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Geant4/processes/optical/src/G4OpWLS.cc

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Differences between /processes/optical/src/G4OpWLS.cc (Version 11.3.0) and /processes/optical/src/G4OpWLS.cc (Version 9.6.p2)


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 25 //                                                 25 //
 26 //                                                 26 //
                                                   >>  27 // $Id$
 27 //                                                 28 //
 28 //////////////////////////////////////////////     29 ////////////////////////////////////////////////////////////////////////
 29 // Optical Photon WaveLength Shifting (WLS) Cl     30 // Optical Photon WaveLength Shifting (WLS) Class Implementation
 30 //////////////////////////////////////////////     31 ////////////////////////////////////////////////////////////////////////
 31 //                                                 32 //
 32 // File:        G4OpWLS.cc                         33 // File:        G4OpWLS.cc
 33 // Description: Discrete Process -- Wavelength     34 // Description: Discrete Process -- Wavelength Shifting of Optical Photons
 34 // Version:     1.0                                35 // Version:     1.0
 35 // Created:     2003-05-13                         36 // Created:     2003-05-13
 36 // Author:      John Paul Archambault              37 // Author:      John Paul Archambault
 37 //              (Adaptation of G4Scintillation     38 //              (Adaptation of G4Scintillation and G4OpAbsorption)
 38 // Updated:     2005-07-28 - add G4ProcessType     39 // Updated:     2005-07-28 - add G4ProcessType to constructor
 39 //              2006-05-07 - add G4VWLSTimeGen     40 //              2006-05-07 - add G4VWLSTimeGeneratorProfile
                                                   >>  41 // mail:        gum@triumf.ca
                                                   >>  42 //              jparcham@phys.ualberta.ca
 40 //                                                 43 //
 41 //////////////////////////////////////////////     44 ////////////////////////////////////////////////////////////////////////
 42                                                    45 
 43 #include "G4OpWLS.hh"                              46 #include "G4OpWLS.hh"
                                                   >>  47 
 44 #include "G4ios.hh"                                48 #include "G4ios.hh"
 45 #include "G4PhysicalConstants.hh"                  49 #include "G4PhysicalConstants.hh"
 46 #include "G4SystemOfUnits.hh"                      50 #include "G4SystemOfUnits.hh"
 47 #include "G4OpProcessSubType.hh"                   51 #include "G4OpProcessSubType.hh"
 48 #include "G4Poisson.hh"                        <<  52 
 49 #include "G4OpticalParameters.hh"              << 
 50 #include "G4WLSTimeGeneratorProfileDelta.hh"       53 #include "G4WLSTimeGeneratorProfileDelta.hh"
 51 #include "G4WLSTimeGeneratorProfileExponential     54 #include "G4WLSTimeGeneratorProfileExponential.hh"
 52                                                    55 
 53 //....oooOO0OOooo........oooOO0OOooo........oo <<  56 /////////////////////////
                                                   >>  57 // Class Implementation
                                                   >>  58 /////////////////////////
                                                   >>  59 
                                                   >>  60 /////////////////
                                                   >>  61 // Constructors
                                                   >>  62 /////////////////
                                                   >>  63 
 54 G4OpWLS::G4OpWLS(const G4String& processName,      64 G4OpWLS::G4OpWLS(const G4String& processName, G4ProcessType type)
 55   : G4VDiscreteProcess(processName, type)          65   : G4VDiscreteProcess(processName, type)
 56 {                                                  66 {
 57   WLSTimeGeneratorProfile = nullptr;           << 
 58   Initialise();                                << 
 59   SetProcessSubType(fOpWLS);                       67   SetProcessSubType(fOpWLS);
 60   theIntegralTable = nullptr;                  << 
 61                                                    68 
 62   if(verboseLevel > 0)                         <<  69   theIntegralTable = 0;
                                                   >>  70  
                                                   >>  71   if (verboseLevel>0) {
 63     G4cout << GetProcessName() << " is created     72     G4cout << GetProcessName() << " is created " << G4endl;
                                                   >>  73   }
                                                   >>  74 
                                                   >>  75   WLSTimeGeneratorProfile = 
                                                   >>  76        new G4WLSTimeGeneratorProfileDelta("WLSTimeGeneratorProfileDelta");
                                                   >>  77 
                                                   >>  78   BuildThePhysicsTable();
 64 }                                                  79 }
 65                                                    80 
 66 //....oooOO0OOooo........oooOO0OOooo........oo <<  81 ////////////////
                                                   >>  82 // Destructors
                                                   >>  83 ////////////////
