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= MHE3 CALL GSVOLU('NDTI','TUBE',NMED,NDTI, 3,IVOLU) * * Define the NDPB volume * NMED= MCH2 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