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24
25 //GEANT4 - Depth-of-Interaction enabled Positr
26
27 //Contributors
28
29 // Abdella M. Ahmed (1, 2), Andrew Chacon (1,
30 // Hideaki Tashima (3), Go Akamatsu (3), Akram
31 // Susanna Guatelli (2), and Mitra Safavi-Naei
32
33 // (1) Australian Nuclear Science and Technolo
34 // (2) University of Wollongong, Australia
35 // (3) National Institute of Radiological Scie
36
37
38
39 #ifndef doiPETDetectorConstruction_h
40 #define doiPETDetectorConstruction_h 1
41
42 #include "G4VUserDetectorConstruction.hh"
43 #include "globals.hh"
44 #include "G4UnitsTable.hh"
45 #include "G4Element.hh"
46 #include "doiPETGlobalParameters.hh"
47
48 class G4Material;
49 class G4VPhysicalVolume;
50 class G4LogicalVolume;
51 //
52 class doiPETAnalysis;
53 class doiPETDetectorConstructionMessenger;
54
55 /// Detector construction class to define mate
56 ///
57 /// Crystals are positioned in Ring, with an a
58 /// Several copies of Ring are placed in the f
59
60 class doiPETDetectorConstruction : public G4VU
61 {
62 public:
63 doiPETDetectorConstruction();
64 virtual ~doiPETDetectorConstruction();
65
66 public:
67 virtual G4VPhysicalVolume* Construct();
68
69 void ConstructPhantom(G4LogicalVolume*);
70 void ChangePhantom(G4String choice);
71 void SetPhantomPosition(G4ThreeVector);
72 void SetPhantomRadius(G4double);
73 void SetPhantomLength(G4double);
74 void SetNumberOfSleeves(G4int);
75
76
77 private:
78 void DefineMaterials();
79 doiPETDetectorConstructionMessenger* fDetect
80 doiPETAnalysis* pAnalysis;
81
82 G4LogicalVolume* phantom_logicalV;
83 G4VPhysicalVolume* phantom_physicalV;
84 //G4LogicalVolume* gelatin_logicalV;
85 //G4VPhysicalVolume* gelatin_physicalV;
86
87 //world
88 G4LogicalVolume* world_logicalV;
89 G4VPhysicalVolume* world_physicalV;
90
91 //detector block
92 G4LogicalVolume* blockDetector_logicalV;
93 G4VPhysicalVolume* blockDetector_physicalV;
94
95 //air volume to fill the detector block
96 G4LogicalVolume* airBox_logicalV;
97 G4VPhysicalVolume* airBox_physicalV;
98
99 //crystals
100 G4LogicalVolume* crystal_logicalV;
101 G4VPhysicalVolume* crystal_physicalV;
102
103
104 //water
105 G4LogicalVolume* water_logicalV;
106 G4VPhysicalVolume* water_physicalV;
107
108 //lung
109 G4LogicalVolume* lung_logicalV;
110 G4VPhysicalVolume* lung_physicalV;
111
112 //test line phantom
113 G4LogicalVolume* test_logicalV;
114 G4VPhysicalVolume* test_physicalV;
115
116 G4LogicalVolume* lung_logicalV_PMMA;
117 G4VPhysicalVolume* lung_physicalVPMMA;
118
119 //cold regions
120 //G4LogicalVolume* coldRegion_logicalV;
121 //G4VPhysicalVolume* coldRegion_physicalV;
122
123 //
124 //Surrounding PMMA for hot sphere
125 G4LogicalVolume* hotSpherePMMA_logicalV;
126 G4VPhysicalVolume* hotSpherePMMA_physicalV;
127
128 //hot water phantom (activity is distributed
129 G4LogicalVolume* hotSphereWater_logicalV;
130 G4VPhysicalVolume* hotSphereWater_physicalV;
131
132 //surrounding PMMA cold sphere
133 G4LogicalVolume* coldSpherePMMA_logicalV;
134 G4VPhysicalVolume* coldSpherePMMA_physicalV;
135
136 //cold Water phantom in the cold PMMA sphere
137 G4LogicalVolume* coldSphereWater_logicalV;
138 G4VPhysicalVolume* coldSphereWater_physicalV
139
140 //fillable polyethylene phantom for sensitiv
141 G4LogicalVolume* phantomPE_logicalV;
142 G4VPhysicalVolume* phantomPE_physicalV;
143
144 //Image quality phantom for small animal NEM
145 G4LogicalVolume* waterPhantom_logicalV;
146 G4VPhysicalVolume* WaterPhantom_physicalV;
147
148 G4LogicalVolume* rod_phantom_logicalV;
149 G4VPhysicalVolume* rod_phantom_physicalV;
150
151 G4LogicalVolume* chamberPMMA_logicalV;
