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Geant4/examples/advanced/gammaray_telescope/src/GammaRayTelDetectorConstruction.cc

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Differences between /examples/advanced/gammaray_telescope/src/GammaRayTelDetectorConstruction.cc (Version 11.3.0) and /examples/advanced/gammaray_telescope/src/GammaRayTelDetectorConstruction.cc (Version 9.4)


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                                                   >>  27 // $Id: GammaRayTelDetectorConstruction.cc,v 1.15 2006/06/29 15:56:22 gunter Exp $
                                                   >>  28 // GEANT4 tag $Name: geant4-09-02 $
 27 // -------------------------------------------     29 // ------------------------------------------------------------
 28 //      GEANT 4 class implementation file          30 //      GEANT 4 class implementation file
 29 //      CERN Geneva Switzerland                    31 //      CERN Geneva Switzerland
 30 //                                                 32 //
 31 //                                                 33 //
 32 //      ------------ GammaRayTelDetectorConstr     34 //      ------------ GammaRayTelDetectorConstruction  ------
 33 //           by F.Longo, R.Giannitrapani & G.S     35 //           by F.Longo, R.Giannitrapani & G.Santin (13 nov 2000)
 34 //                                                 36 //
 35 // *******************************************     37 // ************************************************************
                                                   >>  38 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
                                                   >>  39 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 36                                                    40 
 37 #include "GammaRayTelAnticoincidenceSD.hh"     << 
 38 #include "GammaRayTelCalorimeterSD.hh"         << 
 39 #include "GammaRayTelDetectorConstruction.hh"      41 #include "GammaRayTelDetectorConstruction.hh"
 40 #include "GammaRayTelDetectorMessenger.hh"         42 #include "GammaRayTelDetectorMessenger.hh"
                                                   >>  43 
 41 #include "GammaRayTelTrackerSD.hh"                 44 #include "GammaRayTelTrackerSD.hh"
                                                   >>  45 #include "GammaRayTelTrackerROGeometry.hh"
                                                   >>  46 
                                                   >>  47 #include "GammaRayTelAnticoincidenceSD.hh"
                                                   >>  48 #include "GammaRayTelCalorimeterSD.hh"
 42                                                    49 
 43 #include "G4AutoDelete.hh"                     <<  50 #include "G4Material.hh"
 44 #include "G4Box.hh"                                51 #include "G4Box.hh"
 45 #include "G4Colour.hh"                         << 
 46 #include "G4FieldManager.hh"                   << 
 47 #include "G4GlobalMagFieldMessenger.hh"        << 
 48 #include "G4LogicalVolume.hh"                      52 #include "G4LogicalVolume.hh"
 49 #include "G4Material.hh"                       << 
 50 #include "G4PhysicalConstants.hh"              << 
 51 #include "G4PVPlacement.hh"                        53 #include "G4PVPlacement.hh"
 52 #include "G4PVReplica.hh"                          54 #include "G4PVReplica.hh"
 53 #include "G4RegionStore.hh"                    << 
 54 #include "G4RunManager.hh"                     << 
 55 #include "G4SDManager.hh"                      << 
 56 #include "G4SystemOfUnits.hh"                  << 
 57 #include "G4TransportationManager.hh"          << 
 58 #include "G4UImanager.hh"                      << 
 59 #include "G4UniformMagField.hh"                    55 #include "G4UniformMagField.hh"
                                                   >>  56 #include "G4FieldManager.hh"
                                                   >>  57 #include "G4TransportationManager.hh"
                                                   >>  58 #include "G4SDManager.hh"
                                                   >>  59 #include "G4RunManager.hh"
                                                   >>  60 
 60 #include "G4VisAttributes.hh"                      61 #include "G4VisAttributes.hh"
                                                   >>  62 #include "G4Colour.hh"
 61                                                    63 
 62 //....oooOO0OOooo........oooOO0OOooo........oo <<  64 #include "G4ios.hh"
                                                   >>  65 #include "G4RegionStore.hh"
 63                                                    66 
 64 G4ThreadLocal G4GlobalMagFieldMessenger *Gamma <<  67 
                                                   >>  68 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 65                                                    69 
 66 GammaRayTelDetectorConstruction::GammaRayTelDe     70 GammaRayTelDetectorConstruction::GammaRayTelDetectorConstruction()
                                                   >>  71   :solidWorld(0),logicWorld(0),physiWorld(0),
                                                   >>  72    solidPayload(0),logicPayload(0),physiPayload(0),
                                                   >>  73    solidTKR(0),logicTKR(0),physiTKR(0),
                                                   >>  74    solidCAL(0),logicCAL(0),physiCAL(0),
                                                   >>  75    solidACT(0),logicACT(0),physiACT(0),
                                                   >>  76    solidACL1(0),logicACL1(0),physiACL1(0),
                                                   >>  77    solidACL2(0),logicACL2(0),physiACL2(0),
                                                   >>  78    solidTKRDetectorX(0),logicTKRDetectorX(0),physiTKRDetectorX(0),
                                                   >>  79    solidTKRDetectorY(0),logicTKRDetectorY(0),physiTKRDetectorY(0),
                                                   >>  80    solidCALLayerX(0),logicCALLayerX(0),physiCALLayerX(0),
                                                   >>  81    solidCALLayerY(0),logicCALLayerY(0),physiCALLayerY(0),
                                                   >>  82    solidCALDetectorX(0),logicCALDetectorX(0),physiCALDetectorX(0),
                                                   >>  83    solidCALDetectorY(0),logicCALDetectorY(0),physiCALDetectorY(0),
                                                   >>  84    solidPlane(0),logicPlane(0),physiPlane(0),
                                                   >>  85    solidConverter(0),logicConverter(0),physiConverter(0),
                                                   >>  86    trackerSD(0),calorimeterSD(0),anticoincidenceSD(0),
                                                   >>  87    aTKRRegion(0), aCALRegion(0)
 67 {                                                  88 {
 68   // Initialize thread-local sensitive detecto <<  89   // default parameter values of the payload
 69   trackerSD.Put(nullptr);                      <<  90   
 70   calorimeterSD.Put(nullptr);                  <<  91   ConverterThickness = 300.*micrometer;
 71   anticoincidenceSD.Put(nullptr);              <<  92   TKRSiliconThickness = 400.*micrometer;
 72                                                <<  93   TKRSiliconTileXY = 9.*cm;
 73   ComputePayloadParameters();                  <<  94   TKRSiliconPitch = 200.*micrometer; 
 74                                                <<  95   TKRLayerDistance = 3.*cm;
 75   // create commands for interactive definitio <<  96   SiliconGuardRing = 1.5*mm;
 76   detectorMessenger = new GammaRayTelDetectorM <<  97   TKRViewsDistance = 1.*mm;
 77 }                                              <<  98   NbOfTKRLayers = 15;
 78                                                <<  99   NbOfTKRTiles = 4;
 79 //....oooOO0OOooo........oooOO0OOooo........oo << 100   CALBarThickness = 1.5*cm;
 80                                                << 101   NbOfCALBars = 12;
 81 GammaRayTelDetectorConstruction::~GammaRayTelD << 102   NbOfCALLayers = 5;
 82   delete detectorMessenger;                    << 103   ACDThickness = 1.*cm;
 83 }                                              << 104   NbOfACDTopTiles = 1;
 84                                                << 105   NbOfACDLateralTiles = 2;
 85 //....oooOO0OOooo........oooOO0OOooo........oo << 
 86                                                << 
 87 auto GammaRayTelDetectorConstruction::Construc << 
 88   DefineMaterials();                           << 
 89   return ConstructPayload();                   << 
 90 }                                              << 
 91                                                << 
 92 //....oooOO0OOooo........oooOO0OOooo........oo << 
 93                                                << 
 94 void GammaRayTelDetectorConstruction::DefineMa << 
 95   G4String name;                               << 
 96   G4String symbol;                             << 
 97                                                << 
 98   G4int numberOfAtoms;                         << 
 99   G4int numberOfComponents;                    << 
100                                                << 
101   //                                           << 
102   // define Elements                           << 
103   //                                           << 
104                                                << 
105   constexpr auto HYDROGEN_ATOMIC_NUMBER{1.};   << 
106   constexpr auto HYDROGEN_MOLAR_MASS{1.01 * g  << 
107   auto *hydrogen = new G4Element(name = "Hydro << 
108                                                << 
109   constexpr auto CARBON_ATOMIC_NUMBER{6.};     << 
110     constexpr auto CARBON_MOLAR_MASS{12.01 * g << 
111   auto *carbon = new G4Element(name = "Carbon" << 
112                                                << 
113   constexpr auto NITROGEN_ATOMIC_NUMBER{7.};   << 
114     constexpr auto NITROGEN_MOLAR_MASS{14.006  << 
115   auto *nitrogen = new G4Element(name = "Nitro << 
116                                                << 
117   constexpr auto OXYGEN_ATOMIC_NUMBER{8.};     << 
118   constexpr auto OXYGEN_MOLAR_MASS{15.99 * g / << 
119   auto *oxygen = new G4Element(name = "Oxygen" << 
120                                                << 
121   constexpr auto ALUMINIUM_ATOMIC_NUMBER{13.}; << 
122     constexpr auto ALUMINIUM_MOLAR_MASS{26.98  << 
123   auto *aluminium = new G4Element(name = "Alum << 
124                                                << 
125     constexpr auto SILICON_ATOMIC_NUMBER{14.}; << 
126     constexpr auto SILICON_MOLAR_MASS{28.09 *  << 
127   auto *silicon = new G4Element(name = "Silico << 
128                                                << 
129     constexpr auto IRON_ATOMIC_NUMBER{26.};    << 
130     constexpr auto IRON_MOLAR_MASS{55.845 * g  << 
131   auto *iron = new G4Element(name = "Iron", sy << 
132                                                << 
133     constexpr auto IODINE_ATOMIC_NUMBER{53.};  << 
134     constexpr auto IODINE_MOLAR_MASS{126.904 * << 
135   auto *iodine = new G4Element(name = "Iodine" << 
136                                                << 
137     constexpr auto CESIUM_ATOMIC_NUMBER{55};   << 
138     constexpr auto CESIUM_MOLAR_MASS{132.905 * << 
139   auto *cesium = new G4Element(name = "Cesium" << 
140                                                << 
141     constexpr auto LEAD_ATOMIC_NUMBER{82};     << 
142     constexpr auto LEAD_MOLAR_MASS{207.19 * g  << 
143   auto *lead = new G4Element(name = "Lead", sy << 
144                                                << 
145   //                                           << 
146   // define simple materials                   << 
147   //                                           << 
148                                                << 
149     constexpr auto TUNGSTEN_ATOMIC_NUMBER{74.} << 
150     constexpr auto TUNGSTEN_DENSITY{19.3 * g / << 
151     constexpr auto TUNGSTEN_MOLAR_MASS{183.84  << 
152   auto *tungsten = new G4Material(name = "Tung << 
153                                                << 
154   //                                           << 
155   // Define a material from elements.          << 
156   // Case 1: chemical molecule                 << 
157   //                                           << 
158                                                << 
159   constexpr auto SCINTILLATOR_MATERIAL_DENSITY << 
160   auto *scintillatorMaterial = new G4Material( << 
161   scintillatorMaterial->AddElement(carbon, num << 
162   scintillatorMaterial->AddElement(hydrogen, n << 
163                                                << 
164   constexpr auto CESIUM_IODIDE_DENSITY{4.53 *  << 
165   auto *cesiumIodide = new G4Material(name = " << 
166   cesiumIodide->AddElement(cesium, numberOfAto << 
167   cesiumIodide->AddElement(iodine, numberOfAto << 
168                                                << 
169   //                                           << 
