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Geant4/examples/extended/exoticphysics/saxs/include/SAXSDetectorConstruction.hh

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Differences between /examples/extended/exoticphysics/saxs/include/SAXSDetectorConstruction.hh (Version 11.3.0) and /examples/extended/exoticphysics/saxs/include/SAXSDetectorConstruction.hh (Version 11.2)


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 25 //                                                 25 //
 26 /// \file SAXSDetectorConstruction.hh              26 /// \file SAXSDetectorConstruction.hh
 27 /// \brief Implementation of the SAXSDetectorC     27 /// \brief Implementation of the SAXSDetectorConstruction class
 28 //                                                 28 //
 29 //....oooOO0OOooo........oooOO0OOooo........oo     29 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 30                                                    30 
 31 #ifndef SAXSDetectorConstruction_h                 31 #ifndef SAXSDetectorConstruction_h
 32 #  define SAXSDetectorConstruction_h 1         <<  32 #define SAXSDetectorConstruction_h 1
 33 #endif                                             33 #endif
 34                                                    34 
 35 #include "SAXSDetectorConstructionMessenger.hh     35 #include "SAXSDetectorConstructionMessenger.hh"
 36                                                    36 
                                                   >>  37 #include "G4VUserDetectorConstruction.hh"
                                                   >>  38 
 37 #include "G4Box.hh"                                39 #include "G4Box.hh"
 38 #include "G4Element.hh"                        <<  40 #include "G4Tubs.hh"
 39 #include "G4ElementTable.hh"                   << 
 40 #include "G4ExtendedMaterial.hh"               << 
 41 #include "G4LogicalVolume.hh"                      41 #include "G4LogicalVolume.hh"
                                                   >>  42 #include "G4VPhysicalVolume.hh"
                                                   >>  43 
                                                   >>  44 #include "G4RunManager.hh"
                                                   >>  45 #include "globals.hh"
                                                   >>  46 
 42 #include "G4Material.hh"                           47 #include "G4Material.hh"
 43 #include "G4MaterialTable.hh"                      48 #include "G4MaterialTable.hh"
                                                   >>  49 #include "G4Element.hh"
                                                   >>  50 #include "G4ElementTable.hh"
 44 #include "G4NistManager.hh"                        51 #include "G4NistManager.hh"
 45 #include "G4RunManager.hh"                     <<  52 #include "G4ExtendedMaterial.hh"
 46 #include "G4Tubs.hh"                           << 
 47 #include "G4VPhysicalVolume.hh"                << 
 48 #include "G4VUserDetectorConstruction.hh"      << 
 49 #include "globals.hh"                          << 
 50                                                    53 
 51 //....oooOO0OOooo........oooOO0OOooo........oo     54 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 52                                                    55 
 53 /// Detector construction.                         56 /// Detector construction.
 54                                                    57 
 55 class SAXSDetectorConstruction : public G4VUse     58 class SAXSDetectorConstruction : public G4VUserDetectorConstruction
 56 {                                                  59 {
 57   public:                                      <<  60 public:   
 58     SAXSDetectorConstruction();                <<  61   SAXSDetectorConstruction();
 59     ~SAXSDetectorConstruction();               <<  62   ~SAXSDetectorConstruction();
 60                                                <<  63   
 61     void DefineMaterials();                    <<  64   void DefineMaterials();     
 62     void SetGeometricalVariables();            <<  65   void SetGeometricalVariables();        
 63                                                <<  66   
 64     virtual G4VPhysicalVolume* Construct();    <<  67   virtual G4VPhysicalVolume* Construct();
 65                                                <<  68 
 66     G4LogicalVolume* GetSensitiveVolume() cons <<  69   G4LogicalVolume* GetSensitiveVolume() const {return fSensitiveVolume;}        
 67     G4LogicalVolume* GetPhantom() const { retu <<  70   G4LogicalVolume* GetPhantom() const {return fPhantomLogic;}
 68                                                <<  71         
 69   protected:                                   <<  72 protected:
