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Geant4/examples/advanced/xray_fluorescence/src/XrayFluoMercuryPrimaryGeneratorAction.cc

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Differences between /examples/advanced/xray_fluorescence/src/XrayFluoMercuryPrimaryGeneratorAction.cc (Version 11.3.0) and /examples/advanced/xray_fluorescence/src/XrayFluoMercuryPrimaryGeneratorAction.cc (Version 8.3.p1)


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 25 //                                                 25 //
 26 //                                                 26 //
                                                   >>  27 // $Id: XrayFluoPlanePrimaryGeneratorAction.cc
                                                   >>  28 // GEANT4 tag $Name: 
 27 //                                                 29 //
 28 // Author: Alfonso Mantero (Alfonso.Mantero@ge     30 // Author: Alfonso Mantero (Alfonso.Mantero@ge.infn.it)
 29 //                                                 31 //
 30 // History:                                        32 // History:
 31 // -----------                                     33 // -----------
 32 // 02 Sep 2003 Alfonso Mantero created             34 // 02 Sep 2003 Alfonso Mantero created
 33 //                                                 35 //
 34 // -------------------------------------------     36 // -------------------------------------------------------------------
 35                                                    37 
 36 #include "XrayFluoMercuryPrimaryGeneratorActio     38 #include "XrayFluoMercuryPrimaryGeneratorAction.hh"
                                                   >>  39 #include "G4DataVector.hh"
 37 #include "XrayFluoMercuryDetectorConstruction.     40 #include "XrayFluoMercuryDetectorConstruction.hh"
 38 #include "XrayFluoMercuryPrimaryGeneratorMesse     41 #include "XrayFluoMercuryPrimaryGeneratorMessenger.hh"
 39 #include "XrayFluoRunAction.hh"                    42 #include "XrayFluoRunAction.hh"
 40 #include "XrayFluoAnalysisManager.hh"          << 
 41 #include "XrayFluoDataSet.hh"                  << 
 42 #include "G4PhysicalConstants.hh"              << 
 43 #include "G4SystemOfUnits.hh"                  << 
 44 #include "G4DataVector.hh"                     << 
 45 #include "G4Event.hh"                              43 #include "G4Event.hh"
 46 #include "G4ParticleGun.hh"                        44 #include "G4ParticleGun.hh"
 47 #include "G4ParticleTable.hh"                      45 #include "G4ParticleTable.hh"
 48 #include "G4ParticleDefinition.hh"                 46 #include "G4ParticleDefinition.hh"
 49 #include "Randomize.hh"                            47 #include "Randomize.hh"
                                                   >>  48 #include "XrayFluoAnalysisManager.hh"
                                                   >>  49 #include "XrayFluoDataSet.hh"
 50                                                    50 
 51 //....oooOO0OOooo........oooOO0OOooo........oo     51 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 52                                                    52 
 53 XrayFluoMercuryPrimaryGeneratorAction::XrayFlu <<  53 XrayFluoMercuryPrimaryGeneratorAction::XrayFluoMercuryPrimaryGeneratorAction(XrayFluoMercuryDetectorConstruction* XrayFluoDC)
 54   :globalFlag(false),spectrum("off")               54   :globalFlag(false),spectrum("off")
 55 {                                                  55 {
 56                                                    56 
 57   XrayFluoDetector = XrayFluoDC;                   57   XrayFluoDetector = XrayFluoDC;
 58                                                    58 
 59   G4int n_particle = 1;                            59   G4int n_particle = 1;
 60   particleGun  = new G4ParticleGun(n_particle)     60   particleGun  = new G4ParticleGun(n_particle);
 61                                                    61   
 62   //create a messenger for this class              62   //create a messenger for this class
 63   gunMessenger = new XrayFluoMercuryPrimaryGen     63   gunMessenger = new XrayFluoMercuryPrimaryGeneratorMessenger(this);
 64   runManager = new XrayFluoRunAction();            64   runManager = new XrayFluoRunAction();
 65                                                    65   
 66   // default particle kinematic                    66   // default particle kinematic
 67                                                    67   
 68   G4ParticleTable* particleTable = G4ParticleT     68   G4ParticleTable* particleTable = G4ParticleTable::GetParticleTable();
 69   G4String particleName;                           69   G4String particleName;
 70   G4ParticleDefinition* particle                   70   G4ParticleDefinition* particle
 71     = particleTable->FindParticle(particleName     71     = particleTable->FindParticle(particleName="gamma");
 72   particleGun->SetParticleDefinition(particle)     72   particleGun->SetParticleDefinition(particle);
 73   particleGun->SetParticleMomentumDirection(G4     73   particleGun->SetParticleMomentumDirection(G4ThreeVector(0.,0.,-1.));
 74                                                    74   
 75                                                    75 
 76   particleGun->SetParticleEnergy(10.*keV);         76   particleGun->SetParticleEnergy(10.*keV);
 77   G4double position = -0.5*(XrayFluoDetector->     77   G4double position = -0.5*(XrayFluoDetector->GetWorldSizeZ());