170   // Define a material from elements.          << 
171   // Case 2: mixture by fractional mass        << 
172   //                                           << 
173                                                << 
174   constexpr auto AIR_DENSITY{1.290 * mg / cm3} << 
175   constexpr auto AIR_NITROGEN_MASS_FRACTION{0. << 
176   constexpr auto AIR_OXYGEN_MASS_FRACTION{0.3} << 
177                                                << 
178   auto *air = new G4Material(name = "Air", AIR << 
179   air->AddElement(nitrogen, AIR_NITROGEN_MASS_ << 
180   air->AddElement(oxygen, AIR_OXYGEN_MASS_FRAC << 
181                                                << 
182   constexpr auto ALUMINIUM_DENSITY{2.700 * g / << 
183   constexpr auto ALUMINIUM_MASS_FRACTION{1.};  << 
184   auto *Al = new G4Material(name = "Aluminum", << 
185   Al->AddElement(aluminium, ALUMINIUM_MASS_FRA << 
186                                                << 
187   constexpr auto SILICON_DENSITY{2.333 * g / c << 
188   constexpr auto SILICON_MASS_FRACTION{1.};    << 
189   auto *Si = new G4Material(name = "Silicon",  << 
190   Si->AddElement(silicon, SILICON_MASS_FRACTIO << 
191                                                << 
192   constexpr auto IRON_DENSITY{7.87 * g / cm3}; << 
193   constexpr auto IRON_MASS_FRACTION{1.};       << 
194   auto *Fe = new G4Material(name = "Iron", IRO << 
195   Fe->AddElement(iron, IRON_MASS_FRACTION);    << 
196                                                << 
197   constexpr auto LEAD_DENSITY{11.35 * g / cm3} << 
198   constexpr auto LEAD_MASS_FRACTION{1.};       << 
199   auto *Pb = new G4Material(name = "Lead", LEA << 
200   Pb->AddElement(lead, LEAD_MASS_FRACTION);    << 
201                                                << 
202   //                                           << 
203   // examples of vacuum                        << 
204   //                                           << 
205   constexpr auto VACUUM_ATOMIC_NUMBER{1.};     << 
206   constexpr auto VACUUM_DENSITY{universe_mean_ << 
207   constexpr auto VACUUM_MOLAR_MASS{1.01 * g /  << 
208     constexpr auto VACUUM_PRESSURE{3.e-18 * pa << 
209     constexpr auto VACUUM_TEMPERATURE{2.73 * k << 
210   auto *vacuum = new G4Material(name = "Galact << 
211                                                << 
212   constexpr auto BEAM_DENSITY{1.e-5 * g / cm3} << 
213   constexpr auto BEAM_MASS_FRACTION{1.};       << 
214   constexpr auto BEAM_PRESSURE{2.e-2 * bar};   << 
215   constexpr auto BEAM_TEMPERATURE{STP_Temperat << 
216   auto *beam = new G4Material(name = "Beam", B << 
217   beam->AddMaterial(air, BEAM_MASS_FRACTION);  << 
218                                                << 
219   G4cout << *(G4Material::GetMaterialTable())  << 
220                                                << 
221   // default materials of the payload          << 
222                                                << 
223     defaultMaterial = vacuum;                  << 
224                                                << 
225   converterMaterial = tungsten;                << 
226   acdMaterial = scintillatorMaterial; // antic << 
227   calMaterial = cesiumIodide; // calorimeter ( << 
228   tkrMaterial = Si; // tracker (TKR)           << 
229 }                                              << 
230                                                << 
231 //....oooOO0OOooo........oooOO0OOooo........oo << 
232                                                << 
233 auto GammaRayTelDetectorConstruction::Construc << 
234   // complete the payload parameters definitio << 
235   ComputePayloadParameters();                  << 
236                                                << 
237   //                                           << 
238   // World                                     << 
239   //                                           << 
240                                                << 
241   solidWorld = new G4Box("World", worldSizeXY  << 
242   logicWorld = new G4LogicalVolume(solidWorld, << 
243   physiWorld = new G4PVPlacement(nullptr, G4Th << 
244                                                << 
245   //                                           << 
246   // Payload                                   << 
247   //                                           << 
248                                                << 
249   solidPayload = new G4Box("Payload", payloadS << 
250   logicPayload = new G4LogicalVolume(solidPayl << 
251   physiPayload = new G4PVPlacement(nullptr, G4 << 
252                                                << 
253   //                                           << 
254   // Calorimeter (CAL)                         << 
255   //                                           << 
256                                                << 
257   solidCAL = new G4Box("CAL", calSizeXY / 2, c << 
258   logicCAL = new G4LogicalVolume(solidCAL, def << 
259   physiCAL = new G4PVPlacement(nullptr,        << 
260           G4ThreeVector(0, 0,                  << 
261                   -payloadSizeZ / 2 + calSizeZ << 
262             "CAL", logicCAL, physiPayload, fal << 
263                                                << 
264   //                                           << 
265   // Tracker (TKR)                             << 
266   //                                           << 
267                                                << 
268   solidTKR = new G4Box("TKR", tkrSizeXY / 2, t << 
269   logicTKR = new G4LogicalVolume(solidTKR, def << 
270   physiTKR = new G4PVPlacement(nullptr,        << 
271           G4ThreeVector(0, 0,                  << 
272                   -payloadSizeZ / 2 + calSizeZ << 
273                       + tkrSizeZ / 2),         << 
274             "TKR", logicTKR, physiPayload, fal << 
275                                                << 
276   //                                           << 
277   // Anticoincidence, Top Side (ACT)           << 
278   //                                           << 
279                                                << 
280   solidACT = new G4Box("ACT", actSizeXY / 2, a << 
281   logicACT = new G4LogicalVolume(solidACT, acd << 
282   physiACT = new G4PVPlacement(nullptr,        << 
283       G4ThreeVector(0, 0,                      << 
284           -payloadSizeZ / 2 + calSizeZ + calTK << 
285               + acdTKRDistance + actSizeZ / 2) << 
286             "ACT", logicACT, physiPayload, fal << 
287                                                << 
288   //                                           << 
289   // Anticoincidence, Lateral Side (ACL)       << 
290   //                                           << 
291                                                << 
292   solidACL1 = new G4Box("ACL1", acl1SizeX / 2, << 
293   logicACL1 = new G4LogicalVolume(solidACL1, a << 
294                                                << 
295   physiACL1 = new G4PVPlacement(nullptr,       << 
296       G4ThreeVector(-payloadSizeXY / 2 + acl1S << 
297           -payloadSizeXY / 2 + acl1SizeY / 2,  << 
298           -payloadSizeZ / 2 + acl1SizeZ / 2),  << 
299             "ACL1", logicACL1, physiPayload, f << 
300                                                << 
301   physiACL1 = new G4PVPlacement(nullptr,       << 
302       G4ThreeVector(payloadSizeXY / 2 - acl1Si << 
303           payloadSizeXY / 2 - acl1SizeY / 2,   << 
304           -payloadSizeZ / 2 + acl1SizeZ / 2),  << 
305             "ACL1", logicACL1, physiPayload, f << 
306                                                << 
307   solidACL2 = new G4Box("ACL2", acl2SizeX / 2, << 
308   logicACL2 = new G4LogicalVolume(solidACL2, a << 
309                                                << 
310   physiACL2 = new G4PVPlacement(nullptr,       << 
311       G4ThreeVector(-payloadSizeXY / 2 + acl2S << 
312           payloadSizeXY / 2 - acl2SizeY / 2,   << 
313           -payloadSizeZ / 2 + acl2SizeZ / 2),  << 
314             "ACL2", logicACL2, physiPayload, f << 
315                                                << 
316   physiACL2 = new G4PVPlacement(nullptr,       << 
317       G4ThreeVector(payloadSizeXY / 2 - acl2Si << 
318           -payloadSizeXY / 2 + acl2SizeY / 2,  << 
319           -payloadSizeZ / 2 + acl2SizeZ / 2),  << 
320             "ACL2", logicACL2, physiPayload, f << 
321                                                << 
322   //                                           << 
323   // Tracker Structure (Plane + Converter + TK << 
324   //                                           << 
325                                                << 
326   solidPlane = new G4Box("Plane", tkrSizeXY /  << 
327   logicPlane = new G4LogicalVolume(solidPlane, << 
328                                                << 
329   solidTKRDetectorY = new G4Box("TKRDetectorY" << 
330   logicTKRDetectorY = new G4LogicalVolume(soli << 
331                                                << 
332   solidTKRDetectorX = new G4Box("TKRDetectorX" << 
333   logicTKRDetectorX = new G4LogicalVolume(soli << 
334                                                << 
335   solidConverter = new G4Box("Converter", tkrS << 
336   logicConverter = new G4LogicalVolume(solidCo << 
337                                                << 
338   G4int i = 0;                                 << 
339                                                << 
340   for (i = 0; i < numberOfTKRLayers; i++) {    << 
341     physiTKRDetectorY = new G4PVPlacement(null << 
342             G4ThreeVector(0., 0.,              << 
343                 -tkrSizeZ / 2 + tkrSiliconThic << 
344                     + (i) * tkrLayerDistance), << 
345             "TKRDetectorY", logicTKRDetectorY, << 
346                                                << 
347     physiTKRDetectorX = new G4PVPlacement(null << 
348             G4ThreeVector(0., 0.,              << 
349                 -tkrSizeZ / 2 + tkrSiliconThic << 
350                     + tkrViewsDistance + tkrSi << 
351                     + (i) * tkrLayerDistance), << 
352             "TKRDetectorX", logicTKRDetectorX, << 
353                                                << 
354     physiConverter = new G4PVPlacement(nullptr << 
355             G4ThreeVector(0., 0.,              << 
356                 -tkrSizeZ / 2 + 2 * tkrSilicon << 
357                     + tkrViewsDistance + conve << 
358                     + (i) * tkrLayerDistance), << 
359             "Converter", logicConverter, physi << 
360                                                << 
361     physiPlane = new G4PVPlacement(nullptr,    << 
362             G4ThreeVector(0., 0.,              << 
363                 -tkrSizeZ / 2 + 2 * tkrSilicon << 
364                     + tkrViewsDistance + conve << 
365                     + tkrSupportThickness / 2  << 
366                     + (i) * tkrLayerDistance), << 
367             "Plane", logicPlane, physiTKR, fal << 
368   }                                            << 
369                                                   106 
370   auto *solidTKRActiveTileX = new G4Box("Activ << 107   TilesSeparation = 100.*micrometer;
371   auto *solidTKRActiveTileY = new G4Box("Activ << 108   ACDTKRDistance = 5.*cm;
                                                   >> 109   CALTKRDistance = 1.5*cm;
372                                                   110 
373   auto *logicTKRActiveTileX = new G4LogicalVol << 111   ComputePayloadParameters();
374   auto *logicTKRActiveTileY = new G4LogicalVol << 
375                                                   112 
376   G4int j = 0;                                 << 113   // create commands for interactive definition of the payload
377   G4int k = 0;                                 << 114   detectorMessenger = new GammaRayTelDetectorMessenger(this);
378                                                   115 
379   G4double x = 0.;                             << 116 }
380   G4double y = 0.;                             << 
381   G4double z = 0.;                             << 
382                                                << 
383   for (i = 0; i < numberOfTKRTiles; i++) {     << 
384     for (j = 0; j < numberOfTKRTiles; j++) {   << 
385       k = i * numberOfTKRTiles + j;            << 
386                                                << 
387       x = -tkrSizeXY / 2 + tilesSeparation + s << 
388                     + tkrActiveTileXY / 2      << 
389                     + (i)                      << 
390                         * ((2 * siliconGuardRi << 
391                             + tkrActiveTileXY) << 
392                                                << 
393       y = -tkrSizeXY / 2 + tilesSeparation + s << 
394           + tkrActiveTileXY / 2                << 
395           + (j)                                << 
396                         * ((2 * siliconGuardRi << 
397                             + tkrActiveTileXY) << 
398       z = 0.;                                  << 
399                                                << 
400       new G4PVPlacement(nullptr, G4ThreeVector << 
401                                                << 