 70     G4LogicalVolume* fSensitiveVolume;         <<  73     G4LogicalVolume* fSensitiveVolume;        
 71                                                    74 
 72   private:                                     <<  75 private:     
 73     virtual void ConstructSDandField();            76     virtual void ConstructSDandField();
 74                                                <<  77     
 75     SAXSDetectorConstructionMessenger* fMessen <<  78     SAXSDetectorConstructionMessenger* fMessenger;   
 76                                                <<  79     
 77     G4bool fIWantSlits;                            80     G4bool fIWantSlits;
 78                                                <<  81       
 79     //-----------------definition of Volumes-- <<  82         //-----------------definition of Volumes-------------------
 80     // World                                   <<  83         //World
 81     G4Box* fWorldSolid;                            84     G4Box* fWorldSolid;
 82     G4LogicalVolume* fWorldLogic;                  85     G4LogicalVolume* fWorldLogic;
 83     G4VPhysicalVolume* fWorldPhysical;         <<  86     G4VPhysicalVolume* fWorldPhysical; 
 84                                                <<  87         
 85     // Phantom                                 <<  88     //Phantom
 86     G4LogicalVolume* fPhantomLogic;                89     G4LogicalVolume* fPhantomLogic;
 87     G4VPhysicalVolume* fPhantomPhysical;       <<  90     G4VPhysicalVolume* fPhantomPhysical;  
 88     G4Material* fPhantomMaterial;                  91     G4Material* fPhantomMaterial;
 89     G4int fPhantomMaterialIndex;               <<  92     G4int fPhantomMaterialIndex;        
 90                                                <<  93                 
 91     // Slits                                   <<  94     //Slits
 92     G4LogicalVolume* fSlit1Logic;                  95     G4LogicalVolume* fSlit1Logic;
 93     G4LogicalVolume* fSlit2Logic;                  96     G4LogicalVolume* fSlit2Logic;
 94     G4LogicalVolume* fSlit3Logic;                  97     G4LogicalVolume* fSlit3Logic;
 95     G4LogicalVolume* fSlit4Logic;                  98     G4LogicalVolume* fSlit4Logic;
 96     G4VPhysicalVolume* fSlit1Physical;             99     G4VPhysicalVolume* fSlit1Physical;
 97     G4VPhysicalVolume* fSlit2Physical;            100     G4VPhysicalVolume* fSlit2Physical;
 98     G4VPhysicalVolume* fSlit3Physical;            101     G4VPhysicalVolume* fSlit3Physical;
 99     G4VPhysicalVolume* fSlit4Physical;            102     G4VPhysicalVolume* fSlit4Physical;
100                                                << 103         
101     // Detector                                << 104         //Detector
102     G4LogicalVolume* fDetectorLogic;           << 105         G4LogicalVolume* fDetectorLogic;
103     G4VPhysicalVolume* fDetectorPhysical;         106     G4VPhysicalVolume* fDetectorPhysical;
104                                                << 107     
105     // Shielding                               << 108     //Shielding
106     G4LogicalVolume* fShieldingLogic;          << 109         G4LogicalVolume* fShieldingLogic;
107     G4VPhysicalVolume* fShieldingPhysical;        110     G4VPhysicalVolume* fShieldingPhysical;
108     G4LogicalVolume* fShieldingBackLogic;         111     G4LogicalVolume* fShieldingBackLogic;
109     G4VPhysicalVolume* fShieldingBackPhysical;    112     G4VPhysicalVolume* fShieldingBackPhysical;
110                                                << 113     
111     //--------------------definition of Materi    114     //--------------------definition of Materials--------------
112     // materials for MIFF study                << 115     //materials for MIFF study
113     G4Material* fFat;                          << 116     G4Material* fFat; 
114     G4Material* fWater;                        << 117     G4Material* fWater; 
115     G4Material* fBoneMatrix;                   << 118     G4Material* fBoneMatrix; 
116     G4Material* fMineral;                         119     G4Material* fMineral;
117     G4Material* fMedMat;                          120     G4Material* fMedMat;
118     G4Material* fPMMA;                            121     G4Material* fPMMA;
119     G4Material* fAdipose;                      << 122     G4Material* fAdipose; 
120     G4Material* fGlandular;                    << 123     G4Material* fGlandular; 
121     G4Material* fBreast5050;                   << 124     G4Material* fBreast5050; 
122     G4Material* fcarcinoma;                    << 125     G4Material* fcarcinoma; 
123     G4Material* fLexan;                        << 126     G4Material* fLexan; 
