gpamela/gpnd/gpndv.F

      SUBROUTINE GPNDV
************************************************************************
*                                                                      *
* Volumes definition for the neutron detector                          *
* Called by: GPGEOM                                                    *
* Author: Francesco Cafagna, 05-sep-05                                 *
*                                                                      *
************************************************************************
#include "gpgeo.inc"
#include "gpmed.inc"
#include "gpkey.inc"
*
      INTEGER IROT,IVOLU,N,NMED
      REAL X,Y,Z

*
*  Define the NDBO     volume
*
      NMED= MN2
      CALL GSVOLU('NDBO','BOX ',NMED,NDBO, 3,IVOLU)
*
*  Define the NDBX     volume
*
      NMED= MAL
      CALL GSVOLU('NDBX','BOX ',NMED,NDBX, 3,IVOLU)
*
*  Define the NDCD     volume
*
      NMED= MCAD
      CALL GSVOLU('NDCD','BOX ',NMED,NDCD, 3,IVOLU)
*
*  Define the NDBI     volume
*
      NMED= MN2
      CALL GSVOLU('NDBI','BOX ',NMED,NDBI, 3,IVOLU)
*
*  Define the NDTU     volume
*
      NMED= MIRON
      NMED= MSCIN
      CALL GSVOLU('NDTU','TUBE',NMED,NDTU, 3,IVOLU)
*
*  Define the NDTI     volume
*
      NMED= MHEND
      NMED= MSCIN
      CALL GSVOLU('NDTI','TUBE',NMED,NDTI, 3,IVOLU)
*
*  Define the NDPB     volume
*
      NMED= MC2H4
      NMED= MN2
      CALL GSVOLU('NDPB','BOX ',NMED,NDPB, 3,IVOLU)
*
*  Define the NDCO     volume
*
      NMED= MAL
      CALL GSVOLU('NDCO','BOX ',NMED,NDCO, 3,IVOLU)
*
*  Define the NDBS     volume
*
      NMED= MAL
      CALL GSVOLU('NDBS','BOX ',NMED,NDBS, 3,IVOLU)
*
*  Define the NDSS     volume
*
      NMED= MN2
      CALL GSVOLU('NDSS','BOX ',NMED,NDSS, 3,IVOLU)
*
*  Define the NDCI     volume
*
      NMED= MN2
      CALL GSVOLU('NDCI','BOX ',NMED,NDCI, 3,IVOLU)
*
*  Define the NDCM     volume
*
      NMED= MN2
      CALL GSVOLU('NDCM','BOX ',NMED,NDCM, 3,IVOLU)
*
*  Define the NDCE     volume
*
      NMED= MN2
      CALL GSVOLU('NDCE','BOX ',NMED,NDCE, 3,IVOLU)
*
*  Define the NDSI     volume
*
      NMED= MN2
      CALL GSVOLU('NDSI','BOX ',NMED,NDSI, 3,IVOLU)
*
*  Define the NDSM     volume
*
      NMED= MN2
      CALL GSVOLU('NDSM','BOX ',NMED,NDSM, 3,IVOLU)
*
*  Define the NDSE     volume
*
      NMED= MN2
      CALL GSVOLU('NDSE','BOX ',NMED,NDSE, 3,IVOLU)
*
* Positioning volumes NDTI inside NDTU. 
*
      N = 1
      X = 0.
      Y = 0.
      Z = 0.
      CALL GSPOS('NDTI',N,'NDTU',X,Y,Z,0,'ONLY')
*
* Positioning volume NDTU inside the mother NDPB 
*
      N = 0
      Y = 0.