402       x = -tkrSizeXY / 2 + tilesSeparation + s << 
403           + tkrActiveTileXY / 2                << 
404           + (j)                                << 
405                         * ((2 * siliconGuardRi << 
406                             + tkrActiveTileXY) << 
407                                                << 
408       y = -tkrSizeXY / 2 + tilesSeparation + s << 
409           + tkrActiveTileXY / 2                << 
410           + (i)                                << 
411                         * ((2 * siliconGuardRi << 
412                             + tkrActiveTileXY) << 
413       z = 0.;                                  << 
414                                                << 
415       new G4PVPlacement(nullptr, G4ThreeVector << 
416     }                                          << 
417   }                                            << 
418                                                   117 
419   // Strips                                    << 118 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
420                                                   119 
421   // Silicon Strips                            << 120 GammaRayTelDetectorConstruction::~GammaRayTelDetectorConstruction()
                                                   >> 121 { delete detectorMessenger;}
422                                                   122 
423   /*                                           << 123 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
424     G4double tkrXStripX{0.};                   << 
425     G4double tkrYStripY{0.};                   << 
426     G4double tkrYStripX{0.};                   << 
427     G4double tkrXStripY{0.};                   << 
428   */                                           << 
429                                                << 
430   tkrXStripX = tkrYStripY = tkrSiliconPitch;   << 
431   tkrYStripX = tkrXStripY = tkrActiveTileXY;   << 
432   tkrZStrip = tkrSiliconThickness;             << 
433                                                << 
434   auto *solidTKRStripX = new G4Box("Strip X",  << 
435   logicTKRStripX = new G4LogicalVolume(solidTK << 
436                                                << 
437   auto *solidTKRStripY = new G4Box("Strip Y",  << 
438   logicTKRStripY = new G4LogicalVolume(solidTK << 
439                                                << 
440   for (i = 0; i < numberOfTKRStrips; i++) {    << 
441     new G4PVPlacement(nullptr,                 << 
442             G4ThreeVector(                     << 
443                 -tkrActiveTileXY / 2 + tkrSili << 
444                     + (i) * tkrSiliconPitch, 0 << 
445             logicTKRStripX, "Strip X", logicTK << 
446                                                << 
447     new G4PVPlacement(nullptr,                 << 
448             G4ThreeVector(0.,                  << 
449                 -tkrActiveTileXY / 2 + tkrSili << 
450                     + (i) * tkrSiliconPitch, 0 << 
451             logicTKRStripY, "Strip Y", logicTK << 
452   }                                            << 
453                                                   124 
454   //                                           << 125 G4VPhysicalVolume* GammaRayTelDetectorConstruction::Construct()
455   // Calorimeter Structure (CALLayerX + CALLay << 126 {
456   //                                           << 127   DefineMaterials();
457                                                << 128   return ConstructPayload();
458   solidCALLayerX = new G4Box("CALLayerX", calS << 129 }
459   logicCALLayerX = new G4LogicalVolume(solidCA << 
460                                                << 
461   solidCALLayerY = new G4Box("CALLayerY", calS << 
462   logicCALLayerY = new G4LogicalVolume(solidCA << 
463                                                << 
464   for (i = 0; i < numberOfCALLayers; i++) {    << 
465     physiCALLayerY = new G4PVPlacement(nullptr << 
466             G4ThreeVector(0, 0,                << 
467                 -calSizeZ / 2 + calBarThicknes << 
468                     + (i) * 2 * calBarThicknes << 
469             "CALLayerY", logicCALLayerY, physi << 
470                                                << 
471     physiCALLayerX = new G4PVPlacement(nullptr << 
472             G4ThreeVector(0, 0,                << 
473                 -calSizeZ / 2 + calBarThicknes << 
474                     + (i) * 2 * calBarThicknes << 
475             "CALLayerX", logicCALLayerX, physi << 
476   }                                            << 
477                                                   130 
478   //                                           << 131 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
479   // Calorimeter Structure (CALDetectorX + CAL << 
480   //                                           << 
481                                                << 
482   solidCALDetectorX = new G4Box("CALDetectorX" << 
483   logicCALDetectorX = new G4LogicalVolume(soli << 
484                                                << 
485   solidCALDetectorY = new G4Box("CALDetectorY" << 
486   logicCALDetectorY = new G4LogicalVolume(soli << 
487                                                << 
488   for (i = 0; i < numberOfCALBars; i++) {      << 
489     physiCALDetectorY = new G4PVPlacement(null << 
490             G4ThreeVector(-calSizeXY / 2 + cal << 
491             logicCALDetectorY, "CALDetectorY", << 
492                                                << 
493     physiCALDetectorX = new G4PVPlacement(null << 
494             G4ThreeVector(0, -calSizeXY / 2 +  << 
495             logicCALDetectorX, "CALDetectorX", << 
496   }                                            << 
497                                                   132 
498 /*                                             << 133 void GammaRayTelDetectorConstruction::DefineMaterials()
499      // Cuts by Region                         << 134 { 
                                                   >> 135   
                                                   >> 136   G4String name, symbol;    
                                                   >> 137   G4double a, z, density;            
                                                   >> 138   
                                                   >> 139   G4int ncomponents, natoms;
                                                   >> 140   G4double fractionmass;
                                                   >> 141   G4double temperature, pressure;
                                                   >> 142 
                                                   >> 143   //
                                                   >> 144   // define Elements
                                                   >> 145   //
                                                   >> 146   
                                                   >> 147   a = 1.01*g/mole;
                                                   >> 148   G4Element* H  = new G4Element(name="Hydrogen",symbol="H" , z= 1., a);
                                                   >> 149   
                                                   >> 150   a = 12.01*g/mole;
                                                   >> 151   G4Element* C  = new G4Element(name="Carbon"  ,symbol="C" , z= 6., a);
                                                   >> 152 
                                                   >> 153   a = 14.006*g/mole;
                                                   >> 154   G4Element* N  = new G4Element(name="Nitrogen"  ,symbol="N" , z= 7., a);
                                                   >> 155   
                                                   >> 156   a = 15.99*g/mole;
                                                   >> 157   G4Element* O  = new G4Element(name="Oxygen"  ,symbol="O" , z= 8., a);
                                                   >> 158 
                                                   >> 159   a = 26.98*g/mole;
                                                   >> 160   G4Element* Alumin = new G4Element(name="Aluminum"  ,symbol="Al" , z= 13., a);
                                                   >> 161 
                                                   >> 162   a = 28.09*g/mole;
                                                   >> 163   G4Element* Silicon = new G4Element(name="Silicon", symbol="Si", z=14., a);
                                                   >> 164   
                                                   >> 165   a= 55.845*g/mole;
                                                   >> 166   G4Element* Iron = new G4Element(name="Iron", symbol="Fe", z=26.,a);
                                                   >> 167 
                                                   >> 168   a = 126.904*g/mole;
                                                   >> 169   G4Element* I  = new G4Element(name="Iodine"  ,symbol="I" , z= 53., a);
                                                   >> 170   
                                                   >> 171   a = 132.905*g/mole;
                                                   >> 172   G4Element* Cs  = new G4Element(name="Cesium"  ,symbol="Cs" , z= 55., a);
                                                   >> 173 
                                                   >> 174   a = 207.19*g/mole;
                                                   >> 175   G4Element* Lead = new G4Element(name="Lead", symbol="Pb", z=82., a);
                                                   >> 176 
                                                   >> 177   //
                                                   >> 178   // define simple materials
                                                   >> 179   //
                                                   >> 180 
                                                   >> 181   density = 19.3*g/cm3;
                                                   >> 182   a = 183.84*g/mole;
                                                   >> 183   G4Material* W = new G4Material(name="Tungsten", z=74., a, density);
                                                   >> 184   
                                                   >> 185       
                                                   >> 186   //
                                                   >> 187   // define a material from elements.   case 1: chemical molecule
                                                   >> 188   //
                                                   >> 189   
                                                   >> 190   density = 1.032*g/cm3;
                                                   >> 191   G4Material* Sci = new G4Material(name="Scintillator", density, ncomponents=2);
                                                   >> 192   Sci->AddElement(C, natoms=9);
                                                   >> 193   Sci->AddElement(H, natoms=10);
                                                   >> 194   
                                                   >> 195   density = 4.53*g/cm3;
                                                   >> 196   G4Material* CsI = new G4Material(name="CesiumIodide", density, ncomponents=2);
                                                   >> 197   CsI->AddElement(Cs, natoms=5);
                                                   >> 198   CsI->AddElement(I, natoms=5);
                                                   >> 199   
                                                   >> 200   //
                                                   >> 201   // define a material from elements.   case 2: mixture by fractional mass
                                                   >> 202   //
                                                   >> 203   
                                                   >> 204   density = 1.290*mg/cm3;
                                                   >> 205   G4Material* Air = new G4Material(name="Air"  , density, ncomponents=2);
                                                   >> 206   Air->AddElement(N, fractionmass=0.7);
                                                   >> 207   Air->AddElement(O, fractionmass=0.3);
                                                   >> 208 
                                                   >> 209   density = 2.700*g/cm3;
                                                   >> 210   G4Material* Al = new G4Material(name="Aluminum", density, ncomponents=1);
                                                   >> 211   Al->AddElement(Alumin, fractionmass=1.);
                                                   >> 212 
                                                   >> 213   density = 2.333*g/cm3;  
                                                   >> 214   G4Material* Si = new G4Material(name="Silicon", density, ncomponents=1);
                                                   >> 215   Si->AddElement(Silicon, fractionmass=1.);
                                                   >> 216   
                                                   >> 217   density = 7.87*g/cm3;