124     G4Material* fKapton;                       << 127     G4Material* fKapton; 
125     G4Material* fNylon;                        << 128     G4Material* fNylon; 
126     G4Material* fPolyethylene;                 << 129     G4Material* fPolyethylene; 
127     G4Material* fPolystyrene;                  << 130     G4Material* fPolystyrene; 
128     G4Material* fGrayMatter;                   << 131     G4Material* fGrayMatter; 
129     G4Material* fWhiteMatter;                     132     G4Material* fWhiteMatter;
130     G4Material* fbeefBlood;                    << 133         G4Material* fbeefBlood;
131     G4Material* fFormaline;                    << 134         G4Material* fFormaline;
132     G4Material* fAcetone;                      << 135         G4Material* fAcetone;
133     G4Material* fHperoxide;                    << 136         G4Material* fHperoxide;
134     G4Material* fCIRS3070;                     << 137         G4Material* fCIRS3070;
135     G4Material* fCIRS5050;                     << 138         G4Material* fCIRS5050;
136     G4Material* fCIRS7030;                     << 139         G4Material* fCIRS7030;
137     G4Material* fRMI454;                       << 140         G4Material* fRMI454;        
138     G4Material* fBone;                         << 141         G4Material* fBone;
139     G4Material* ffatLowX;                      << 142         G4Material* ffatLowX;
140     G4Material* fbonematrixLowX;               << 143         G4Material* fbonematrixLowX;
141     G4Material* fdryBoneLowX;                  << 144         G4Material* fdryBoneLowX;
142     G4Material* fliver;                        << 145         G4Material* fliver;
143     G4Material* fkidney;                       << 146         G4Material* fkidney;
144                                                << 147 
145     // custom material                         << 148         //custom material
146     G4ExtendedMaterial* fCustomMat;            << 149         G4ExtendedMaterial* fCustomMat;
147     G4double fCustomMatDensity;                << 150         G4double fCustomMatDensity;
148     G4double fCustomMatHmassfract;             << 151         G4double fCustomMatHmassfract;
149     G4double fCustomMatCmassfract;             << 152         G4double fCustomMatCmassfract;
150     G4double fCustomMatNmassfract;             << 153         G4double fCustomMatNmassfract;
151     G4double fCustomMatOmassfract;             << 154         G4double fCustomMatOmassfract;
152     G4double fCustomMatNamassfract;            << 155         G4double fCustomMatNamassfract;
153     G4double fCustomMatPmassfract;             << 156         G4double fCustomMatPmassfract;
154     G4double fCustomMatSmassfract;             << 157         G4double fCustomMatSmassfract;
155     G4double fCustomMatClmassfract;            << 158         G4double fCustomMatClmassfract;
156     G4double fCustomMatKmassfract;             << 159         G4double fCustomMatKmassfract;
157     G4double fCustomMatCamassfract;            << 160         G4double fCustomMatCamassfract;
158     G4String fCustomMatFF;                     << 161         G4String fCustomMatFF;
159                                                << 162         
160     // definitions of variables for MedMat com << 163         //definitions of variables for MedMat composition
161     G4double fComp0, fComp1, fComp2, fComp3;   << 164         G4double fComp0,fComp1,fComp2,fComp3;
162                                                << 165         
163     // other materials                         << 166         //other materials
164     G4Material* fAir;                          << 167         G4Material* fAir;          
165     G4Material* fTungsten;                     << 168         G4Material* fTungsten;
166     G4Material* fLead;                         << 169         G4Material* fLead;
167     G4Material* fGe;                           << 170         G4Material* fGe;
168                                                << 171     
169     //-------------definition of Geometrical V    172     //-------------definition of Geometrical Variables---------
170     // World                                   << 173     //World
171     G4double fWorldSize;                       << 174     G4double fWorldSize;    
172                                                << 175           
173     // Phantom                                 << 176     //Phantom
174     G4double fPhantomDiameter;                    177     G4double fPhantomDiameter;
175     G4double fPhantomHeight;                      178     G4double fPhantomHeight;
176     G4double fPhantomZ;                        << 179     G4double fPhantomZ;     
177                                                << 180         