152 G4VPhysicalVolume* chamberPMMA_physicalV;
153
154 //
155 G4LogicalVolume* chamberWater_logicalV;
156 G4VPhysicalVolume* chamberWater_physicalV;
157
158 //
159 G4LogicalVolume* chamberAir_logicalV;
160 G4VPhysicalVolume* chamberAir_physicalV;
161
162
163 //Dimension of the sphere
164 G4double spherePositionX, spherePositionY; /
165 G4double sphereDiameter;
166 G4double distanceFromCenter;
167 G4int numberOfSpheres;
168 G4double sphereWallThickness;
169 G4double zOffsetSpherePhantom;
170
171 G4String PhantomType;
172
173 //materials
174 G4Material* air;
175 G4Material* pmma;
176 G4Material* water;
177 G4Material* polyethylene;
178 G4Material* polyethylene_NEMA;
179 //G4Material* inflatedLung;
180 G4Material* polystyrene;
181 G4Material* Aluminum;
182
183 //elements for GSO
184 G4Element* O;
185 G4Element* Si;
186 G4Element* Gd;
187 G4Material* GSO;
188
189 G4Material* crystalMaterial;
190 //G4Material* phantomMaterial;
191
192 G4bool fCheckOverlaps;
193 G4bool isotopes;
194
195
196 //size of world
197 G4double worldSizeX;
198 G4double worldSizeY;
199 G4double worldSizeZ;
200
201
202 //The following is moved to doiPETGlobalPara
203 //G4int numberOfCrystal_DOI;
204 //G4int numberOfCrystal_tangential;
205 //G4int numberOfCrystal_axial;
206
207 ////
208 //G4double sizeOfCrystal_DOI;
209 //G4double sizeOfCrystal_tangential;
210 //G4double sizeOfCrystal_axial;
211
212 ////
213 //G4double crystalGap_DOI;
214 //G4double crystalGap_tangential;
215 //G4double crystalGap_axial;
216
217 G4double sizeOfAirBox_DOI;
218 G4double sizeOfAirBox_axial;
219 G4double sizeOfAirBox_tangential;
220
221
222 G4double sizeOfBlockDetector_DOI;
223 G4double sizeOfBlockDetector_axial;
224 G4double sizeOfBlockDetector_tangential;
225
226 //G4double AluminumCoverThickness;
227
228
229 //G4int numberOfPETDetector;
230 //G4int numberOfRings;
231
232
233 //G4double scannerRadius;
234 G4double thetaDetector; //The azimuthal angl
235 //G4double ringGap;
236 G4int blockIndex;
237 //G4int AlCase_Index;
238 G4int crystalIndex;
239
240 //detector position
241 G4double detectorPositionX;
242 G4double detectorPositionY;
243 G4double detectorPositionZ;
244
245 //crystal position
246 G4double crystalPositionX;
247 G4double crystalPositionY;
248 G4double crystalPositionZ;
249
250
251
252 G4ThreeVector phantomPosition;
253
254 //
255 G4double phantomRadius;
256 G4double phantomLength;
257
258 //Phantom dimension for rectangular box (pla
259 //G4double phantomSizeX, phantomSizeY, phant
260
261 //the following is to make the body phantom
262 G4double yOffsetBodyPhantom;
263 G4double zOffsetBodyPhantom;
264 G4double lengthOfBodyPhantom; //Interior len
265 G4double radiusOfBodyPhantom;
266 G4double wallThicknessOfBodyPhantom;
267 G4double radiusOfLungPhantom;
268
269 //Test phantom defnition. The phantom has th
270 G4double hieghtOfTestPhantom;
271 G4double diameterOfTestPhantom;
272
273 //To the cylindrical phantom to make the bod
274 G4double radiusOfSmallcyl;
275 G4double boxWidth;
276 G4double boxHeight;
277
278
279 //Image quality phantom for small animals
280 G4double waterPhantomRadius;
281 G4double waterPhantomLength;
282
283 G4double rodPhantomLength;
284 G4double rodDiameter;
285 G4int numberOfRods;
286
287 //Declare position for the rod phantoms
288 G4double rodPositionX, rodPositionY, rodPosi
289
290 //Declare position for cold region chanmbers
291 G4double chamberPositionX, chamberPositionY,
292 G4double chamberPhantomLength;
293 G4double chamberDiameter;
294 G4double wallThicknessOfChamber;
295
296 //Declare the number of concentric (Al) slee
297 G4int numOfSleeves;
298 };
299
300 //////////////////////////////////////////////
301
302 #endif
303