                                                   >> 218   G4Material* Fe = new G4Material(name="Iron", density, ncomponents=1);
                                                   >> 219   Fe->AddElement(Iron, fractionmass=1.);
                                                   >> 220   
                                                   >> 221   density = 11.35*g/cm3;
                                                   >> 222   G4Material* Pb = new G4Material(name="Lead", density, ncomponents=1);
                                                   >> 223   Pb->AddElement(Lead, fractionmass=1.);
                                                   >> 224 
                                                   >> 225   //
                                                   >> 226   // examples of vacuum
                                                   >> 227   //
                                                   >> 228   
                                                   >> 229   density     = universe_mean_density;    //from PhysicalConstants.h
                                                   >> 230   pressure    = 3.e-18*pascal;
                                                   >> 231   temperature = 2.73*kelvin;
                                                   >> 232   G4Material* vacuum = new G4Material(name="Galactic", z=1., a=1.01*g/mole, density,kStateGas,temperature,pressure);
                                                   >> 233   
                                                   >> 234   density     = 1.e-5*g/cm3;
                                                   >> 235   pressure    = 2.e-2*bar;
                                                   >> 236   temperature = STP_Temperature;         //from PhysicalConstants.h
                                                   >> 237   G4Material* beam = new G4Material(name="Beam", density, ncomponents=1,
                                                   >> 238             kStateGas,temperature,pressure);
                                                   >> 239   beam->AddMaterial(Air, fractionmass=1.);
                                                   >> 240   
                                                   >> 241   G4cout << *(G4Material::GetMaterialTable()) << G4endl;
                                                   >> 242   
                                                   >> 243   //default materials of the payload
                                                   >> 244 
                                                   >> 245   ConverterMaterial = W;
                                                   >> 246   defaultMaterial  = vacuum;
                                                   >> 247   ACDMaterial = Sci;
                                                   >> 248   CALMaterial = CsI;
                                                   >> 249   TKRMaterial = Si;
500                                                   250 
501     G4String regionName[] = {"Calorimeter", "T << 251 }
502                                                   252 
503     if (calorimeterCutRegion) {                << 253 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
504         delete calorimeterCutRegion;           << 
505     }                                          << 
506     calorimeterCutRegion = new G4Region(region << 
507     logicCAL->SetRegion(calorimeterCutRegion); << 
508     calorimeterCutRegion->AddRootLogicalVolume << 
509                                                   254 
510     if (trackerCutRegion != nullptr) {         << 255 G4VPhysicalVolume* GammaRayTelDetectorConstruction::ConstructPayload()
511         delete trackerCutRegion;               << 256 {
                                                   >> 257   // complete the Payload parameters definition 
                                                   >> 258   ComputePayloadParameters();
                                                   >> 259   
                                                   >> 260   //     
                                                   >> 261   // World
                                                   >> 262   //
                                                   >> 263 
                                                   >> 264   solidWorld = new G4Box("World",            
                                                   >> 265        WorldSizeXY/2,WorldSizeXY/2,WorldSizeZ/2);  
                                                   >> 266   
                                                   >> 267   logicWorld = new G4LogicalVolume(solidWorld,    
                                                   >> 268                                    defaultMaterial, 
                                                   >> 269                                    "World");    
                                                   >> 270   
                                                   >> 271   physiWorld = new G4PVPlacement(0,G4ThreeVector(),"World",logicWorld,
                                                   >> 272                                  0,false,0);      
                                                   >> 273   
                                                   >> 274   //                               
                                                   >> 275   // Payload
                                                   >> 276   //  
                                                   >> 277   
                                                   >> 278   /* solidPayload=0; logicPayload=0; physiPayload=0;
                                                   >> 279   solidTKR=0;logicTKR=0;physiTKR=0;
                                                   >> 280   solidCAL=0;logicCAL=0;physiCAL=0;
                                                   >> 281   solidACT=0;logicACT=0;physiACT=0;
                                                   >> 282   solidACL1=0;logicACL1=0;physiACL1=0; 
                                                   >> 283   solidACL2=0;logicACL2=0;physiACL2=0; 
                                                   >> 284   solidConverter=0;logicConverter=0;physiConverter=0; 
                                                   >> 285   solidTKRDetectorX=0;logicTKRDetectorX=0;
                                                   >> 286   solidTKRDetectorY=0;logicTKRDetectorY=0;
                                                   >> 287   physiTKRDetectorX=0;physiTKRDetectorY=0;
                                                   >> 288   solidCALDetectorX=0;logicCALDetectorX=0;physiCALDetectorX=0;
                                                   >> 289   solidCALDetectorY=0;logicCALDetectorY=0;physiCALDetectorY=0;
                                                   >> 290   solidPlane=0;logicPlane=0;physiPlane=0;
                                                   >> 291   aCALRegion=0; aTKRRegion=0;
                                                   >> 292   */
                                                   >> 293   //
                                                   >> 294   // Payload
                                                   >> 295   //
                                                   >> 296   
                                                   >> 297   solidPayload = new G4Box("Payload",   
                                                   >> 298          PayloadSizeXY/2,
                                                   >> 299          PayloadSizeXY/2,
                                                   >> 300          PayloadSizeZ/2);
                                                   >> 301   
                                                   >> 302   logicPayload = new G4LogicalVolume(solidPayload,  
                                                   >> 303              defaultMaterial, 
                                                   >> 304              "Payload");  
                                                   >> 305   
                                                   >> 306   physiPayload = new G4PVPlacement(0,   
                                                   >> 307            G4ThreeVector(), 
                                                   >> 308            "Payload", 
                                                   >> 309            logicPayload,  
                                                   >> 310            physiWorld,  
                                                   >> 311            false,   
                                                   >> 312            0);    
                                                   >> 313   //                                 
                                                   >> 314   // Calorimeter (CAL)
                                                   >> 315   //
                                                   >> 316   
                                                   >> 317   solidCAL = new G4Box("CAL",     
                                                   >> 318            CALSizeXY/2,CALSizeXY/2,CALSizeZ/2); 
                                                   >> 319   
                                                   >> 320   logicCAL = new G4LogicalVolume(solidCAL,
                                                   >> 321          defaultMaterial,
                                                   >> 322          "CAL");  
                                                   >> 323   physiCAL = new G4PVPlacement(0,   
                                                   >> 324              G4ThreeVector(0,0,
                                                   >> 325                -PayloadSizeZ/2+CALSizeZ/2),
                                                   >> 326              "CAL",   
                                                   >> 327              logicCAL,
                                                   >> 328              physiPayload,
                                                   >> 329              false, 
                                                   >> 330              0);  
                                                   >> 331   //                                 
                                                   >> 332   // Tracker (TKR)
                                                   >> 333       //
                                                   >> 334   
                                                   >> 335   solidTKR = new G4Box("TKR",     
                                                   >> 336          TKRSizeXY/2,TKRSizeXY/2,TKRSizeZ/2); 
                                                   >> 337   
                                                   >> 338   logicTKR = new G4LogicalVolume(solidTKR,
                                                   >> 339          defaultMaterial,
                                                   >> 340          "TKR");  
                                                   >> 341   physiTKR = new G4PVPlacement(0,   
                                                   >> 342              G4ThreeVector(0,0,
                                                   >> 343                -PayloadSizeZ/2+CALSizeZ+
                                                   >> 344                CALTKRDistance+TKRSizeZ/2),
                                                   >> 345              "TKR",   
                                                   >> 346              logicTKR,
                                                   >> 347              physiPayload,
                                                   >> 348              false, 
                                                   >> 349              0);  
                                                   >> 350   
                                                   >> 351   
                                                   >> 352   //                               
                                                   >> 353   // Anticoincidence Top (ACT)
                                                   >> 354   //
                                                   >> 355   
                                                   >> 356   solidACT = new G4Box("ACT",     
                                                   >> 357            ACTSizeXY/2,ACTSizeXY/2,ACTSizeZ/2); 
                                                   >> 358   
                                                   >> 359   logicACT = new G4LogicalVolume(solidACT,ACDMaterial,"ACT");
                                                   >> 360   
                                                   >> 361   physiACT = new G4PVPlacement(0,   
                                                   >> 362              G4ThreeVector(0,0,
                                                   >> 363                -PayloadSizeZ/2+CALSizeZ+
                                                   >> 364                CALTKRDistance+TKRSizeZ+
                                                   >> 365                ACDTKRDistance+ACTSizeZ/2),