178     // setup angle (rad)                       << 181     //setup angle (rad)
179     G4double fthetaSetup;                         182     G4double fthetaSetup;
180                                                << 183     
181     // Slits                                   << 184     //Slits
182     G4double fSlitSize;                           185     G4double fSlitSize;
183     G4double fSlit1Thickness;                  << 186     G4double fSlit1Thickness;        
184     G4double fSlit2Thickness;                  << 187     G4double fSlit2Thickness;        
185     G4double fSlit3Thickness;                  << 188     G4double fSlit3Thickness;        
186     G4double fSlit4Thickness;                  << 189     G4double fSlit4Thickness;        
187     G4double fSlit1SampleDistance;  // center- << 190     G4double fSlit1SampleDistance;                //center-center
188     G4double fSlit2SampleDistance;                191     G4double fSlit2SampleDistance;
189     G4double fSlit3SampleDistance;                192     G4double fSlit3SampleDistance;
190     G4double fSlit4SampleDistance;                193     G4double fSlit4SampleDistance;
191     G4double fSlit1xAperture;                     194     G4double fSlit1xAperture;
192     G4double fSlit2xAperture;                     195     G4double fSlit2xAperture;
193     G4double fSlit3xAperture;                     196     G4double fSlit3xAperture;
194     G4double fSlit4xAperture;                     197     G4double fSlit4xAperture;
195     G4double fSlit1yAperture;                     198     G4double fSlit1yAperture;
196     G4double fSlit2yAperture;                     199     G4double fSlit2yAperture;
197     G4double fSlit3yAperture;                     200     G4double fSlit3yAperture;
198     G4double fSlit4yAperture;                     201     G4double fSlit4yAperture;
199                                                   202 
200     // Detector                                << 203     //Detector
201     G4double fDetectorThickness;               << 204         G4double fDetectorThickness;
202     G4double fDetectorSize;                    << 205         G4double fDetectorSize;
203     G4double fDetectorSampleDistance;  // cent << 206         G4double fDetectorSampleDistance;        //center-center
204                                                << 207         
205     // Shielding                               << 208         //Shielding
206     G4double fShieldingThickness;              << 209         G4double fShieldingThickness; 
207                                                << 210 
208     //-------------set methods for the messeng << 211         //-------------set methods for the messenger---------------
209   public:                                      << 212 public:   
210     void SetCustomMatFF(const G4String& ffname << 213         void SetCustomMatFF(const G4String& ffname) {fCustomMatFF = ffname;}
211                                                << 214 
212     void SetCustomMatDensity(G4double csd) { f << 215         void SetCustomMatDensity(G4double csd) {fCustomMatDensity = csd;}
213     void SetCustomMatHmassfract(G4double csHmf << 216         void SetCustomMatHmassfract(G4double csHmf) {fCustomMatHmassfract = csHmf;}
214     void SetCustomMatCmassfract(G4double csCmf << 217         void SetCustomMatCmassfract(G4double csCmf) {fCustomMatCmassfract = csCmf;}
215     void SetCustomMatNmassfract(G4double csNmf << 218         void SetCustomMatNmassfract(G4double csNmf) {fCustomMatNmassfract = csNmf;}
216     void SetCustomMatOmassfract(G4double csOmf << 219         void SetCustomMatOmassfract(G4double csOmf) {fCustomMatOmassfract = csOmf;}
217     void SetCustomMatNamassfract(G4double csNa << 220         void SetCustomMatNamassfract(G4double csNamf) {fCustomMatNamassfract = csNamf;}
218     void SetCustomMatPmassfract(G4double csPmf << 221         void SetCustomMatPmassfract(G4double csPmf) {fCustomMatPmassfract = csPmf;}
219     void SetCustomMatSmassfract(G4double csSmf << 222         void SetCustomMatSmassfract(G4double csSmf) {fCustomMatSmassfract = csSmf;}
220     void SetCustomMatClmassfract(G4double csCl << 223         void SetCustomMatClmassfract(G4double csClmf) {fCustomMatClmassfract = csClmf;}
221     void SetCustomMatKmassfract(G4double csKmf << 224         void SetCustomMatKmassfract(G4double csKmf) {fCustomMatKmassfract = csKmf;}
222     void SetCustomMatCamassfract(G4double csCa << 225         void SetCustomMatCamassfract(G4double csCamf) {fCustomMatCamassfract = csCamf;}
223                                                << 226                    
224     void SetPhantomMaterial(G4int mat) { fPhan << 227         void SetPhantomMaterial(G4int mat) {fPhantomMaterialIndex = mat;}