 78   particleGun->SetParticlePosition(G4ThreeVect     78   particleGun->SetParticlePosition(G4ThreeVector(0.*cm,0.*cm,position));
 79                                                    79 
 80   G4cout << "XrayFluoMercuryPrimaryGeneratorAc     80   G4cout << "XrayFluoMercuryPrimaryGeneratorAction created" << G4endl;
 81                                                    81   
 82 }                                                  82 }
 83                                                    83 
 84                                                    84 
 85 //....oooOO0OOooo........oooOO0OOooo........oo     85 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 86                                                    86 
 87 XrayFluoMercuryPrimaryGeneratorAction::~XrayFl     87 XrayFluoMercuryPrimaryGeneratorAction::~XrayFluoMercuryPrimaryGeneratorAction()
 88 {                                                  88 {
 89   delete particleGun;                              89   delete particleGun;
 90   delete gunMessenger;                             90   delete gunMessenger;
 91   delete runManager;                               91   delete runManager;
 92                                                    92 
 93   G4cout << "XrayFluoMercuryPrimaryGeneratorAc     93   G4cout << "XrayFluoMercuryPrimaryGeneratorAction deleted" << G4endl;
 94                                                    94 
 95 }                                                  95 }
 96                                                    96 
 97 //....oooOO0OOooo........oooOO0OOooo........oo     97 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 98                                                    98 
 99 void XrayFluoMercuryPrimaryGeneratorAction::Ge     99 void XrayFluoMercuryPrimaryGeneratorAction::GeneratePrimaries(G4Event* anEvent)
100 {                                                 100 {
101   //this function is called at the begining of    101   //this function is called at the begining of event
102   //                                              102   // 
103                                                   103 
104   // Conidering the sunas a Poin-like source.     104   // Conidering the sunas a Poin-like source.
105                                                   105 
106   G4double z0 = -0.5*(XrayFluoDetector->GetWor    106   G4double z0 = -0.5*(XrayFluoDetector->GetWorldSizeZ());
107   G4double y0 = 0.*m, x0 = 0.*m;                  107   G4double y0 = 0.*m, x0 = 0.*m;
108                                                   108 
109                                                   109 
110   // Let's try to illuminate only the prtion o    110   // Let's try to illuminate only the prtion of Mercury surface that can be seen by the detector.
111                                                   111 
112   G4double spacecraftLatitude = XrayFluoDetect    112   G4double spacecraftLatitude = XrayFluoDetector->GetOrbitInclination();
113   G4double mercuryDia = XrayFluoDetector->GetM    113   G4double mercuryDia = XrayFluoDetector->GetMercuryDia();
114   G4double sunDia = XrayFluoDetector->GetSunDi    114   G4double sunDia = XrayFluoDetector->GetSunDia();
115   G4double opticField = XrayFluoDetector->GetO    115   G4double opticField = XrayFluoDetector->GetOpticAperture();
116                                                   116   
117                                                   117  
118   G4double a = 2*std::tan(opticField/2);          118   G4double a = 2*std::tan(opticField/2);
119                                                   119   
120   //  if (!pointLikeFlag) {                       120   //  if (!pointLikeFlag) {
121                                                   121 
122     // let's decide from wich point of the sun    122     // let's decide from wich point of the sun surface the particle is coming:
123                                                   123 
124   G4double theta = std::acos(2.*G4UniformRand( << 124     G4double theta = pi/2. * G4UniformRand();
125     G4double phi = 2. * pi * G4UniformRand();     125     G4double phi = 2. * pi * G4UniformRand();
126     G4double rho = sunDia/2;                      126     G4double rho = sunDia/2;                         
127                                                   127 
128     G4double sunPosX = x0 + rho * std::sin(the    128     G4double sunPosX = x0 + rho * std::sin(theta) * std::cos(phi);
129     G4double sunPosY = y0 + rho * std::sin(the    129     G4double sunPosY = y0 + rho * std::sin(theta) * std::sin(phi);
130     G4double sunPosZ = z0 + rho * std::cos(the    130     G4double sunPosZ = z0 + rho * std::cos(theta);           
131                                                   131 
132     particleGun->SetParticlePosition(G4ThreeVe    132     particleGun->SetParticlePosition(G4ThreeVector(sunPosX,sunPosY,sunPosZ));
133                                                   133 
134     // the angle at the center of Mercury subt    134     // the angle at the center of Mercury subtending the area seen by the optics:
135     G4double alpha = 2 * a/mercuryDia;            135     G4double alpha = 2 * a/mercuryDia; 
136                                                   136     
137     if(!globalFlag){                              137     if(!globalFlag){
138       theta = alpha * G4UniformRand() + (180.*    138       theta = alpha * G4UniformRand() + (180.*deg - spacecraftLatitude)-alpha/2.;
139       phi = alpha * G4UniformRand() + 90. * de    139       phi = alpha * G4UniformRand() + 90. * deg - alpha/2.;     