C # 
C # Start to put tube on top of a cmd and 3 pholyetilene planes
C # 
      DO I=1,2
C # 
cC # Place a tube layer at a 4 mm distance each
C # Place a tube layer at a 5 mm distance each
C #
c         X = -NDBI(2) + 0.2 + 1.1
         X = -NDBI(1) + 0.3 + NDTU(2)
C         Z = -NDBI(3) + 2.*NDCD(3) + 3.*(2.*NDPB(3)) + NDTU(2) 
C     +        + (I-1)*4*NDPB(3)
         Z = -NDBI(3)+3.*(2.*NDPB(3))+NDTU(2) 
     +        + (I-1)*2*NDPB(3)+(I-1)*2*NDTU(2)
         DO II=1,18
            N= N + 1
C            CALL GSPOS('NDTU',N,'NDBI',X,Y,Z,2,'MANY')
            CALL GSPOS('NDTU',N,'NDBI',X,Y,Z,2,'ONLY')
C            X = X + 2.2 
            X=X+2*NDTU(2)+GNDTU
         ENDDO
      ENDDO
*
* Positioning volume NDPB inside the mother NDBI
*
      N = 0
      X = 0.
      Y = 0.
C # 
C # Stack 3 planes then leave the tube gap between the last two
C #
      DO I=1,3
         N= N + 1
c         Z = -NDBI(3) + 2.*NDCD(3) + (I-1)*2.*NDPB(3) + NDPB(3)  
         Z=-NDBI(3)+(I-1)*2.*NDPB(3)+NDPB(3)  
C         CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'MANY')
         CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'ONLY')
      ENDDO
      DO I=1,2
C         Z = -NDBI(3) + 2.*NDCD(3) + 4.*2.*NDPB(3) + NDPB(3) 
C     +        + (I-1)*4.*NDPB(3)
         Z = -NDBI(3) + 3.*2.*NDPB(3) + NDPB(3) 
     +        + (I-1)*2.*NDPB(3)+I*2*NDTU(2)
         N= N + 1
C         CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'MANY')
         CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'ONLY')
      ENDDO
C # 
C # Now put the internal volume inside the cadmium box 
C # *
      N = 1
      X = 0.
      Y = 0.
      Z=-NDCD(3)+NDBI(3)+TNDCD
      CALL GSPOS('NDBI',N,'NDCD',X,Y,Z,0,'ONLY')
C # 
C # Positioning the NDCD inside NDBX
C #
      N=1
      X = 0 
      Y = 0
      Z=-NDBX(3)+NDCD(3)+TNDBX
      CALL GSPOS('NDCD',N,'NDBX',X,Y,Z,0,'ONLY')
C # 
C # Positioning the NDBX inside NDBO
C #
      N=1
      X = 0 
      Y = 0
      Z=-NDBO(3)+NDBX(3)
      CALL GSPOS('NDBX',N,'NDBO',X,Y,Z,0,'ONLY')
C # 
C # Positioning the NDCM inside NDCO
C #
      N=0
      X = 0 
      Z=NDCO(3)-NDCM(3)
      DO I=-1,1,2
         N=N+1
         Y = I*(NDCI(2)+1.4+NDCM(2))
         CALL GSPOS('NDCM',N,'NDCO',X,Y,Z,0,'ONLY')
      ENDDO
C # 
C # Positioning the NDCI inside NDCO
C #
      N=1
      X = 0 
      Y = 0
      Z=NDCO(3)-NDCI(3)
      CALL GSPOS('NDCI',N,'NDCO',X,Y,Z,0,'ONLY')
C # 
C # Positioning the NDCE inside NDCO
C #
      N=0
      X = 0 
      Z=NDCO(3)-NDCE(3)
      DO I=-1,1,2
         N=N+1
         Y = I*(NDCI(2)+1.4+2*NDCM(2)+1.4+NDCE(2))
         CALL GSPOS('NDCE',N,'NDCO',X,Y,Z,0,'ONLY')
      ENDDO
C # 
C # Positioning the NDSM inside NDCO
C #
      N=0 
      Z=NDCO(3)-NDSM(3)
      DO I=-1,1,2
         Y = I*(NDCO(2)-9.6-NDSM(2))
         DO j=-1,1,2
            N=N+1
            X=J*(NDCO(1)-2.9-NDSM(1))
            CALL GSPOS('NDSM',N,'NDCO',X,Y,Z,0,'ONLY')
         ENDDO
      ENDDO
C # 
C # Positioning the NDSI inside NDCO
C #
      N=0 
      Z=NDCO(3)-NDSI(3)
      Y=0.