                                                   >> 366              "ACT",   
                                                   >> 367              logicACT,
                                                   >> 368              physiPayload,
                                                   >> 369              false, 
                                                   >> 370              0);  
                                                   >> 371   
                                                   >> 372   //                               
                                                   >> 373   // Anticoincidence Lateral Side (ACL)
                                                   >> 374   //
                                                   >> 375   
                                                   >> 376   solidACL1 = new G4Box("ACL1",     
                                                   >> 377       ACL1SizeX/2,ACL1SizeY/2,ACL1SizeZ/2); 
                                                   >> 378   
                                                   >> 379   logicACL1 = new G4LogicalVolume(solidACL1,ACDMaterial,"ACL"); 
                                                   >> 380   
                                                   >> 381   physiACL1 = new G4PVPlacement(0, 
                                                   >> 382         G4ThreeVector(-PayloadSizeXY/2+ACL1SizeX/2,
                                                   >> 383                 -PayloadSizeXY/2+ACL1SizeY/2,
                                                   >> 384                 -PayloadSizeZ/2+ACL1SizeZ/2),
                                                   >> 385         "ACL1",   
                                                   >> 386         logicACL1,
                                                   >> 387         physiPayload,
                                                   >> 388         false,  
                                                   >> 389         0); 
                                                   >> 390   
                                                   >> 391   physiACL1 = new G4PVPlacement(0,
                                                   >> 392         G4ThreeVector(PayloadSizeXY/2-ACL1SizeX/2,
                                                   >> 393                 PayloadSizeXY/2-ACL1SizeY/2,
                                                   >> 394                 -PayloadSizeZ/2+ACL1SizeZ/2),
                                                   >> 395         "ACL1",   
                                                   >> 396         logicACL1,
                                                   >> 397         physiPayload,
                                                   >> 398         false,  
                                                   >> 399         1); 
                                                   >> 400   
                                                   >> 401   solidACL2 = new G4Box("ACL2",     
                                                   >> 402       ACL2SizeX/2,ACL2SizeY/2,ACL2SizeZ/2); 
                                                   >> 403   
                                                   >> 404   logicACL2 = new G4LogicalVolume(solidACL2,
                                                   >> 405           ACDMaterial,
                                                   >> 406           "ACL2");  
                                                   >> 407   
                                                   >> 408   
                                                   >> 409   physiACL2 = new G4PVPlacement(0, 
                                                   >> 410         G4ThreeVector(-PayloadSizeXY/2+ACL2SizeX/2,
                                                   >> 411                 PayloadSizeXY/2-ACL2SizeY/2,
                                                   >> 412                 -PayloadSizeZ/2+ACL2SizeZ/2),
                                                   >> 413         "ACL2",   
                                                   >> 414         logicACL2,
                                                   >> 415         physiPayload,
                                                   >> 416         false,  
                                                   >> 417         0); 
                                                   >> 418   
                                                   >> 419   physiACL2 = new G4PVPlacement(0, 
                                                   >> 420         G4ThreeVector(PayloadSizeXY/2-ACL2SizeX/2,
                                                   >> 421                 -PayloadSizeXY/2+ACL2SizeY/2,
                                                   >> 422                 -PayloadSizeZ/2+ACL2SizeZ/2),
                                                   >> 423         "ACL2",   
                                                   >> 424         logicACL2,
                                                   >> 425         physiPayload,
                                                   >> 426         false,  
                                                   >> 427         1); 
                                                   >> 428   
                                                   >> 429   
                                                   >> 430   // Tracker Structure (Plane + Converter + TKRDetectorX + TKRDetectorY)
                                                   >> 431   
                                                   >> 432   solidPlane = new G4Box("Plane",     
                                                   >> 433        TKRSizeXY/2,TKRSizeXY/2,TKRSupportThickness/2); 
                                                   >> 434   
                                                   >> 435   logicPlane = new G4LogicalVolume(solidPlane,
                                                   >> 436            defaultMaterial, 
                                                   >> 437            "Plane");  
                                                   >> 438   
                                                   >> 439   solidTKRDetectorY = new G4Box
                                                   >> 440     ("TKRDetectorY",TKRSizeXY/2,TKRSizeXY/2,TKRSiliconThickness/2); 
                                                   >> 441   
                                                   >> 442   logicTKRDetectorY = new G4LogicalVolume(solidTKRDetectorY,
                                                   >> 443             TKRMaterial, 
                                                   >> 444             "TKRDetector Y"); 
                                                   >> 445   
                                                   >> 446   
                                                   >> 447   solidTKRDetectorX = new G4Box
                                                   >> 448     ("TKRDetectorX",TKRSizeXY/2,TKRSizeXY/2,TKRSiliconThickness/2); 
                                                   >> 449   
                                                   >> 450   logicTKRDetectorX = new G4LogicalVolume(solidTKRDetectorX,
                                                   >> 451             TKRMaterial, 
                                                   >> 452             "TKRDetector X"); 
                                                   >> 453   
                                                   >> 454   
                                                   >> 455   solidConverter = new G4Box
                                                   >> 456     ("Converter",TKRSizeXY/2,TKRSizeXY/2,ConverterThickness/2); 
                                                   >> 457   
                                                   >> 458   logicConverter = new G4LogicalVolume(solidConverter,
                                                   >> 459                ConverterMaterial, 
                                                   >> 460                "Converter");  
                                                   >> 461   
                                                   >> 462   G4int i=0;
                                                   >> 463   
                                                   >> 464   for (i = 0; i < NbOfTKRLayers; i++)
                                                   >> 465     {
                                                   >> 466       
                                                   >> 467       physiTKRDetectorY = 
                                                   >> 468   new G4PVPlacement(0,G4ThreeVector(0.,0.,-TKRSizeZ/2
                                                   >> 469             +TKRSiliconThickness/2 
                                                   >> 470             +(i)*TKRLayerDistance),
                                                   >> 471         "TKRDetectorY",   
                                                   >> 472         logicTKRDetectorY,
                                                   >> 473         physiTKR,
                                                   >> 474         false,  
                                                   >> 475         i);
                                                   >> 476       
                                                   >> 477       physiTKRDetectorX = 
                                                   >> 478   new G4PVPlacement(0,G4ThreeVector(0.,0.,
                                                   >> 479             -TKRSizeZ/2+
                                                   >> 480             TKRSiliconThickness/2 +
                                                   >> 481             TKRViewsDistance+
                                                   >> 482             TKRSiliconThickness+
                                                   >> 483             (i)*TKRLayerDistance),
                                                   >> 484         "TKRDetectorX",   
                                                   >> 485         logicTKRDetectorX,
                                                   >> 486         physiTKR,
                                                   >> 487         false,  
                                                   >> 488         i);
                                                   >> 489       
                                                   >> 490       
                                                   >> 491       physiConverter = 
                                                   >> 492   new G4PVPlacement(0,G4ThreeVector(0.,0.,
                                                   >> 493             -TKRSizeZ/2+
                                                   >> 494             2*TKRSiliconThickness +
                                                   >> 495             TKRViewsDistance+
                                                   >> 496             ConverterThickness/2+
                                                   >> 497             (i)*TKRLayerDistance),
                                                   >> 498         "Converter",    
                                                   >> 499         logicConverter,
                                                   >> 500         physiTKR,
                                                   >> 501         false,  
                                                   >> 502         i);
                                                   >> 503 
                                                   >> 504             
                                                   >> 505       
                                                   >> 506       physiPlane =
                                                   >> 507   new G4PVPlacement(0,G4ThreeVector(0.,0.,
                                                   >> 508             -TKRSizeZ/2+
                                                   >> 509             2*TKRSiliconThickness +
                                                   >> 510             TKRViewsDistance+
                                                   >> 511             ConverterThickness+
                                                   >> 512             TKRSupportThickness/2+
                                                   >> 513             (i)*TKRLayerDistance),
                                                   >> 514         "Plane",    
                                                   >> 515         logicPlane,
                                                   >> 516         physiTKR,
                                                   >> 517         false,  
                                                   >> 518         i); 
                                                   >> 519       
512     }                                             520     }
513     trackerCutRegion = new G4Region(regionName << 521   
514     logicTKR->SetRegion(trackerCutRegion);     << 522   