140     }                                             140     }    
141                                                   141     
142     else if(globalFlag){                          142     else if(globalFlag){
143       theta = pi/2. * rad * G4UniformRand() +     143       theta = pi/2. * rad * G4UniformRand() + 90.*deg ; //was 900., probably an error
144       phi = 2*pi*rad * G4UniformRand() ;          144       phi = 2*pi*rad * G4UniformRand() ;
145     }                                             145     }
146                                                   146     
147     rho = mercuryDia/2.;                          147     rho = mercuryDia/2.;                        
148                                                   148     
149     G4double mercuryPosX = rho * std::sin(thet    149     G4double mercuryPosX = rho * std::sin(theta) * std::cos(phi);
150     G4double mercuryPosY = rho * std::sin(thet    150     G4double mercuryPosY = rho * std::sin(theta) * std::sin(phi);
151     G4double mercuryPosZ = rho * std::cos(thet    151     G4double mercuryPosZ = rho * std::cos(theta);           
152                                                   152     
153     particleGun->SetParticleMomentumDirection(    153     particleGun->SetParticleMomentumDirection(
154           G4ThreeVector(mercuryPosX-sunPosX ,m    154           G4ThreeVector(mercuryPosX-sunPosX ,mercuryPosY-sunPosY,mercuryPosZ-sunPosZ));
155                                                   155 
156     //  }                                         156     //  }
157 //   if (pointLikeFlag) {                         157 //   if (pointLikeFlag) {
158                                                   158 
159 //   // theta is the angle that the mean direc    159 //   // theta is the angle that the mean direction of the incident light (on the desired 
160 //   // point of the surface of Mercury) makes    160 //   // point of the surface of Mercury) makes with  the Z-axis
161 //   G4double theta = std::asin( mercuryDia/2.    161 //   G4double theta = std::asin( mercuryDia/2. * std::sin(spacecraftLatitude) / 
162 //       std::sqrt(std::pow(z0,2)+std::pow(mer    162 //       std::sqrt(std::pow(z0,2)+std::pow(mercuryDia/2.,2)-2*mercuryDia/2.*z0*std::cos(spacecraftLatitude)) );  
163                                                   163 
164 //   // on the y axis, the light emitted from     164 //   // on the y axis, the light emitted from the Sun must be in [theta-phi;theta+phi]
165 //   G4double phi = std::asin( mercuryDia/2.*s    165 //   G4double phi = std::asin( mercuryDia/2.*std::sin(spacecraftLatitude) + a*std::cos(spacecraftLatitude) /
166 //           std::sqrt( std::pow(mercuryDia/2.    166 //           std::sqrt( std::pow(mercuryDia/2.*std::sin(spacecraftLatitude) + a*std::cos(spacecraftLatitude) , 2) +
167 //           std::pow(z0 - mercuryDia/2.*std::    167 //           std::pow(z0 - mercuryDia/2.*std::cos(spacecraftLatitude) - a*std::sin(spacecraftLatitude) , 2)) ) 
168 //     - theta;                                   168 //     - theta;  
169                                                   169   
170 //   // on the x axis, the light emitted from     170 //   // on the x axis, the light emitted from the Sun must be in [-zeta;zeta]
171 //   G4double zeta = std::atan( a/std::sqrt(st    171 //   G4double zeta = std::atan( a/std::sqrt(std::pow(z0,2)+std::pow(mercuryDia,2)-2*mercuryDia*z0*std::cos(spacecraftLatitude)) );
172                                                   172   
173                                                   173   
174                                                   174   
175 //   //alpha in [-zeta;zeta]                      175 //   //alpha in [-zeta;zeta]
176 //   G4double alpha = (2*zeta)*G4UniformRand()    176 //   G4double alpha = (2*zeta)*G4UniformRand() - zeta;
177 //   //beta in [theta-phi;theta+phi]              177 //   //beta in [theta-phi;theta+phi]
178 //   G4double beta = (G4UniformRand()*2*phi) -    178 //   G4double beta = (G4UniformRand()*2*phi) - phi + theta;
179                                                   179   
180 //   G4double dirY = std::sin(beta);              180 //   G4double dirY = std::sin(beta);
181 //   G4double dirX = std::sin(alpha);             181 //   G4double dirX = std::sin(alpha);
182                                                   182   
183 //   particleGun->SetParticleMomentumDirection    183 //   particleGun->SetParticleMomentumDirection(G4ThreeVector(dirX.,dirY,1.));
184                                                   184   
185 //   particleGun->SetParticlePosition(G4ThreeV    185 //   particleGun->SetParticlePosition(G4ThreeVector(x0,y0,z0));
186                                                   186 
187 //   }                                            187 //   }
188                                                   188 
189                                                   189 
190                                                   190   
191   //shoot particles according to a certain spe    191   //shoot particles according to a certain spectrum
192   if (spectrum =="on")                            192   if (spectrum =="on")
193     {                                             193     {
194       G4String particle =  particleGun->GetPar    194       G4String particle =  particleGun->GetParticleDefinition()
195   ->GetParticleName();                            195   ->GetParticleName();