                                                   >>  84 
 67 G4OpWLS::~G4OpWLS()                                85 G4OpWLS::~G4OpWLS()
 68 {                                                  86 {
 69   if(theIntegralTable)                         <<  87   if (theIntegralTable != 0) {
 70   {                                            << 
 71     theIntegralTable->clearAndDestroy();           88     theIntegralTable->clearAndDestroy();
 72     delete theIntegralTable;                       89     delete theIntegralTable;
 73   }                                                90   }
 74   delete WLSTimeGeneratorProfile;                  91   delete WLSTimeGeneratorProfile;
 75 }                                                  92 }
 76                                                    93 
 77 //....oooOO0OOooo........oooOO0OOooo........oo <<  94 ////////////
 78 void G4OpWLS::PreparePhysicsTable(const G4Part <<  95 // Methods
 79                                                <<  96 ////////////
 80 //....oooOO0OOooo........oooOO0OOooo........oo << 
 81 void G4OpWLS::Initialise()                     << 
 82 {                                              << 
 83   G4OpticalParameters* params = G4OpticalParam << 
 84   SetVerboseLevel(params->GetWLSVerboseLevel() << 
 85   UseTimeProfile(params->GetWLSTimeProfile()); << 
 86 }                                              << 
 87                                                    97 
 88 //....oooOO0OOooo........oooOO0OOooo........oo <<  98 // PostStepDoIt
 89 G4VParticleChange* G4OpWLS::PostStepDoIt(const <<  99 // -------------
 90                                          const << 100 //
                                                   >> 101 G4VParticleChange*
                                                   >> 102 G4OpWLS::PostStepDoIt(const G4Track& aTrack, const G4Step& aStep)
 91 {                                                 103 {
 92   std::vector<G4Track*> proposedSecondaries;   << 
 93   aParticleChange.Initialize(aTrack);             104   aParticleChange.Initialize(aTrack);
                                                   >> 105   
 94   aParticleChange.ProposeTrackStatus(fStopAndK    106   aParticleChange.ProposeTrackStatus(fStopAndKill);
 95                                                   107 
 96   if(verboseLevel > 1)                         << 108   if (verboseLevel>0) {
 97   {                                            << 109     G4cout << "\n** Photon absorbed! **" << G4endl;
 98     G4cout << "\n** G4OpWLS: Photon absorbed!  << 
 99   }                                               110   }
                                                   >> 111   
                                                   >> 112   const G4Material* aMaterial = aTrack.GetMaterial();
100                                                   113 
101   G4StepPoint* pPostStepPoint = aStep.GetPostS    114   G4StepPoint* pPostStepPoint = aStep.GetPostStepPoint();
102   G4MaterialPropertiesTable* MPT =             << 115     
103     aTrack.GetMaterial()->GetMaterialPropertie << 116   G4MaterialPropertiesTable* aMaterialPropertiesTable =
104   if(!MPT)                                     << 117     aMaterial->GetMaterialPropertiesTable();
105   {                                            << 118   if (!aMaterialPropertiesTable)
106     return G4VDiscreteProcess::PostStepDoIt(aT    119     return G4VDiscreteProcess::PostStepDoIt(aTrack, aStep);
107   }                                            << 120 
108   if(!MPT->GetProperty(kWLSCOMPONENT))         << 121   const G4MaterialPropertyVector* WLS_Intensity = 
109   {                                            << 122     aMaterialPropertiesTable->GetProperty("WLSCOMPONENT"); 
                                                   >> 123 
                                                   >> 124   if (!WLS_Intensity)
110     return G4VDiscreteProcess::PostStepDoIt(aT    125     return G4VDiscreteProcess::PostStepDoIt(aTrack, aStep);
111   }                                            << 
112                                                   126 
113   G4int NumPhotons = 1;                           127   G4int NumPhotons = 1;
114   if(MPT->ConstPropertyExists(kWLSMEANNUMBERPH << 
115   {                                            << 
116     G4double MeanNumberOfPhotons = MPT->GetCon << 
117     NumPhotons                   = G4int(G4Poi << 
118     if(NumPhotons <= 0)                        << 
119     {                                          << 
120       // return unchanged particle and no seco << 
121       aParticleChange.SetNumberOfSecondaries(0 << 
122       return G4VDiscreteProcess::PostStepDoIt( << 
123     }                                          << 
124   }                                            << 
125                                                   128 
126   // Retrieve the WLS Integral for this materi << 129   if (aMaterialPropertiesTable->ConstPropertyExists("WLSMEANNUMBERPHOTONS")) {
127   // new G4PhysicsFreeVector allocated to hold << 
128   G4double primaryEnergy = aTrack.GetDynamicPa << 
129   G4double WLSTime       = 0.;                 << 
130   G4PhysicsFreeVector* WLSIntegral = nullptr;  << 
131                                                << 
132   WLSTime     = MPT->GetConstProperty(kWLSTIME << 
133   WLSIntegral = (G4PhysicsFreeVector*) ((*theI << 
134     aTrack.GetMaterial()->GetIndex()));        << 
135                                                   130 
136   // Max WLS Integral                          << 131      G4double MeanNumberOfPhotons = aMaterialPropertiesTable->
