(pmsc, particle);
386 ph->RegisterProcess(hIoni, particle);
387 ph->RegisterProcess(pb, particle);
388 ph->RegisterProcess(pp, particle);
389 ph->RegisterProcess(pnuc, particle);
390
391 } else if (particleName == "B+" ||
392 particleName == "B-" ||
393 particleName == "D+" ||
394 particleName == "D-" ||
395 particleName == "Ds+" ||
396 particleName == "Ds-" ||
397 particleName == "anti_He3" ||
398 particleName == "anti_alpha" ||
399 particleName == "anti_deuteron" ||
400 particleName == "anti_lambda_c+" ||
401 particleName == "anti_omega-" ||
402 particleName == "anti_sigma_c+" ||
403 particleName == "anti_sigma_c++" ||
404 particleName == "anti_sigma+" ||
405 particleName == "anti_sigma-" ||
406 particleName == "anti_triton" ||
407 particleName == "anti_xi_c+" ||
408 particleName == "anti_xi-" ||
409 particleName == "deuteron" ||
410 particleName == "lambda_c+" ||
411 particleName == "omega-" ||
412 particleName == "sigma_c+" ||
413 particleName == "sigma_c++" ||
414 particleName == "sigma+" ||
415 particleName == "sigma-" ||
416 particleName == "tau+" ||
417 particleName == "tau-" ||
418 particleName == "triton" ||
419 particleName == "xi_c+" ||
420 particleName == "xi-" ) {
421
422 // Identical to G4EmStandardPhysics_option3
423
424 ph->RegisterProcess(hmsc, particle);
425 ph->RegisterProcess(new G4hIonisation(), particle);
426 ph->RegisterProcess(pnuc, particle);
427 }
428 }
429
430 // Em options
431 //
432 G4EmProcessOptions opt;
433 opt.SetVerbose(verbose);
434
435 // Multiple Coulomb scattering
436 //
437 opt.SetPolarAngleLimit(CLHEP::pi);
438
439 // Physics tables
440 //
441
442 opt.SetMinEnergy(100*eV);
443 opt.SetMaxEnergy(10*TeV);
444 opt.SetDEDXBinning(220);
445 opt.SetLambdaBinning(220);
446
447 // Nuclear stopping
448 pnuc->SetMaxKinEnergy(MeV);
449
450 // Ionization
451 //
452 //opt.SetSubCutoff(true);
453
454 // Deexcitation
455 //
456 G4VAtomDeexcitation* de = new G4UAtomicDeexcitation();
457 G4LossTableManager::Instance()->SetAtomDeexcitation(de);
458 de->SetFluo(true);
459}
460
461//....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
bElectromagnetic
@ bElectromagnetic
Definition: G4BuilderType.hh:48
fUseDistanceToBoundary
@ fUseDistanceToBoundary
Definition: G4MscStepLimitType.hh:51
G4_DECLARE_PHYSCONSTR_FACTORY
#define G4_DECLARE_PHYSCONSTR_FACTORY(physics_constructor)
Definition: G4PhysicsConstructorFactory.hh:60
G4double
double G4double
Definition: G4Types.hh:64
G4int
int G4int
Definition: G4Types.hh:66
G4endl
#define G4endl
Definition: G4ios.hh:52
G4cout
G4DLLIMPORT std::ostream G4cout
G4Alpha::Alpha
static G4Alpha * Alpha()
Definition: G4Alpha.cc:89
G4AntiProton::AntiProton
static G4AntiProton * AntiProton()
Definition: G4AntiProton.cc:93
G4Deuteron::Deuteron
static G4Deuteron * Deuteron()
Definition: G4Deuteron.cc:94
G4Electron::Electron
static G4Electron * Electron()
Definition: G4Electron.cc:94
G4EmProcessOptions::SetMaxEnergy
void SetMaxEnergy(G4double val)
Definition: G4EmProcessOptions.cc:115
G4EmProcessOptions::SetDEDXBinning
void SetDEDXBinning(G4int val)
Definition: G4EmProcessOptions.cc:136
G4EmProcessOptions::SetLambdaBinning
void SetLambdaBinning(G4int val)
Definition: G4EmProcessOptions.cc:150
G4EmProcessOptions::SetPolarAngleLimit
void SetPolarAngleLimit(G4double val)
Definition: G4EmProcessOptions.cc:364
G4EmProcessOptions::SetVerbose
void SetVerbose(G4int val, const G4String &name="all")
Definition: G4EmProcessOptions.cc:191