      DO j=-1,1,2
         N=N+1
         X=J*(NDCO(1)-2.9-NDSI(1))
         CALL GSPOS('NDSI',N,'NDCO',X,Y,Z,0,'ONLY')
      ENDDO
C # 
C # Positioning the NDSE inside NDCO
C #
      N=0 
      Z=NDCO(3)-NDSE(3)
      DO I=-1,1,2
         Y = I*(NDCI(2)+1.4+2*NDCM(2)+1.4+NDSE(2))
         DO j=-1,1,2
            N=N+1
            X=J*(NDCE(1)+1.6+NDSE(1))
            CALL GSPOS('NDSE',N,'NDCO',X,Y,Z,0,'ONLY')
         ENDDO
      ENDDO
C # 
C # Positioning the NDCO inside NDBO
C #
      N=1
      X = 0 
      Y = 0
      Z=NDBO(3)-NDCO(3)
      CALL GSPOS('NDCO',N,'NDBO',X,Y,Z,0,'ONLY')
C # 
C # Positioning the NDBS inside NDBO
C #
      N=0
      DO I=-1,1,2 
         N=N+1
         X = 0. 
         Y = I*NDBO(2)-I*NDBS(2)
         Z=-NDBO(3)+NDBS(3)
         CALL GSPOS('NDBS',N,'NDBO',X,Y,Z,0,'ONLY')
      ENDDO
      N=1
      X = 0. 
      Y = 0.
      Z=0.
      CALL GSPOS('NDSS',N,'NDBS',X,Y,Z,0,'ONLY')
      RETURN
      END
1	SUBROUTINE GPNDV
2	************************************************************************
3	* *
4	* Volumes definition for the neutron detector *
5	* Called by: GPGEOM *
6	* Author: Francesco Cafagna, 05-sep-05 *
7	* *
8	************************************************************************
9	#include "gpgeo.inc"
10	#include "gpmed.inc"
11	#include "gpkey.inc"
12	*
13	INTEGER IROT,IVOLU,N,NMED
14	REAL X,Y,Z
15
16	*
17	* Define the NDBO volume
18	*
19	NMED= MN2
20	CALL GSVOLU('NDBO','BOX ',NMED,NDBO, 3,IVOLU)
21	*
22	* Define the NDBX volume
23	*
24	NMED= MAL
25	CALL GSVOLU('NDBX','BOX ',NMED,NDBX, 3,IVOLU)
26	*
27	* Define the NDCD volume
28	*
29	NMED= MCAD
30	CALL GSVOLU('NDCD','BOX ',NMED,NDCD, 3,IVOLU)
31	*
32	* Define the NDBI volume
33	*
34	NMED= MN2
35	CALL GSVOLU('NDBI','BOX ',NMED,NDBI, 3,IVOLU)
36	*
37	* Define the NDTU volume
38	*
39	NMED= MIRON
40	NMED= MSCIN
41	CALL GSVOLU('NDTU','TUBE',NMED,NDTU, 3,IVOLU)
42	*
43	* Define the NDTI volume
44	*
45	NMED= MHEND
46	NMED= MSCIN
47	CALL GSVOLU('NDTI','TUBE',NMED,NDTI, 3,IVOLU)
48	*
49	* Define the NDPB volume
50	*
51	NMED= MC2H4
52	NMED= MN2
53	CALL GSVOLU('NDPB','BOX ',NMED,NDPB, 3,IVOLU)
54	*
55	* Define the NDCO volume
56	*
57	NMED= MAL
58	CALL GSVOLU('NDCO','BOX ',NMED,NDCO, 3,IVOLU)
59	*
60	* Define the NDBS volume
61	*
62	NMED= MAL
63	CALL GSVOLU('NDBS','BOX ',NMED,NDBS, 3,IVOLU)
64	*
65	* Define the NDSS volume
66	*
67	NMED= MN2
68	CALL GSVOLU('NDSS','BOX ',NMED,NDSS, 3,IVOLU)
69	*
70	* Define the NDCI volume
71	*
72	NMED= MN2
73	CALL GSVOLU('NDCI','BOX ',NMED,NDCI, 3,IVOLU)
74	*
75	* Define the NDCM volume
76	*
77	NMED= MN2
78	CALL GSVOLU('NDCM','BOX ',NMED,NDCM, 3,IVOLU)
79	*
80	* Define the NDCE volume
81	*
82	NMED= MN2
83	CALL GSVOLU('NDCE','BOX ',NMED,NDCE, 3,IVOLU)
84	*
85	* Define the NDSI volume
86	*
87	NMED= MN2
88	CALL GSVOLU('NDSI','BOX ',NMED,NDSI, 3,IVOLU)
89	*
90	* Define the NDSM volume
91	*
92	NMED= MN2
93	CALL GSVOLU('NDSM','BOX ',NMED,NDSM, 3,IVOLU)
94	*
95	* Define the NDSE volume
96	*
97	NMED= MN2
98	CALL GSVOLU('NDSE','BOX ',NMED,NDSE, 3,IVOLU)
99	*
100	* Positioning volumes NDTI inside NDTU.