515     trackerCutRegion->AddRootLogicalVolume(log << 523   
516 */                                             << 524   G4VSolid * solidTKRActiveTileX = new
517                                                << 525     G4Box("Active Tile X", TKRActiveTileXY/2,
518   //                                           << 526     TKRActiveTileXY/2,TKRActiveTileZ/2);
519   // Visualization attributes                  << 527   
520   //                                           << 528   
521   // Invisible Volume                          << 529   G4VSolid * solidTKRActiveTileY = new
522   logicWorld->SetVisAttributes(G4VisAttributes << 530     G4Box("Active Tile Y", TKRActiveTileXY/2,
523   logicPayload->SetVisAttributes(G4VisAttribut << 531     TKRActiveTileXY/2,TKRActiveTileZ/2);
524   logicTKR->SetVisAttributes(G4VisAttributes:: << 532   
525   logicTKRActiveTileX->SetVisAttributes(G4VisA << 533   
526   logicTKRActiveTileY->SetVisAttributes(G4VisA << 534   G4LogicalVolume* logicTKRActiveTileX = 
527   logicPlane->SetVisAttributes(G4VisAttributes << 535     new G4LogicalVolume(solidTKRActiveTileX, TKRMaterial,
528   logicConverter->SetVisAttributes(G4VisAttrib << 536       "Active Tile X",0,0,0);
529   logicCAL->SetVisAttributes(G4VisAttributes:: << 537   
530   logicCALLayerX->SetVisAttributes(G4VisAttrib << 538   
531   logicCALLayerY->SetVisAttributes(G4VisAttrib << 539   G4LogicalVolume* logicTKRActiveTileY = 
532   logicTKRStripX->SetVisAttributes(G4VisAttrib << 540     new G4LogicalVolume(solidTKRActiveTileY, TKRMaterial,
533   logicTKRStripY->SetVisAttributes(G4VisAttrib << 541       "Active Tile Y",0,0,0);
534                                                << 542   
535   // Some visualization styles                 << 543   
536                                                << 544   G4int j=0;
537   auto *visualizationStyle1 = new G4VisAttribu << 545   G4int k=0;
538   visualizationStyle1->SetVisibility(true);    << 546   
539   visualizationStyle1->SetForceSolid(TRUE);    << 547   G4VPhysicalVolume* physiTKRActiveTileX = 0;
540                                                << 548   G4VPhysicalVolume* physiTKRActiveTileY = 0;
541   auto *visualizationStyle2 = new G4VisAttribu << 549   
542   visualizationStyle2->SetVisibility(true);    << 550   G4double x=0.;
543   visualizationStyle2->SetForceSolid(FALSE);   << 551   G4double y=0.;
544                                                << 552   G4double z=0.;
545   auto *visualizationStyle3 = new G4VisAttribu << 553   
546   visualizationStyle3->SetVisibility(true);    << 554   for (i=0;i< NbOfTKRTiles; i++)
547   visualizationStyle3->SetForceWireframe(TRUE) << 555     { 
548                                                << 556       for (j=0;j< NbOfTKRTiles; j++)
549   // Visible Volumes                           << 557   {
550                                                << 558     k = i*NbOfTKRTiles + j;
551   logicCALDetectorX->SetVisAttributes(visualiz << 559     
552   logicCALDetectorY->SetVisAttributes(visualiz << 560     
553   logicTKRDetectorX->SetVisAttributes(visualiz << 561     x = -TKRSizeXY/2+TilesSeparation+SiliconGuardRing+
554   logicTKRDetectorY->SetVisAttributes(visualiz << 562       TKRActiveTileXY/2+(i)*((2*SiliconGuardRing)+
555   logicACT->SetVisAttributes(visualizationStyl << 563            TilesSeparation+TKRActiveTileXY);
556   logicACL1->SetVisAttributes(visualizationSty << 564     y = -TKRSizeXY/2+TilesSeparation+SiliconGuardRing+
557   logicACL2->SetVisAttributes(visualizationSty << 565       TKRActiveTileXY/2+(j)*((2*SiliconGuardRing)+TilesSeparation+
558                                                << 566            TKRActiveTileXY);
559   //                                           << 567     z = 0.;
560   // always return the physical World          << 568     
561   //                                           << 569     physiTKRActiveTileY =
562   PrintPayloadParameters();                    << 570       new G4PVPlacement(0,
563                                                << 571             G4ThreeVector(x,y,z),
564   return physiWorld;                           << 572             "Active Tile Y",    
565 }                                              << 573             logicTKRActiveTileY,
566                                                << 574             physiTKRDetectorY,
567 //....oooOO0OOooo........oooOO0OOooo........oo << 575             false,  
568                                                << 576             k);
569 void GammaRayTelDetectorConstruction::Construc << 577     
570   //                                           << 578 
571   // Sensitive detector: Tracker               << 579     x = -TKRSizeXY/2+TilesSeparation+SiliconGuardRing+
572   //                                           << 580       TKRActiveTileXY/2+(j)*((2*SiliconGuardRing)+
573   if (trackerSD.Get() == nullptr) {            << 581            TilesSeparation+TKRActiveTileXY);
574       constexpr auto TRACKER_SENSITIVE_DETECTO << 582     y = -TKRSizeXY/2+TilesSeparation+SiliconGuardRing+
575     auto *sensitiveDetector = new GammaRayTelT << 583       TKRActiveTileXY/2+(i)*((2*SiliconGuardRing)+
576     trackerSD.Put(sensitiveDetector);          << 584            TilesSeparation+TKRActiveTileXY);
                                                   >> 585     z = 0.;
                                                   >> 586         
                                                   >> 587     physiTKRActiveTileX =
                                                   >> 588       new G4PVPlacement(0,
                                                   >> 589             G4ThreeVector(x,y,z),
                                                   >> 590             "Active Tile X",    
                                                   >> 591             logicTKRActiveTileX,
                                                   >> 592             physiTKRDetectorX,
                                                   >> 593             false,  
                                                   >> 594             k); 
                                                   >> 595     
577   }                                               596   }
                                                   >> 597     }
                                                   >> 598   
578                                                   599 
579   G4SDManager::GetSDMpointer()->AddNewDetector << 600   // Calorimeter Structure (CALLayerX + CALLayerY)
                                                   >> 601   
                                                   >> 602   
                                                   >> 603   solidCALLayerX = new G4Box("CALLayerX",     
                                                   >> 604            CALSizeXY/2,CALSizeXY/2,CALBarThickness/2); 
                                                   >> 605   
                                                   >> 606   logicCALLayerX = new G4LogicalVolume(solidCALLayerX,
                                                   >> 607                CALMaterial, 
                                                   >> 608                "CALLayerX");  
                                                   >> 609   
                                                   >> 610   solidCALLayerY = new G4Box("CALLayerY",     
                                                   >> 611            CALSizeXY/2,CALSizeXY/2,CALBarThickness/2); 
                                                   >> 612   
                                                   >> 613   logicCALLayerY = new G4LogicalVolume(solidCALLayerY,
                                                   >> 614                CALMaterial, 
                                                   >> 615                "CALLayerY");  
                                                   >> 616   
                                                   >> 617   for (i = 0; i < NbOfCALLayers; i++)
                                                   >> 618     {
                                                   >> 619       
                                                   >> 620       physiCALLayerY = 
                                                   >> 621   new G4PVPlacement(0,G4ThreeVector(0,0,
                                                   >> 622             -CALSizeZ/2+
                                                   >> 623             CALBarThickness/2 +
                                                   >> 624             (i)*2*CALBarThickness),
                                                   >> 625         "CALLayerY",    
                                                   >> 626         logicCALLayerY,
                                                   >> 627         physiCAL,
                                                   >> 628         false,  
                                                   >> 629         i); 
                                                   >> 630       
                                                   >> 631       physiCALLayerX = 
                                                   >> 632   new G4PVPlacement(0,G4ThreeVector(0,0,
                                                   >> 633             -CALSizeZ/2+
                                                   >> 634             CALBarThickness/2 + 
                                                   >> 635             CALBarThickness +
                                                   >> 636             (i)*2*CALBarThickness),
                                                   >> 637         "CALLayerX",    
                                                   >> 638         logicCALLayerX,
                                                   >> 639         physiCAL,
                                                   >> 640         false,  
                                                   >> 641         i); 
                                                   >> 642       
                                                   >> 643     }
                                                   >> 644   
                                                   >> 645   // Calorimeter Structure (CALDetectorX + CALDetectorY)
                                                   >> 646   
                                                   >> 647   solidCALDetectorX = new G4Box("CALDetectorX",     
                                                   >> 648         CALBarX/2,CALBarY/2,CALBarThickness/2); 
                                                   >> 649   
                                                   >> 650   logicCALDetectorX = new G4LogicalVolume(solidCALDetectorX,
                                                   >> 651             CALMaterial, 
                                                   >> 652             "CALDetectorX");  
                                                   >> 653   
                                                   >> 654   solidCALDetectorY = new G4Box("CALDetectorY",     
                                                   >> 655         CALBarY/2,CALBarX/2,CALBarThickness/2); 
                                                   >> 656   
                                                   >> 657   logicCALDetectorY = new G4LogicalVolume(solidCALDetectorY,
                                                   >> 658             CALMaterial, 
                                                   >> 659             "CALDetectorY");  
                                                   >> 660   
                                                   >> 661   for (i = 0; i < NbOfCALBars; i++)
                                                   >> 662     {
                                                   >> 663       
                                                   >> 664       physiCALDetectorY = 
                                                   >> 665   new G4PVPlacement(0,
                                                   >> 666         G4ThreeVector(-CALSizeXY/2+ CALBarY/2 +
                                                   >> 667           (i)*CALBarY, 0, 0),
                                                   >> 668         "CALDetectorY",   
                                                   >> 669         logicCALDetectorY,
                                                   >> 670         physiCALLayerY,
                                                   >> 671         false,  
                                                   >> 672         i); 
                                                   >> 673       
                                                   >> 674       physiCALDetectorX = 
                                                   >> 675   new G4PVPlacement(0,
                                                   >> 676         G4ThreeVector(0,-CALSizeXY/2+ CALBarY/2 +
                                                   >> 677           (i)*CALBarY, 0),
                                                   >> 678         "CALDetectorX",   