137   G4double CIImax       = WLSIntegral->GetMaxV << 132                                     GetConstProperty("WLSMEANNUMBERPHOTONS");
138   G4int NumberOfPhotons = NumPhotons;          << 133 
                                                   >> 134      NumPhotons = G4int(G4Poisson(MeanNumberOfPhotons));
                                                   >> 135 
                                                   >> 136      if (NumPhotons <= 0) {
139                                                   137 
140   for(G4int i = 0; i < NumPhotons; ++i)        << 
141   {                                            << 
142     G4double sampledEnergy;                    << 
143     // Make sure the energy of the secondary i << 
144     for(G4int j = 1; j <= 100; ++j)            << 
145     {                                          << 
146       // Determine photon energy               << 
147       G4double CIIvalue = G4UniformRand() * CI << 
148       sampledEnergy     = WLSIntegral->GetEner << 
149       if(sampledEnergy <= primaryEnergy)       << 
150         break;                                 << 
151     }                                          << 
152     // If no such energy can be sampled, retur << 
153     if(sampledEnergy > primaryEnergy)          << 
154     {                                          << 
155       if(verboseLevel > 1)                     << 
156       {                                        << 
157         G4cout << " *** G4OpWLS: One less WLS  << 
158                << G4endl;                      << 
159       }                                        << 
160       NumberOfPhotons--;                       << 
161       if(NumberOfPhotons == 0)                 << 
162       {                                        << 
163         if(verboseLevel > 1)                   << 
164         {                                      << 
165           G4cout                               << 
166             << " *** G4OpWLS: No WLS photon ca << 
167             << G4endl;                         << 
168         }                                      << 
169         // return unchanged particle and no se    138         // return unchanged particle and no secondaries
                                                   >> 139 
170         aParticleChange.SetNumberOfSecondaries    140         aParticleChange.SetNumberOfSecondaries(0);
                                                   >> 141 
171         return G4VDiscreteProcess::PostStepDoI    142         return G4VDiscreteProcess::PostStepDoIt(aTrack, aStep);
172       }                                        << 
173       continue;                                << 
174     }                                          << 
175     else if(verboseLevel > 1)                  << 
176     {                                          << 
177       G4cout << "G4OpWLS: Created photon with  << 
178              << G4endl;                        << 
179     }                                          << 
180                                                   143 
181     // Generate random photon direction        << 144      }
182     G4double cost = 1. - 2. * G4UniformRand(); << 
183     G4double sint = std::sqrt((1. - cost) * (1 << 
184     G4double phi  = twopi * G4UniformRand();   << 
185     G4double sinp = std::sin(phi);             << 
186     G4double cosp = std::cos(phi);             << 
187     G4ParticleMomentum photonMomentum(sint * c << 
188                                                   145 
189     G4ThreeVector photonPolarization(cost * co << 146   }
190     G4ThreeVector perp = photonMomentum.cross( << 
191                                                   147 
192     phi                = twopi * G4UniformRand << 148   aParticleChange.SetNumberOfSecondaries(NumPhotons);
193     sinp               = std::sin(phi);        << 
194     cosp               = std::cos(phi);        << 
195     photonPolarization = (cosp * photonPolariz << 
196                                                   149 
197     // Generate a new photon:                  << 150   G4int materialIndex = aMaterial->GetIndex();
198     auto sec_dp =                              << 151 
199       new G4DynamicParticle(G4OpticalPhoton::O << 152   // Retrieve the WLS Integral for this material
200     sec_dp->SetPolarization(photonPolarization << 153   // new G4PhysicsOrderedFreeVector allocated to hold CII's
201     sec_dp->SetKineticEnergy(sampledEnergy);   << 
202                                                << 
203     G4double secTime = pPostStepPoint->GetGlob << 
204                        WLSTimeGeneratorProfile << 
205     G4ThreeVector secPos = pPostStepPoint->Get << 
206     G4Track* secTrack    = new G4Track(sec_dp, << 
207                                                   154 
208     secTrack->SetTouchableHandle(aTrack.GetTou << 155   G4double WLSTime = 0.*ns;
209     secTrack->SetParentID(aTrack.GetTrackID()) << 156   G4PhysicsOrderedFreeVector* WLSIntegral = 0;
210                                                   157 
211     proposedSecondaries.push_back(secTrack);   << 158   WLSTime   = aMaterialPropertiesTable->
212   }                                            << 159     GetConstProperty("WLSTIMECONSTANT");
                                                   >> 160   WLSIntegral =
                                                   >> 161     (G4PhysicsOrderedFreeVector*)((*theIntegralTable)(materialIndex));
                                                   >> 162    