225                                                << 228         
226     void SetPhantomDiameter(G4double diam) { f << 229         void SetPhantomDiameter(G4double diam) {fPhantomDiameter = diam;}
227     void SetPhantomHeight(G4double ht) { fPhan << 230     void SetPhantomHeight(G4double ht) {fPhantomHeight = ht;}
228     void SetPhantomZ(G4double PhZ) { fPhantomZ << 231     void SetPhantomZ(G4double PhZ) {fPhantomZ = PhZ;}
229                                                << 232            
230     void SetComp0(G4double c0) { fComp0 = c0;  << 233     void SetComp0(G4double c0) {fComp0 = c0;}
231     void SetComp1(G4double c1) { fComp1 = c1;  << 234     void SetComp1(G4double c1) {fComp1 = c1;}
232     void SetComp2(G4double c2) { fComp2 = c2;  << 235     void SetComp2(G4double c2) {fComp2 = c2;}
233     void SetComp3(G4double c3) { fComp3 = c3;  << 236     void SetComp3(G4double c3) {fComp3 = c3;}
234                                                << 237     
235     void SetThetaSetup(G4double theta) { fthet << 238     void SetThetaSetup(G4double theta) {fthetaSetup = theta;}
236                                                << 239     
237     void SetSlits(G4bool bslits) { fIWantSlits << 240     void SetSlits(G4bool bslits) {fIWantSlits = bslits;} 
238     void SetSlit1Thickness(G4double sl1th) { f << 241     void SetSlit1Thickness(G4double sl1th) {fSlit1Thickness = sl1th;}
239     void SetSlit2Thickness(G4double sl2th) { f << 242     void SetSlit2Thickness(G4double sl2th) {fSlit2Thickness = sl2th;}
240     void SetSlit3Thickness(G4double sl3th) { f << 243     void SetSlit3Thickness(G4double sl3th) {fSlit3Thickness = sl3th;}
241     void SetSlit4Thickness(G4double sl4th) { f << 244     void SetSlit4Thickness(G4double sl4th) {fSlit4Thickness = sl4th;}
242     void SetSlit1SampleDistance(G4double slSam << 245     void SetSlit1SampleDistance(G4double slSampleDist1) 
243     void SetSlit2SampleDistance(G4double slSam << 246             {fSlit1SampleDistance = slSampleDist1;}
244     void SetSlit3SampleDistance(G4double slSam << 247     void SetSlit2SampleDistance(G4double slSampleDist2) 
245     void SetSlit4SampleDistance(G4double slSam << 248             {fSlit2SampleDistance = slSampleDist2;}
246     void SetSlit1xAperture(G4double aperture1x << 249     void SetSlit3SampleDistance(G4double slSampleDist3) 
247     void SetSlit2xAperture(G4double aperture2x << 250             {fSlit3SampleDistance = slSampleDist3;}
248     void SetSlit3xAperture(G4double aperture3x << 251     void SetSlit4SampleDistance(G4double slSampleDist4) 
249     void SetSlit4xAperture(G4double aperture4x << 252             {fSlit4SampleDistance = slSampleDist4;}
250     void SetSlit1yAperture(G4double aperture1y << 253     void SetSlit1xAperture(G4double aperture1x) {fSlit1xAperture = aperture1x;}
251     void SetSlit2yAperture(G4double aperture2y << 254     void SetSlit2xAperture(G4double aperture2x) {fSlit2xAperture = aperture2x;}
252     void SetSlit3yAperture(G4double aperture3y << 255     void SetSlit3xAperture(G4double aperture3x) {fSlit3xAperture = aperture3x;}
253     void SetSlit4yAperture(G4double aperture4y << 256     void SetSlit4xAperture(G4double aperture4x) {fSlit4xAperture = aperture4x;}
254                                                << 257     void SetSlit1yAperture(G4double aperture1y) {fSlit1yAperture = aperture1y;}
255     void SetDetectorSize(G4double detSize) { f << 258     void SetSlit2yAperture(G4double aperture2y) {fSlit2yAperture = aperture2y;}
256     void SetDetectorThickness(G4double detTh)  << 259     void SetSlit3yAperture(G4double aperture3y) {fSlit3yAperture = aperture3y;}
257     void SetDetectorSampleDistance(G4double de << 260     void SetSlit4yAperture(G4double aperture4y) {fSlit4yAperture = aperture4y;}
                                                   >> 261     
                                                   >> 262     void SetDetectorSize(G4double detSize) {fDetectorSize = detSize;}
                                                   >> 263     void SetDetectorThickness(G4double detTh) {fDetectorThickness = detTh;}
                                                   >> 264     void SetDetectorSampleDistance(G4double detDist) 
                                                   >> 265             {fDetectorSampleDistance = detDist;}
                                                   >> 266     
258 };                                                267 };
259 //....oooOO0OOooo........oooOO0OOooo........oo    268 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
                                                   >> 269 
260                                                   270