                                                   >> 679         logicCALDetectorX,
                                                   >> 680         physiCALLayerX,
                                                   >> 681         false,  
                                                   >> 682         i); 
                                                   >> 683       
                                                   >> 684     }
                                                   >> 685   
                                                   >> 686   
                                                   >> 687   // Cuts by Regions 
                                                   >> 688 
                                                   >> 689 
                                                   >> 690   G4String regName[] = {"Calorimeter","Tracker"};
                                                   >> 691   if (aCALRegion) delete aCALRegion;
                                                   >> 692 
                                                   >> 693   aCALRegion = new G4Region(regName[0]);
                                                   >> 694   logicCAL->SetRegion(aCALRegion);
                                                   >> 695   aCALRegion->AddRootLogicalVolume(logicCAL);
                                                   >> 696 
                                                   >> 697   if (aTKRRegion) delete aTKRRegion;
                                                   >> 698 
                                                   >> 699   aTKRRegion = new G4Region(regName[1]);
                                                   >> 700   logicTKR->SetRegion(aTKRRegion);
                                                   >> 701   aTKRRegion->AddRootLogicalVolume(logicTKR);
                                                   >> 702 
                                                   >> 703   //Sensitive Detector Manager
                                                   >> 704   
                                                   >> 705   G4SDManager* SDman = G4SDManager::GetSDMpointer();
                                                   >> 706   
                                                   >> 707   //
                                                   >> 708   // Sensitive Detectors - Tracker
                                                   >> 709   // 
                                                   >> 710                                
                                                   >> 711   
                                                   >> 712   if(!trackerSD)
                                                   >> 713     {
                                                   >> 714       trackerSD = new GammaRayTelTrackerSD("TrackerSD");
                                                   >> 715       SDman->AddNewDetector( trackerSD );   
                                                   >> 716     }
580                                                   717 
581   // Flags the strips as sensitive .           << 
582   if (logicTKRStripX != nullptr) {             << 
583     SetSensitiveDetector(logicTKRStripX, track << 
584   }                                            << 
585   if (logicTKRStripY != nullptr) {             << 
586     SetSensitiveDetector(logicTKRStripY, track << 
587   }                                            << 
588                                                   718 
589   //                                           << 719   G4String ROgeometryName = "TrackerROGeom";
590   // Sensitive detector: Calorimeter           << 720   G4VReadOutGeometry* trackerRO = 
591   //                                           << 721     new GammaRayTelTrackerROGeometry(ROgeometryName);
592   if (calorimeterSD.Get() == nullptr) {        << 722   
593       constexpr auto CALORIMETER_SENSITIVE_DET << 723   trackerRO->BuildROGeometry();
594     auto *sensitiveDetector = new GammaRayTelC << 724   trackerSD->SetROgeometry(trackerRO);
595     calorimeterSD.Put(sensitiveDetector);      << 725 
596   }                                            << 726   if (logicTKRActiveTileX)
                                                   >> 727     logicTKRActiveTileX->SetSensitiveDetector(trackerSD); // ActiveTileX
                                                   >> 728   if (logicTKRActiveTileY)
                                                   >> 729     logicTKRActiveTileY->SetSensitiveDetector(trackerSD); // ActiveTileY
                                                   >> 730 
                                                   >> 731   //
                                                   >> 732   // Sensitive Detectors: Calorimeter
                                                   >> 733   // 
597                                                   734 
598   G4SDManager::GetSDMpointer()->AddNewDetector << 
599   if (logicCALDetectorX != nullptr) {          << 
600     SetSensitiveDetector(logicCALDetectorX, ca << 
601   }                                            << 
602   if (logicCALDetectorY != nullptr) {          << 
603     SetSensitiveDetector(logicCALDetectorY, ca << 
604   }                                            << 
605                                                   735 
606   //                                           << 
607   // Sensitive detector: Anticoincidence       << 
608   //                                           << 
609   if (anticoincidenceSD.Get() == nullptr) {    << 
610       constexpr auto ANTICOINCIDENCE_SENSITIVE << 
611     auto *sensitiveDetector = new GammaRayTelA << 
612     anticoincidenceSD.Put(sensitiveDetector);  << 
613   }                                            << 
614                                                   736 
615   G4SDManager::GetSDMpointer()->AddNewDetector << 737   if(!calorimeterSD)
616   if (logicACT != nullptr) {                   << 738     {
617     SetSensitiveDetector(logicACT, anticoincid << 739       calorimeterSD = new GammaRayTelCalorimeterSD("CalorimeterSD");
618   }                                            << 740       SDman->AddNewDetector( calorimeterSD );   
619   if (logicACL1 != nullptr) {                  << 741     }
620     SetSensitiveDetector(logicACL1, anticoinci << 742   
621   }                                            << 743   if (logicCALDetectorX)
622   if (logicACL2 != nullptr) {                  << 744     logicCALDetectorX->SetSensitiveDetector(calorimeterSD); // BarX
623     SetSensitiveDetector(logicACL2, anticoinci << 745   if (logicCALDetectorY)
624   }                                            << 746     logicCALDetectorY->SetSensitiveDetector(calorimeterSD); // BarY
625                                                << 747 
626   // Create global magnetic field messenger.   << 748   //
627   // Uniform magnetic field is then created au << 749   // Sensitive Detectors: Anticoincidence
628   auto fieldValue = G4ThreeVector();           << 750   //
629   fMagFieldMessenger = new G4GlobalMagFieldMes << 751 
630   fMagFieldMessenger->SetVerboseLevel(1);      << 752   if(!anticoincidenceSD)
631                                                << 753     {
632   // Register the field messenger for deleting << 754       anticoincidenceSD = new GammaRayTelAnticoincidenceSD
633   G4AutoDelete::Register (fMagFieldMessenger); << 755   ("AnticoincidenceSD");
                                                   >> 756       SDman->AddNewDetector( anticoincidenceSD );   
                                                   >> 757     }
                                                   >> 758   
                                                   >> 759   if (logicACT)
                                                   >> 760     logicACT->SetSensitiveDetector(anticoincidenceSD); // ACD top
                                                   >> 761   if (logicACL1)
                                                   >> 762     logicACL1->SetSensitiveDetector(anticoincidenceSD); // ACD lateral side
                                                   >> 763   if (logicACL2)
                                                   >> 764     logicACL2->SetSensitiveDetector(anticoincidenceSD); // ACD lateral side
                                                   >> 765 
                                                   >> 766   //                                        
                                                   >> 767   // Visualization attributes
                                                   >> 768   //
                                                   >> 769   
                                                   >> 770   // Invisible Volume
                                                   >> 771   logicWorld->SetVisAttributes (G4VisAttributes::Invisible);
                                                   >> 772   logicPayload->SetVisAttributes (G4VisAttributes::Invisible);
                                                   >> 773   logicTKR->SetVisAttributes(G4VisAttributes::Invisible);  
                                                   >> 774   logicTKRActiveTileX->SetVisAttributes(G4VisAttributes::Invisible);  
                                                   >> 775   logicTKRActiveTileY->SetVisAttributes(G4VisAttributes::Invisible);  
                                                   >> 776   logicPlane->SetVisAttributes(G4VisAttributes::Invisible);  
                                                   >> 777   logicConverter->SetVisAttributes(G4VisAttributes::Invisible);
                                                   >> 778   logicCAL->SetVisAttributes(G4VisAttributes::Invisible);
                                                   >> 779   logicCALLayerX->SetVisAttributes(G4VisAttributes::Invisible);
                                                   >> 780   logicCALLayerY->SetVisAttributes(G4VisAttributes::Invisible);
                                                   >> 781   
                                                   >> 782   // Some visualization styles
                                                   >> 783 
                                                   >> 784   G4VisAttributes* VisAtt1= new G4VisAttributes(G4Colour(0.3,0.8,0.1));
                                                   >> 785   VisAtt1->SetVisibility(true);
                                                   >> 786   VisAtt1->SetForceSolid(TRUE);
                                                   >> 787 
                                                   >> 788   G4VisAttributes* VisAtt2= new G4VisAttributes(G4Colour(0.2,0.3,0.8));
                                                   >> 789   VisAtt2->SetVisibility(true);
                                                   >> 790   VisAtt2->SetForceSolid(FALSE);
                                                   >> 791 
                                                   >> 792   G4VisAttributes* VisAtt3= new G4VisAttributes(G4Colour(0.8,0.2,0.3));
                                                   >> 793   VisAtt3->SetVisibility(true);
                                                   >> 794   VisAtt3->SetForceWireframe(TRUE);
                                                   >> 795   
                                                   >> 796   // Visible Volumes
                                                   >> 797 
                                                   >> 798   logicCALDetectorX->SetVisAttributes(VisAtt1);
                                                   >> 799   logicCALDetectorY->SetVisAttributes(VisAtt1);
                                                   >> 800   logicTKRDetectorX->SetVisAttributes(VisAtt2);
                                                   >> 801   logicTKRDetectorY->SetVisAttributes(VisAtt2);
                                                   >> 802   logicACT->SetVisAttributes(VisAtt3);  
                                                   >> 803   logicACL1->SetVisAttributes(VisAtt3);  
                                                   >> 804   logicACL2->SetVisAttributes(VisAtt3);
                                                   >> 805 
                                                   >> 806 
                                                   >> 807   //
                                                   >> 808   //always return the physical World
                                                   >> 809   //
                                                   >> 810   PrintPayloadParameters();
                                                   >> 811   return physiWorld;
634 }                                                 812 }
635                                                   813 
636 //....oooOO0OOooo........oooOO0OOooo........oo    814 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
637                                                   815 
638 void GammaRayTelDetectorConstruction::PrintPay << 816 void GammaRayTelDetectorConstruction::PrintPayloadParameters()
639   G4cout                                       << 817 {