                                                   >> 163   // Max WLS Integral
                                                   >> 164   
                                                   >> 165   G4double CIImax = WLSIntegral->GetMaxValue();
                                                   >> 166   
                                                   >> 167   for (G4int i = 0; i < NumPhotons; i++) {
                                                   >> 168     
                                                   >> 169     // Determine photon energy
                                                   >> 170     
                                                   >> 171     G4double CIIvalue = G4UniformRand()*CIImax;
                                                   >> 172     G4double sampledEnergy = 
                                                   >> 173       WLSIntegral->GetEnergy(CIIvalue);
                                                   >> 174     
                                                   >> 175     if (verboseLevel>1) {
                                                   >> 176       G4cout << "sampledEnergy = " << sampledEnergy << G4endl;
                                                   >> 177       G4cout << "CIIvalue =        " << CIIvalue << G4endl;
                                                   >> 178     }
                                                   >> 179     
                                                   >> 180     // Generate random photon direction
                                                   >> 181     
                                                   >> 182     G4double cost = 1. - 2.*G4UniformRand();
                                                   >> 183     G4double sint = std::sqrt((1.-cost)*(1.+cost));
213                                                   184 
214   aParticleChange.SetNumberOfSecondaries((G4in << 185     G4double phi = twopi*G4UniformRand();
215   for(auto sec : proposedSecondaries)          << 186     G4double sinp = std::sin(phi);
216   {                                            << 187     G4double cosp = std::cos(phi);
217     aParticleChange.AddSecondary(sec);         << 188     
218   }                                            << 189     G4double px = sint*cosp;
219   if(verboseLevel > 1)                         << 190     G4double py = sint*sinp;
220   {                                            << 191     G4double pz = cost;
221     G4cout << "\n Exiting from G4OpWLS::DoIt - << 192     
222            << aParticleChange.GetNumberOfSecon << 193     // Create photon momentum direction vector
                                                   >> 194     
                                                   >> 195     G4ParticleMomentum photonMomentum(px, py, pz);
                                                   >> 196     
                                                   >> 197     // Determine polarization of new photon
                                                   >> 198     
                                                   >> 199     G4double sx = cost*cosp;
                                                   >> 200     G4double sy = cost*sinp;
                                                   >> 201     G4double sz = -sint;
                                                   >> 202     
                                                   >> 203     G4ThreeVector photonPolarization(sx, sy, sz);
                                                   >> 204     
                                                   >> 205     G4ThreeVector perp = photonMomentum.cross(photonPolarization);
                                                   >> 206     
                                                   >> 207     phi = twopi*G4UniformRand();
                                                   >> 208     sinp = std::sin(phi);
                                                   >> 209     cosp = std::cos(phi);
                                                   >> 210     
                                                   >> 211     photonPolarization = cosp * photonPolarization + sinp * perp;
                                                   >> 212     
                                                   >> 213     photonPolarization = photonPolarization.unit();
                                                   >> 214     
                                                   >> 215     // Generate a new photon:
                                                   >> 216     
                                                   >> 217     G4DynamicParticle* aWLSPhoton =
                                                   >> 218       new G4DynamicParticle(G4OpticalPhoton::OpticalPhoton(),
                                                   >> 219           photonMomentum);
                                                   >> 220     aWLSPhoton->SetPolarization
                                                   >> 221       (photonPolarization.x(),
                                                   >> 222        photonPolarization.y(),
                                                   >> 223        photonPolarization.z());
                                                   >> 224     
                                                   >> 225     aWLSPhoton->SetKineticEnergy(sampledEnergy);
                                                   >> 226     
                                                   >> 227     // Generate new G4Track object:
                                                   >> 228     
                                                   >> 229     // Must give position of WLS optical photon
                                                   >> 230 
                                                   >> 231     G4double TimeDelay = WLSTimeGeneratorProfile->GenerateTime(WLSTime);
                                                   >> 232     G4double aSecondaryTime = (pPostStepPoint->GetGlobalTime()) + TimeDelay;
                                                   >> 233 
                                                   >> 234     G4ThreeVector aSecondaryPosition = pPostStepPoint->GetPosition();
                                                   >> 235 
                                                   >> 236     G4Track* aSecondaryTrack = 
                                                   >> 237       new G4Track(aWLSPhoton,aSecondaryTime,aSecondaryPosition);
                                                   >> 238    
                                                   >> 239     aSecondaryTrack->SetTouchableHandle(aTrack.GetTouchableHandle()); 
                                                   >> 240     // aSecondaryTrack->SetTouchableHandle((G4VTouchable*)0);
                                                   >> 241     
                                                   >> 242     aSecondaryTrack->SetParentID(aTrack.GetTrackID());
                                                   >> 243     
                                                   >> 244     aParticleChange.AddSecondary(aSecondaryTrack);
                                                   >> 245   }
                                                   >> 246 
                                                   >> 247   if (verboseLevel>0) {
                                                   >> 248     G4cout << "\n Exiting from G4OpWLS::DoIt -- NumberOfSecondaries = " 
                                                   >> 249      << aParticleChange.GetNumberOfSecondaries() << G4endl;  
223   }                                               250   }
224                                                << 251   
225   return G4VDiscreteProcess::PostStepDoIt(aTra    252   return G4VDiscreteProcess::PostStepDoIt(aTrack, aStep);
226 }                                                 253 }
227                                                   254 
228 //....oooOO0OOooo........oooOO0OOooo........oo << 255 // BuildThePhysicsTable for the wavelength shifting process
229 void G4OpWLS::BuildPhysicsTable(const G4Partic << 256 // --------------------------------------------------
230 {                                              << 257 //
231   if(theIntegralTable)                         << 
232   {                                            << 
233     theIntegralTable->clearAndDestroy();       << 
234     delete theIntegralTable;                   << 
235     theIntegralTable = nullptr;                << 
236   }                                            << 
237                                                << 
238   const G4MaterialTable* materialTable = G4Mat << 
239   std::size_t numOfMaterials           = G4Mat << 
240   theIntegralTable                     = new G << 
241                                                   258 
                                                   >> 259 void G4OpWLS::BuildThePhysicsTable()
                                                   >> 260 {
                                                   >> 261   if (theIntegralTable) return;
                                                   >> 262   
                                                   >> 263   const G4MaterialTable* theMaterialTable = 
                                                   >> 264     G4Material::GetMaterialTable();
                                                   >> 265   G4int numOfMaterials = G4Material::GetNumberOfMaterials();
                                                   >> 266   
                                                   >> 267   // create new physics table
                                                   >> 268   
                                                   >> 269   if(!theIntegralTable)theIntegralTable = new G4PhysicsTable(numOfMaterials);
                                                   >> 270   
242   // loop for materials                           271   // loop for materials
243   for(std::size_t i = 0; i < numOfMaterials; + << 272   
244   {                                            << 273   for (G4int i=0 ; i < numOfMaterials; i++)
245     auto physVector = new G4PhysicsFreeVector( << 
246                                                << 
247     // Retrieve vector of WLS wavelength inten << 
248     // the material from the material's optica << 
249     G4MaterialPropertiesTable* MPT =           << 
250       (*materialTable)[i]->GetMaterialProperti << 
251     if(MPT)                                    << 
252     {                                             274     {
253       G4MaterialPropertyVector* wlsVector = MP << 275       G4PhysicsOrderedFreeVector* aPhysicsOrderedFreeVector =
254       if(wlsVector)                            << 276   new G4PhysicsOrderedFreeVector();
255       {                                        << 277       
256         // Retrieve the first intensity point  << 278       // Retrieve vector of WLS wavelength intensity for
257         // of (photon energy, intensity) pairs << 279       // the material from the material's optical properties table.