G4EmProcessOptions::SetMinEnergy
void SetMinEnergy(G4double val)
Definition: G4EmProcessOptions.cc:108
G4Gamma::Gamma
static G4Gamma * Gamma()
Definition: G4Gamma.cc:86
G4GenericIon::GenericIonDefinition
static G4GenericIon * GenericIonDefinition()
Definition: G4GenericIon.cc:87
G4He3::He3
static G4He3 * He3()
Definition: G4He3.cc:94
G4KaonMinus::KaonMinusDefinition
static G4KaonMinus * KaonMinusDefinition()
Definition: G4KaonMinus.cc:108
G4KaonPlus::KaonPlusDefinition
static G4KaonPlus * KaonPlusDefinition()
Definition: G4KaonPlus.cc:108
G4LossTableManager::SetAtomDeexcitation
void SetAtomDeexcitation(G4VAtomDeexcitation *)
Definition: G4LossTableManager.cc:1120
G4LossTableManager::Instance
static G4LossTableManager * Instance()
Definition: G4LossTableManager.cc:107
G4MuonMinus::MuonMinus
static G4MuonMinus * MuonMinus()
Definition: G4MuonMinus.cc:100
G4MuonPlus::MuonPlus
static G4MuonPlus * MuonPlus()
Definition: G4MuonPlus.cc:99
G4ParticleDefinition::GetParticleName
const G4String & GetParticleName() const
Definition: G4ParticleDefinition.hh:115
G4PhysicsListHelper::RegisterProcess
G4bool RegisterProcess(G4VProcess *process, G4ParticleDefinition *particle)
Definition: G4PhysicsListHelper.cc:408
G4PhysicsListHelper::GetPhysicsListHelper
static G4PhysicsListHelper * GetPhysicsListHelper()
Definition: G4PhysicsListHelper.cc:89
G4PionMinus::PionMinusDefinition
static G4PionMinus * PionMinusDefinition()
Definition: G4PionMinus.cc:93
G4PionPlus::PionPlusDefinition
static G4PionPlus * PionPlusDefinition()
Definition: G4PionPlus.cc:93
G4Positron::Positron
static G4Positron * Positron()
Definition: G4Positron.cc:94
G4Proton::Proton
static G4Proton * Proton()
Definition: G4Proton.cc:93
G4Triton::Triton
static G4Triton * Triton()
Definition: G4Triton.cc:95
G4VEmModel::SetHighEnergyLimit
void SetHighEnergyLimit(G4double)
Definition: G4VEmModel.hh:585
G4VEmModel::SetActivationLowEnergyLimit
void SetActivationLowEnergyLimit(G4double)
Definition: G4VEmModel.hh:606
G4VEmModel::SetLowEnergyLimit
void SetLowEnergyLimit(G4double)
Definition: G4VEmModel.hh:592
G4VEmProcess::AddEmModel
void AddEmModel(G4int, G4VEmModel *, const G4Region *region=0)
Definition: G4VEmProcess.cc:182
G4VEmProcess::SetMinKinEnergy
void SetMinKinEnergy(G4double e)
Definition: G4VEmProcess.cc:1091
G4VEmProcess::SetEmModel
void SetEmModel(G4VEmModel *, G4int index=1)
Definition: G4VEmProcess.cc:221
G4VEmProcess::SetMaxKinEnergy
void SetMaxKinEnergy(G4double e)
Definition: G4VEmProcess.cc:1100
G4VEnergyLossProcess::SetEmModel
void SetEmModel(G4VEmModel *, G4int index=1)
Definition: G4VEnergyLossProcess.cc:349
G4VEnergyLossProcess::AddEmModel
void AddEmModel(G4int, G4VEmModel *, G4VEmFluctuationModel *fluc=0, const G4Region *region=0)
Definition: G4VEnergyLossProcess.cc:331
G4VEnergyLossProcess::SetStepFunction
void SetStepFunction(G4double v1, G4double v2)
Definition: G4VEnergyLossProcess.hh:966
G4VMultipleScattering::AddEmModel
void AddEmModel(G4int order, G4VEmModel *, const G4Region *region=0)
Definition: G4VMultipleScattering.cc:137
G4VMultipleScattering::SetStepLimitType
void SetStepLimitType(G4MscStepLimitType val)
Definition: G4VMultipleScattering.hh:394
G4VPhysicsConstructor::GetPhysicsName
const G4String & GetPhysicsName() const
Definition: G4VPhysicsConstructor.hh:136
G4VPhysicsConstructor::theParticleIterator
G4ParticleTable::G4PTblDicIterator * theParticleIterator
Definition: G4VPhysicsConstructor.hh:113