640       << "\n---------------------------------- << 818   G4cout << "\n------------------------------------------------------------"
641     << "---> The tracker is composed by " << n << 819          << "\n---> The Tracker is " << NbOfTKRLayers << " layers of:  "
642     << ", each made of " << converterMaterial- << 820          << ConverterThickness/mm << "mm of " << ConverterMaterial->GetName() 
643     << " and " << converterThickness / mm << " << 821          << "\n------------------------------------------------------------\n";
644     << "\n------------------------------------ << 
645 }                                                 822 }
646                                                   823 
647 //....oooOO0OOooo........oooOO0OOooo........oo    824 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
648                                                   825 
649 void GammaRayTelDetectorConstruction::SetConve << 
650   // search the material by its name           << 
651   G4Material *material = G4Material::GetMateri << 
652   if (material != nullptr) {                   << 
653     converterMaterial = material;              << 
654     logicConverter->SetMaterial(material);     << 
655     PrintPayloadParameters();                  << 
656   }                                            << 
657 }                                              << 
658                                                   826 
659 //....oooOO0OOooo........oooOO0OOooo........oo    827 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
660                                                   828 
661 void GammaRayTelDetectorConstruction::SetConve << 829 void GammaRayTelDetectorConstruction::SetConverterMaterial(G4String materialChoice)
662   converterThickness = value;                  << 830 {
                                                   >> 831   // search the material by its name   
                                                   >> 832   G4Material* pttoMaterial = G4Material::GetMaterial(materialChoice);     
                                                   >> 833   if (pttoMaterial)
                                                   >> 834     {
                                                   >> 835       ConverterMaterial = pttoMaterial;
                                                   >> 836       logicConverter->SetMaterial(pttoMaterial); 
                                                   >> 837       PrintPayloadParameters();
                                                   >> 838     }             
663 }                                                 839 }
664                                                   840 
                                                   >> 841 void GammaRayTelDetectorConstruction::SetConverterThickness(G4double val)
                                                   >> 842 {
                                                   >> 843   ConverterThickness = val;
                                                   >> 844 }  
                                                   >> 845 
665 //....oooOO0OOooo........oooOO0OOooo........oo    846 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
666                                                   847 
667 void GammaRayTelDetectorConstruction::SetTKRSi << 848 void GammaRayTelDetectorConstruction::SetTKRSiliconThickness(G4double val)
668   tkrSiliconThickness = value;                 << 849 {
669 }                                              << 850   TKRSiliconThickness = val;
                                                   >> 851 }  
670                                                   852 
671 //....oooOO0OOooo........oooOO0OOooo........oo << 
672                                                   853 
673 void GammaRayTelDetectorConstruction::SetTKRSi << 854 void GammaRayTelDetectorConstruction::SetTKRSiliconPitch(G4double val)
674   tkrSiliconPitch = value;                     << 855 {
675 }                                              << 856   TKRSiliconPitch = val;
                                                   >> 857 }  
676                                                   858 
677 //....oooOO0OOooo........oooOO0OOooo........oo << 
678                                                   859 
679 void GammaRayTelDetectorConstruction::SetTKRTi << 860 void GammaRayTelDetectorConstruction::SetTKRTileSizeXY(G4double val)
680   tkrSiliconTileXY = value;                    << 861 {
681 }                                              << 862   TKRSiliconTileXY = val;
                                                   >> 863 }  
682                                                   864 
683 //....oooOO0OOooo........oooOO0OOooo........oo << 
684                                                   865 
685 void GammaRayTelDetectorConstruction::SetNbOfT << 866 void GammaRayTelDetectorConstruction::SetNbOfTKRLayers(G4int val)
686   numberOfTKRLayers = value;                   << 867 {
                                                   >> 868   NbOfTKRLayers = val;
687 }                                                 869 }
688                                                   870 
689 //....oooOO0OOooo........oooOO0OOooo........oo << 
690                                                   871 
691 void GammaRayTelDetectorConstruction::SetNbOfT << 872 void GammaRayTelDetectorConstruction::SetNbOfTKRTiles(G4int val)
692   numberOfTKRTiles = value;                    << 873 {
                                                   >> 874   NbOfTKRTiles = val;
693 }                                                 875 }
694                                                   876 
695 //....oooOO0OOooo........oooOO0OOooo........oo << 877 void GammaRayTelDetectorConstruction::SetTKRLayerDistance(G4double val)
                                                   >> 878 {
                                                   >> 879   TKRLayerDistance = val;
                                                   >> 880 }
696                                                   881 
697 void GammaRayTelDetectorConstruction::SetTKRLa << 882 void GammaRayTelDetectorConstruction::SetTKRViewsDistance(G4double val)
698     tkrLayerDistance = value;                  << 883 {
                                                   >> 884   TKRViewsDistance = val;
699 }                                                 885 }
700                                                   886 
                                                   >> 887 
701 //....oooOO0OOooo........oooOO0OOooo........oo    888 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
702                                                   889 
703 void GammaRayTelDetectorConstruction::SetTKRVi << 890 void GammaRayTelDetectorConstruction::SetNbOfCALLayers(G4int val)
704     tkrViewsDistance = value;                  << 891 {
                                                   >> 892   NbOfCALLayers = val;
705 }                                                 893 }
706                                                   894 
707 //....oooOO0OOooo........oooOO0OOooo........oo << 895 void GammaRayTelDetectorConstruction::SetNbOfCALBars(G4int val)
                                                   >> 896 {
                                                   >> 897   NbOfCALBars = val;
                                                   >> 898 }
708                                                   899 
709 void GammaRayTelDetectorConstruction::SetNbOfC << 900 void GammaRayTelDetectorConstruction::SetCALBarThickness(G4double val)
710     numberOfCALLayers = value;                 << 901 {
                                                   >> 902   CALBarThickness = val;
711 }                                                 903 }
712                                                   904 
713 //....oooOO0OOooo........oooOO0OOooo........oo    905 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
714                                                   906 
715 void GammaRayTelDetectorConstruction::SetNbOfC << 907 void GammaRayTelDetectorConstruction::SetACDThickness(G4double val)
716     numberOfCALBars = value;                   << 908 {
                                                   >> 909   ACDThickness = val;
717 }                                                 910 }
718                                                   911 
719 //....oooOO0OOooo........oooOO0OOooo........oo    912 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
720                                                   913 
721 void GammaRayTelDetectorConstruction::SetCALBa << 914 void GammaRayTelDetectorConstruction::SetMagField(G4double fieldValue)
722     calBarThickness = value;                   << 915 {
                                                   >> 916   //apply a global uniform magnetic field along Z axis
                                                   >> 917   G4FieldManager* fieldMgr 
                                                   >> 918     = G4TransportationManager::GetTransportationManager()->GetFieldManager();
                                                   >> 919     
                                                   >> 920   if(magField) delete magField;   //delete the existing magn field
                                                   >> 921   
                                                   >> 922   if(fieldValue!=0.)      // create a new one if non nul
                                                   >> 923     { magField = new G4UniformMagField(G4ThreeVector(0.,0.,fieldValue));        
                                                   >> 924     fieldMgr->SetDetectorField(magField);
                                                   >> 925     fieldMgr->CreateChordFinder(magField);
                                                   >> 926     } else {
                                                   >> 927       magField = 0;
                                                   >> 928       fieldMgr->SetDetectorField(magField);
                                                   >> 929     }
723 }                                                 930 }
724                                                   931 
725 //....oooOO0OOooo........oooOO0OOooo........oo    932 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
                                                   >> 933   
                                                   >> 934 void GammaRayTelDetectorConstruction::UpdateGeometry()
                                                   >> 935 {
                                                   >> 936   //  delete payloadSD;
                                                   >> 937   G4RunManager::GetRunManager()->DefineWorldVolume(ConstructPayload());
                                                   >> 938   G4RunManager::GetRunManager()->PhysicsHasBeenModified();
                                                   >> 939   G4RegionStore::GetInstance()->UpdateMaterialList(physiWorld);
                                                   >> 940 
726                                                   941 
727 void GammaRayTelDetectorConstruction::SetACDTh << 
728     acdThickness = value;                      << 
729 }                                                 942 }
730                                                   943 
731 //....oooOO0OOooo........oooOO0OOooo........oo    944 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
732                                                   945 
733 void GammaRayTelDetectorConstruction::SetMagFi << 
734     // Just invoke manually the MT-safe comman << 
735     std::stringstream stream;                  << 
736     stream << "/globalField/setValue 0 0 " <<  << 
737                                                   946 
738     G4String command = stream.str();           << 
739     G4cout << "Going to execute: " << command  << 
740                                                   947 
741     auto *uiManager = G4UImanager::GetUIpointe << 
742     uiManager->ApplyCommand(command);          << 
743 }                                              << 
744                                                   948 
745 //....oooOO0OOooo........oooOO0OOooo........oo << 
746                                                   949 
747 void GammaRayTelDetectorConstruction::UpdateGe << 950 
748     // delete payloadSD;                       << 951 
749     G4RunManager::GetRunManager()->DefineWorld << 952 
750     G4RunManager::GetRunManager()->PhysicsHasB << 953 
751     G4RegionStore::GetInstance()->UpdateMateri << 954 
752     G4RunManager::GetRunManager()->Reinitializ << 955 
753 }                                              << 956 
                                                   >> 957 
                                                   >> 958 
                                                   >> 959 
                                                   >> 960 
                                                   >> 961 
754                                                   962