258         G4double currentIN = (*wlsVector)[0];  << 280       
259         if(currentIN >= 0.0)                   << 281       G4Material* aMaterial = (*theMaterialTable)[i];
260         {                                      << 282 
261           // Create first (photon energy)      << 283       G4MaterialPropertiesTable* aMaterialPropertiesTable =
262           G4double currentPM  = wlsVector->Ene << 284   aMaterial->GetMaterialPropertiesTable();
263           G4double currentCII = 0.0;           << 285 
264           physVector->InsertValues(currentPM,  << 286       if (aMaterialPropertiesTable) {
265                                                << 287 
266           // Set previous values to current on << 288   G4MaterialPropertyVector* theWLSVector = 
267           G4double prevPM  = currentPM;        << 289     aMaterialPropertiesTable->GetProperty("WLSCOMPONENT");
268           G4double prevCII = currentCII;       << 290 
269           G4double prevIN  = currentIN;        << 291   if (theWLSVector) {
270                                                << 292     
271           // loop over all (photon energy, int << 293     // Retrieve the first intensity point in vector
272           // pairs stored for this material    << 294     // of (photon energy, intensity) pairs
273           for(std::size_t j = 1; j < wlsVector << 295     
274           {                                    << 296     G4double currentIN = (*theWLSVector)[0];
275             currentPM = wlsVector->Energy(j);  << 297     
276             currentIN = (*wlsVector)[j];       << 298     if (currentIN >= 0.0) {
277             currentCII =                       << 299 
278               prevCII + 0.5 * (currentPM - pre << 300       // Create first (photon energy) 
279                                                << 301      
280             physVector->InsertValues(currentPM << 302       G4double currentPM = theWLSVector->Energy(0);
281                                                << 303       
282             prevPM  = currentPM;               << 304       G4double currentCII = 0.0;
283             prevCII = currentCII;              << 305       
284             prevIN  = currentIN;               << 306       aPhysicsOrderedFreeVector->
285           }                                    << 307         InsertValues(currentPM , currentCII);
286         }                                      << 308       
                                                   >> 309       // Set previous values to current ones prior to loop
                                                   >> 310       
                                                   >> 311       G4double prevPM  = currentPM;
                                                   >> 312       G4double prevCII = currentCII;
                                                   >> 313       G4double prevIN  = currentIN;
                                                   >> 314       
                                                   >> 315       // loop over all (photon energy, intensity)
                                                   >> 316       // pairs stored for this material
                                                   >> 317 
                                                   >> 318             for (size_t j = 1;
                                                   >> 319                  j < theWLSVector->GetVectorLength();
                                                   >> 320                  j++)     
                                                   >> 321         {
                                                   >> 322     currentPM = theWLSVector->Energy(j);
                                                   >> 323     currentIN = (*theWLSVector)[j];
                                                   >> 324     
                                                   >> 325     currentCII = 0.5 * (prevIN + currentIN);
                                                   >> 326     
                                                   >> 327     currentCII = prevCII +
                                                   >> 328       (currentPM - prevPM) * currentCII;
                                                   >> 329     
                                                   >> 330     aPhysicsOrderedFreeVector->
                                                   >> 331       InsertValues(currentPM, currentCII);
                                                   >> 332     
                                                   >> 333     prevPM  = currentPM;
                                                   >> 334     prevCII = currentCII;
                                                   >> 335     prevIN  = currentIN;
                                                   >> 336         }
                                                   >> 337     }
                                                   >> 338   }
287       }                                           339       }
                                                   >> 340   // The WLS integral for a given material
                                                   >> 341   // will be inserted in the table according to the
                                                   >> 342   // position of the material in the material table.
