Geant4_10
Collimator50BeamLine.hh
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24 // ********************************************************************
25 //
26 // This is the *BASIC* version of IORT, a Geant4-based application
27 //
28 // Main Authors: G.Russo(a,b), C.Casarino*(c), G.C. Candiano(c), G.A.P. Cirrone(d), F.Romano(d)
29 // Contributor Authors: S.Guatelli(e)
30 // Past Authors: G.Arnetta(c), S.E.Mazzaglia(d)
31 //
32 // (a) Fondazione Istituto San Raffaele G.Giglio, Cefalù, Italy
33 // (b) IBFM-CNR , Segrate (Milano), Italy
34 // (c) LATO (Laboratorio di Tecnologie Oncologiche), Cefalù, Italy
35 // (d) Laboratori Nazionali del Sud of the INFN, Catania, Italy
36 // (e) University of Wallongong, Australia
37 //
38 // *Corresponding author, email to carlo.casarino@polooncologicocefalu.it
40 
41 #ifndef Collimator50BeamLine_H
42 #define Collimator50BeamLine_H 1
43 
44 #include "globals.hh"
46 #include "G4Box.hh"
47 #include "G4Tubs.hh"
48 #include "G4VisAttributes.hh"
49 #include "G4LogicalVolume.hh"
50 
51 #include "G4Cons.hh"
52 #include "G4SubtractionSolid.hh"
53 
54 class G4VPhysicalVolume;
57 
59 {
60 public:
61 
62 
65 
67 
68 
72  void IortBeamLineBlocks() ;
73  void IortBeamLineJunctions();
75 
76 
78  // This method allows to change the size of the inner radius of the
79  // final collimator
80 
82  // This method allows to change the size of the outer radius of the
83  // final collimator
84 
85  // void SetFinalCollimatorIORTMaterial(G4String);
86  // This method allows to change the material
87  // of the final collimator
88 
89 
90 
91 private:
92 //Collimator50 line dimensions
93  void SetDefaultDimensions();
94  void ConstructCollimator50BeamLine();
95 
96 
97  Collimator50BeamLineMessenger* collimatorMessenger;
98  G4VPhysicalVolume* physicalTreatmentRoom;
99  IORTDetectorConstruction* iortDetectorConstruction;
100 
101  G4VisAttributes* blue;
102  G4VisAttributes* gray;
103  G4VisAttributes* white;
104  G4VisAttributes* red;
105  G4VisAttributes* yellow;
106  G4VisAttributes* green;
107  G4VisAttributes* darkGreen;
108  G4VisAttributes* darkOrange3;
109  G4VisAttributes* skyBlue;
110 
111  // Final Collimator IORT
112  G4double innerRadiusFinalCollimatorIORT;
113  G4double OuterRadiusFinalCollimatorIORT;
114  G4Tubs* solidFinalCollimatorIORT;
115  G4VPhysicalVolume* physiFinalCollimatorIORT;
116  G4Material* finalCollimatorMaterialIORT;
117 
118  // Junction 1 FINAL COLLIMATOR IORT
119  G4Material* Giunz1FinalCollMaterialIORT;
120 
121  // Junction 2 FINAL COLLIMATOR IORT
122  G4Material* Giunz2FinalCollMaterialIORT;
123 
124  // Junction 3 FINAL COLLIMATOR IORT
125  G4Tubs* solidGiunz3FinalCollIORT;
126  G4VPhysicalVolume* physiGiunz3FinalCollIORT;
127  G4Material* Giunz3FinalCollMaterialIORT;
128 
129  // Junction 3 FINAL COLLIMATOR intIORT
130  G4Cons* solidGiunz3FinalCollIntIORT;