196       if(particle == "proton"|| particle == "a    196       if(particle == "proton"|| particle == "alpha")
197   {                                               197   {
198     G4DataVector* energies =  runManager->GetE    198     G4DataVector* energies =  runManager->GetEnergies();
199     G4DataVector* data =  runManager->GetData(    199     G4DataVector* data =  runManager->GetData();
200                                                   200    
201     G4double sum = runManager->GetDataSum();      201     G4double sum = runManager->GetDataSum();
202     G4double partSum = 0;                         202     G4double partSum = 0;
203     G4int j = 0;                                  203     G4int j = 0;
204     G4double random= sum*G4UniformRand();         204     G4double random= sum*G4UniformRand();
205     while (partSum<random)                        205     while (partSum<random)
206       {                                           206       {
207         partSum += (*data)[j];                    207         partSum += (*data)[j];
208         j++;                                      208         j++;
209       }                                           209       }
210                                                   210    
211     particleGun->SetParticleEnergy((*energies)    211     particleGun->SetParticleEnergy((*energies)[j]);
212                                                   212   
213   }                                               213   }
214       else if (particle == "gamma")               214       else if (particle == "gamma")
215   {                                               215   {
216     const XrayFluoDataSet* dataSet = runManage    216     const XrayFluoDataSet* dataSet = runManager->GetGammaSet();
217                                                   217     
218     G4int i = 0;                                  218     G4int i = 0;
219     G4int id = 0;                                 219     G4int id = 0;
220     G4double minEnergy = 0. * keV;                220     G4double minEnergy = 0. * keV;
221     G4double particleEnergy= 0.;                  221     G4double particleEnergy= 0.;
222     G4double maxEnergy = 10. * keV;               222     G4double maxEnergy = 10. * keV;
223     G4double energyRange = maxEnergy - minEner    223     G4double energyRange = maxEnergy - minEnergy;
224                                                   224 
225      while ( i == 0)                              225      while ( i == 0)
226       {                                           226       {
227         G4double random = G4UniformRand();        227         G4double random = G4UniformRand();
228                                                   228         
229         G4double randomNum = G4UniformRand();     229         G4double randomNum = G4UniformRand(); //*5.0E6;
230                                                   230         
231         particleEnergy = (random*energyRange)     231         particleEnergy = (random*energyRange) + minEnergy;
232                                                   232         
233         if ((dataSet->FindValue(particleEnergy    233         if ((dataSet->FindValue(particleEnergy,id)) > randomNum)
234     {                                             234     {
235       i = 1;                                      235       i = 1;
236                                                   236       
237     }                                             237     }
238       }                                           238       }
239      particleGun->SetParticleEnergy(particleEn    239      particleGun->SetParticleEnergy(particleEnergy);
240   }                                               240   }
241     }                                             241     }
242                                                   242   
243                                                   243 
244 #ifdef G4ANALYSIS_USE                             244 #ifdef G4ANALYSIS_USE 
245                                                   245 
246   G4double partEnergy = particleGun->GetPartic    246   G4double partEnergy = particleGun->GetParticleEnergy();
247   XrayFluoAnalysisManager* analysis =  XrayFlu    247   XrayFluoAnalysisManager* analysis =  XrayFluoAnalysisManager::getInstance();
248   analysis->analysePrimaryGenerator(partEnergy    248   analysis->analysePrimaryGenerator(partEnergy/keV);
249                                                   249 
250 #endif                                            250 #endif
251                                                   251 
252   particleGun->GeneratePrimaryVertex(anEvent);    252   particleGun->GeneratePrimaryVertex(anEvent);
253 }                                                 253 }
254                                                   254 
255 //....oooOO0OOooo........oooOO0OOooo........oo    255 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
256                                                   256 
257                                                   257 
258                                                   258 
259                                                   259 
260                                                   260 
261                                                   261 
262                                                   262 
263                                                   263 
264                                                   264 
265                                                   265