                                                   >> 343 
                                                   >> 344   theIntegralTable->insertAt(i,aPhysicsOrderedFreeVector);
288     }                                             345     }
289     theIntegralTable->insertAt(i, physVector); << 
290   }                                            << 
291 }                                                 346 }
292                                                   347 
293 //....oooOO0OOooo........oooOO0OOooo........oo << 348 // GetMeanFreePath
294 G4double G4OpWLS::GetMeanFreePath(const G4Trac << 349 // ---------------
295                                   G4ForceCondi << 350 //
                                                   >> 351 G4double G4OpWLS::GetMeanFreePath(const G4Track& aTrack,
                                                   >> 352                  G4double ,
                                                   >> 353                  G4ForceCondition* )
296 {                                                 354 {
297   G4double thePhotonEnergy = aTrack.GetDynamic << 355   const G4DynamicParticle* aParticle = aTrack.GetDynamicParticle();
298   G4double attLength       = DBL_MAX;          << 356   const G4Material* aMaterial = aTrack.GetMaterial();
299   G4MaterialPropertiesTable* MPT =             << 357 
300     aTrack.GetMaterial()->GetMaterialPropertie << 358   G4double thePhotonEnergy = aParticle->GetTotalEnergy();
301                                                << 359 
302   if(MPT)                                      << 360   G4MaterialPropertiesTable* aMaterialPropertyTable;
303   {                                            << 361   G4MaterialPropertyVector* AttenuationLengthVector;
304     G4MaterialPropertyVector* attVector = MPT- << 362   
305     if(attVector)                              << 363   G4double AttenuationLength = DBL_MAX;
306     {                                          << 364 
307       attLength = attVector->Value(thePhotonEn << 365   aMaterialPropertyTable = aMaterial->GetMaterialPropertiesTable();
                                                   >> 366 
                                                   >> 367   if ( aMaterialPropertyTable ) {
                                                   >> 368     AttenuationLengthVector = aMaterialPropertyTable->
                                                   >> 369       GetProperty("WLSABSLENGTH");
                                                   >> 370     if ( AttenuationLengthVector ){
                                                   >> 371       AttenuationLength = AttenuationLengthVector->
                                                   >> 372   Value(thePhotonEnergy);
                                                   >> 373     }
                                                   >> 374     else {
                                                   >> 375       //             G4cout << "No WLS absorption length specified" << G4endl;
308     }                                             376     }
309   }                                               377   }
310   return attLength;                            << 378   else {
                                                   >> 379     //           G4cout << "No WLS absortion length specified" << G4endl;
                                                   >> 380   }
                                                   >> 381   
                                                   >> 382   return AttenuationLength;
311 }                                                 383 }
312                                                   384 
313 //....oooOO0OOooo........oooOO0OOooo........oo << 
314 void G4OpWLS::UseTimeProfile(const G4String na    385 void G4OpWLS::UseTimeProfile(const G4String name)
315 {                                                 386 {
316   if(WLSTimeGeneratorProfile)                  << 387   if (name == "delta")
317   {                                            << 388     {
318     delete WLSTimeGeneratorProfile;            << 389       delete WLSTimeGeneratorProfile;
319     WLSTimeGeneratorProfile = nullptr;         << 390       WLSTimeGeneratorProfile = 
320   }                                            << 391              new G4WLSTimeGeneratorProfileDelta("delta");
321   if(name == "delta")                          << 392     }
322   {                                            << 393   else if (name == "exponential")
323     WLSTimeGeneratorProfile = new G4WLSTimeGen << 394     {
324   }                                            << 395       delete WLSTimeGeneratorProfile;
325   else if(name == "exponential")               << 396       WLSTimeGeneratorProfile =
326   {                                            << 397              new G4WLSTimeGeneratorProfileExponential("exponential");
327     WLSTimeGeneratorProfile =                  << 398     }
328       new G4WLSTimeGeneratorProfileExponential << 
329   }                                            << 
330   else                                            399   else
331   {                                            << 400     {
332     G4Exception("G4OpWLS::UseTimeProfile", "em << 401       G4Exception("G4OpWLS::UseTimeProfile", "em0202",
333                 "generator does not exist");   << 402                   FatalException,
334   }                                            << 403                   "generator does not exist");
335   G4OpticalParameters::Instance()->SetWLSTimeP << 404     }
336 }                                              << 
337                                                << 
338 //....oooOO0OOooo........oooOO0OOooo........oo << 
339 void G4OpWLS::SetVerboseLevel(G4int verbose)   << 
340 {                                              << 
341   verboseLevel = verbose;                      << 
342   G4OpticalParameters::Instance()->SetWLSVerbo << 
343 }                                                 405 }
344                                                   406