131  G4Material* Giunz3FinalCollMaterialIntIORT;
132  G4VPhysicalVolume* physiGiunz3FinalCollIntIORT;
133 
134  // Junction 4 FINAL COLLIMATOR IORT
135  G4Tubs* solidGiunz4FinalCollIORT;
136  G4VPhysicalVolume* physiGiunz4FinalCollIORT;
137  G4Material* Giunz4FinalCollMaterialIORT;
138 
139  // Junction 5 FINAL COLLIMATOR IORT
140  G4Tubs* solidGiunz5FinalCollIORT;
141  G4VPhysicalVolume* physiGiunz5FinalCollIORT;
142  G4Material* Giunz5FinalCollMaterialIORT;
143 
144  // Block 1 Diameter 30 mm
145  G4Tubs* solidBlocco1IORT;
146  G4VPhysicalVolume* physiBlocco1IORT;
147  G4Material* Blocco1IORTMaterialIORT;
148 
149  // Block 2 Diameter 30 mm
150  G4Tubs* solidBlocco2IORT;
151  G4VPhysicalVolume* physiBlocco2IORT;
152  G4Material* Blocco2IORTMaterialIORT;
153 
154  // Block 3 Diameter 30 mm
155  G4Tubs* solidBlocco3IORT;
156  G4VPhysicalVolume* physiBlocco3IORT;
157  G4Material* Blocco3IORTMaterialIORT;
158 
159  // Block 4 Internal Diameter 20 mm
160  G4Tubs* solidBlocco20mmIORT;
161  G4VPhysicalVolume* physiBlocco20mmIORT;
162  G4Material* Blocco20mmIORTMaterialIORT;
163 
164  // First Chamber Monitor 1 of 2
165  G4Tubs* solidCM1_1_2IORT;
166  G4VPhysicalVolume* physiCM1_1_2IORT;
167  G4Material* CM1_1_2IORTMaterialIORT;
168 
169  // First Chamber Monitor 2 of 2
170  G4Tubs* solidCM1_2_2IORT;
171  G4VPhysicalVolume* physiCM1_2_2IORT;
172  G4Material* CM1_2_2IORTMaterialIORT;
173 
174  // Second Chamber Monitor 1 of 2
175  G4Tubs* solidCM2_1_2IORT;
176  G4VPhysicalVolume* physiCM2_1_2IORT;
177  G4Material* CM2_1_2IORTMaterialIORT;
178 
179  // Second Chamber Monitor 2 of 2
180  G4Tubs* solidCM2_2_2IORT;
181  G4VPhysicalVolume* physiCM2_2_2IORT;
182  G4Material* CM2_2_2IORTMaterialIORT;
183 
184  // Monitor Chambers Cylinder
185  G4Tubs* solidCCMIORT;
186  G4VPhysicalVolume* physiCCMIORT;
187  G4Material* CCMIORTMaterialIORT;
188 
189  // Superior Final Monitor Chamber Part 1
190  G4Tubs* solidPFS1IORT;
191  G4VPhysicalVolume* physiPFS1IORT;
192  G4Material* PFS1IORTMaterialIORT;
193 
194  // Superior Final Monitor Chamber Part 2
195  G4Tubs* solidPFS2IORT;
196  G4VPhysicalVolume* physiPFS2IORT;
197  G4Material* PFS2IORTMaterialIORT;
198 
199  // Superior Final Monitor Chamber Part 3
200  G4Tubs* solidPFS3IORT;
201  G4VPhysicalVolume* physiPFS3IORT;
202  G4Material* PFS3IORTMaterialIORT;
203 
204  // Titanium Window
205  G4Tubs* solidFTIORT;
206  G4VPhysicalVolume* physiFTIORT;
207  G4Material* FTIORTMaterialIORT;
208 
209  // Vacuum Source
210  G4Tubs* solidVSIORT;
211  G4VPhysicalVolume* physiVSIORT;
212  G4Material* VSIORTMaterialIORT;
213 
214 
215 };
216 #endif
217 
218 
219 
void SetInnerRadiusFinalCollimatorIORT(G4double)
Definition: G4Tubs.hh:84
Definition: G4Cons.hh:82
void SetOuterRadiusFinalCollimatorIORT(G4double)
G4VPhysicalVolume * Construct()
double G4double
Definition: G4Types.hh:76