101	*
102	N = 1
103	X = 0.
104	Y = 0.
105	Z = 0.
106	CALL GSPOS('NDTI',N,'NDTU',X,Y,Z,0,'ONLY')
107	*
108	* Positioning volume NDTU inside the mother NDPB
109	*
110	N = 0
111	Y = 0.
112	C #
113	C # Start to put tube on top of a cmd and 3 pholyetilene planes
114	C #
115	DO I=1,2
116	C #
117	cC # Place a tube layer at a 4 mm distance each
118	C # Place a tube layer at a 5 mm distance each
119	C #
120	c X = -NDBI(2) + 0.2 + 1.1
121	X = -NDBI(1) + 0.3 + NDTU(2)
122	C Z = -NDBI(3) + 2.NDCD(3) + 3.(2.*NDPB(3)) + NDTU(2)
123	C + + (I-1)4NDPB(3)
124	Z = -NDBI(3)+3.(2.NDPB(3))+NDTU(2)
125	+ + (I-1)2NDPB(3)+(I-1)2NDTU(2)
126	DO II=1,18
127	N= N + 1
128	C CALL GSPOS('NDTU',N,'NDBI',X,Y,Z,2,'MANY')
129	CALL GSPOS('NDTU',N,'NDBI',X,Y,Z,2,'ONLY')
130	C X = X + 2.2
131	X=X+2*NDTU(2)+GNDTU
132	ENDDO
133	ENDDO
134	*
135	* Positioning volume NDPB inside the mother NDBI
136	*
137	N = 0
138	X = 0.
139	Y = 0.
140	C #
141	C # Stack 3 planes then leave the tube gap between the last two
142	C #
143	DO I=1,3
144	N= N + 1
145	c Z = -NDBI(3) + 2.NDCD(3) + (I-1)2.*NDPB(3) + NDPB(3)
146	Z=-NDBI(3)+(I-1)2.NDPB(3)+NDPB(3)
147	C CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'MANY')
148	CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'ONLY')
149	ENDDO
150	DO I=1,2
151	C Z = -NDBI(3) + 2.NDCD(3) + 4.2.*NDPB(3) + NDPB(3)
152	C + + (I-1)4.NDPB(3)
153	Z = -NDBI(3) + 3.2.NDPB(3) + NDPB(3)
154	+ + (I-1)2.NDPB(3)+I2NDTU(2)
155	N= N + 1
156	C CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'MANY')
157	CALL GSPOS('NDPB',N,'NDBI',X,Y,Z,0,'ONLY')
158	ENDDO
159	C #
160	C # Now put the internal volume inside the cadmium box
161	C # *
162	N = 1
163	X = 0.
164	Y = 0.
165	Z=-NDCD(3)+NDBI(3)+TNDCD
166	CALL GSPOS('NDBI',N,'NDCD',X,Y,Z,0,'ONLY')
167	C #
168	C # Positioning the NDCD inside NDBX
169	C #
170	N=1
171	X = 0
172	Y = 0
173	Z=-NDBX(3)+NDCD(3)+TNDBX
174	CALL GSPOS('NDCD',N,'NDBX',X,Y,Z,0,'ONLY')
175	C #
176	C # Positioning the NDBX inside NDBO
177	C #
178	N=1
179	X = 0
180	Y = 0
181	Z=-NDBO(3)+NDBX(3)
182	CALL GSPOS('NDBX',N,'NDBO',X,Y,Z,0,'ONLY')
183	C #
184	C # Positioning the NDCM inside NDCO
185	C #
186	N=0
187	X = 0
188	Z=NDCO(3)-NDCM(3)
189	DO I=-1,1,2
190	N=N+1
191	Y = I*(NDCI(2)+1.4+NDCM(2))
192	CALL GSPOS('NDCM',N,'NDCO',X,Y,Z,0,'ONLY')
193	ENDDO
194	C #
195	C # Positioning the NDCI inside NDCO
196	C #
197	N=1
198	X = 0
199	Y = 0
200	Z=NDCO(3)-NDCI(3)
201	CALL GSPOS('NDCI',N,'NDCO',X,Y,Z,0,'ONLY')
202	C #
203	C # Positioning the NDCE inside NDCO
204	C #
205	N=0
206	X = 0
207	Z=NDCO(3)-NDCE(3)
208	DO I=-1,1,2
209	N=N+1
210	Y = I(NDCI(2)+1.4+2NDCM(2)+1.4+NDCE(2))
211	CALL GSPOS('NDCE',N,'NDCO',X,Y,Z,0,'ONLY')
212	ENDDO
213	C #
214	C # Positioning the NDSM inside NDCO
215	C #
216	N=0
217	Z=NDCO(3)-NDSM(3)
218	DO I=-1,1,2
219	Y = I*(NDCO(2)-9.6-NDSM(2))
220	DO j=-1,1,2
221	N=N+1
222	X=J*(NDCO(1)-2.9-NDSM(1))
223	CALL GSPOS('NDSM',N,'NDCO',X,Y,Z,0,'ONLY')
224	ENDDO
225	ENDDO
226	C #
227	C # Positioning the NDSI inside NDCO
228	C #
229	N=0
230	Z=NDCO(3)-NDSI(3)
231	Y=0.
232	DO j=-1,1,2
233	N=N+1
234	X=J*(NDCO(1)-2.9-NDSI(1))
235	CALL GSPOS('NDSI',N,'NDCO',X,Y,Z,0,'ONLY')
236	ENDDO
237	C #
238	C # Positioning the NDSE inside NDCO
239	C #
240	N=0
241	Z=NDCO(3)-NDSE(3)
242	DO I=-1,1,2
243	Y = I(NDCI(2)+1.4+2NDCM(2)+1.4+NDSE(2))
244	DO j=-1,1,2
245	N=N+1
246	X=J*(NDCE(1)+1.6+NDSE(1))
247	CALL GSPOS('NDSE',N,'NDCO',X,Y,Z,0,'ONLY')
248	ENDDO
249	ENDDO
250	C #
251	C # Positioning the NDCO inside NDBO
252	C #
253	N=1
254	X = 0
255	Y = 0
256	Z=NDBO(3)-NDCO(3)
257	CALL GSPOS('NDCO',N,'NDBO',X,Y,Z,0,'ONLY')
258	C #
259	C # Positioning the NDBS inside NDBO
260	C #
261	N=0
262	DO I=-1,1,2
263	N=N+1
264	X = 0.
265	Y = INDBO(2)-INDBS(2)
266	Z=-NDBO(3)+NDBS(3)
267	CALL GSPOS('NDBS',N,'NDBO',X,Y,Z,0,'ONLY')
268	ENDDO
269	N=1
270	X = 0.
271	Y = 0.
272	Z=0.
273	CALL GSPOS('NDSS',N,'NDBS',X,Y,Z,0,'ONLY')
274	RETURN
275	END