* provided "as is" without express or implied warranty. *
**************************************************************************/
-/*
-$Log$
-Revision 1.10 2001/11/16 08:57:42 morsch
-Volume YP32 obsolete.
-
-Revision 1.9 2001/11/12 10:19:30 morsch
-Correction of uninitialized array element problem.
-
-Revision 1.8 2001/10/25 08:50:57 morsch
-New beamshield geometry with increased tolerances and insulation thickness.
-
-Revision 1.6 2001/04/23 23:12:41 morsch
-Overlap in closing cone corrected (thanks to Ivana Hrivnacova)
+/* $Id$ */
-Revision 1.5 2001/03/16 16:26:05 morsch
-Put vacuum in beam-pipe not air.
-
-Revision 1.4 2001/01/31 11:55:27 hristov
-Loop variables declared once (required by HP)
-
-Revision 1.3 2001/01/30 12:28:27 morsch
-Recess station 1 changed do make space for chambers.
-
-Revision 1.2 2000/12/04 16:30:02 morsch
-Update to geometry defined for the Muon Spectrometer Addendum to the TDR.
-
-*/
+//-------------------------------------------------------------------------
+// MUON shielding class
+// Version producing Fluka output
+// Author: A.Morsch
+//-------------------------------------------------------------------------
+#include <TVirtualMC.h>
+#include <TArrayI.h>
#include "AliSHILvF.h"
-#include "AliRun.h"
-#include "AliMC.h"
#include "AliConst.h"
#include "AliALIFE.h"
+#include "AliLog.h"
ClassImp(AliSHILvF)
SetMarkerSize(0.4);
// Pb cone not yet compatible with muon chamber inner radii
// Switched off by default
- fPbCone=kFALSE;
+ SetWriteGeometry();
+ SetPbCone();
}
//_____________________________________________________________________________
//End_Html
Float_t cpar[5], cpar0[5], tpar[3], par1[100], pars1[100], par2[100], par3[100],
- par4[21], par0[100];
+ par4[24], par0[100];
Float_t dz, dZ;
Int_t *idtmed = fIdtmed->GetArray()-1699;
#include "ABSOSHILConst.h"
#include "SHILConst.h"
+
+const Float_t kDRSteel1=2.;
enum {kC=1705, kAl=1708, kFe=1709, kCu=1710, kW=1711, kPb=1712,
kNiCuW=1720, kVacuum=1715, kAir=1714, kConcrete=1716,
//
//
// begin Fluka
- AliALIFE* flukaGeom = new AliALIFE("beamshield.alife", "beamshield_vol.inp");
Int_t i=0,ifl=0;
Float_t posfluka[3]={0., 0., 0.};
Float_t zfluka[12], rfluka1[12], rfluka2[12], rfluka3[12] ;
+ AliALIFE* flukaGeom = 0;
+
+ if (fWriteGeometry) {
+ flukaGeom = new AliALIFE("beamshield.alife", "beamshield_vol.inp");
+ }
+
//
// end Fluka
//
// Mother volume
//
- Float_t dRear1=dRear;
+ Float_t dRear1=kDRear;
- Float_t zstart=zRear-dRear1;
+ Float_t zstart=kZRear-dRear1;
par0[0] = 0.;
par0[1] = 360.;
par0[2] = 28.;
- Float_t dl=(zvac12-zstart)/2.;
+ Float_t dl=(kZvac12-zstart)/2.;
dz=zstart+dl;
//
// start
par0[3] = -dl;
par0[4] = 0.;
- par0[5] = zstart * TMath::Tan(accMin);
+ par0[5] = zstart * TMath::Tan(kAccMin);
// recess station 1
- par0[6] = -dz+zch11;
+ par0[6] = -dz+kZch11;
par0[7] = 0.;
- par0[8] = zch11 * TMath::Tan(accMin);
+ par0[8] = kZch11 * TMath::Tan(kAccMin);
par0[9] = par0[6];
par0[10] = 0.;
par0[11] = 17.9;
- par0[12] = -dz+zch12;
+ par0[12] = -dz+kZch12;
par0[13] = 0.;
par0[14] = 17.9;
par0[15] = par0[12];
par0[16] = 0.;
- par0[17] = zch12 * TMath::Tan(accMin);
+ par0[17] = kZch12 * TMath::Tan(kAccMin);
// recess station 2
- par0[18] = -dz+zch21;
+ par0[18] = -dz+kZch21;
par0[19] = 0.;
- par0[20] = zch21 * TMath::Tan(accMin);
+ par0[20] = kZch21 * TMath::Tan(kAccMin);
- par0[21] = -dz+zch21;
+ par0[21] = -dz+kZch21;
par0[22] = 0.;
par0[23] = 23.;
- par0[24] = -dz+zch22;
+ par0[24] = -dz+kZch22;
par0[25] = 0.;
par0[26] = 23.;
- par0[27] = -dz+zch22;
+ par0[27] = -dz+kZch22;
par0[28] = 0.;
- par0[29] = zch22 * TMath::Tan(accMin);
+ par0[29] = kZch22 * TMath::Tan(kAccMin);
//
- par0[30] = -dz+zvac6;
+ par0[30] = -dz+kZvac6;
par0[31] = 0.;
- par0[32] = zvac6 * TMath::Tan(accMin);
+ par0[32] = kZvac6 * TMath::Tan(kAccMin);
// end of 2 deg cone
- par0[33] = -dz+zConeE;
+ par0[33] = -dz+kZConeE;
par0[34] = 0.;
par0[35] = 30.;
- par0[36] = -dz+zch31;
+ par0[36] = -dz+kZch31;
par0[37] = 0.;
par0[38] = 30.;
- par0[39] = -dz+zch31;
+ par0[39] = -dz+kZch31;
par0[40] = 0.;
par0[41] = 29.;
- par0[42] = -dz+zch32;
+ par0[42] = -dz+kZch32;
par0[43] = 0.;
par0[44] = 29.;
// start of 1.6 deg cone
- par0[45] = -dz+zch32;
+ par0[45] = -dz+kZch32;
par0[46] = 0.;
- par0[47] = 30.+(zch32-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[47] = 30.+(kZch32-kZConeE)*TMath::Tan(kThetaOpenPbO);
// recess station 4
- par0[48] = -dz+zch41;
+ par0[48] = -dz+kZch41;
par0[49] = 0.;
- par0[50] = 30.+(zch41-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[50] = 30.+(kZch41-kZConeE)*TMath::Tan(kThetaOpenPbO);
- par0[51] = -dz+zch41;
+ par0[51] = -dz+kZch41;
par0[52] = 0.;
par0[53] = 37.5;
- par0[54] = -dz+zch42;
+ par0[54] = -dz+kZch42;
par0[55] = 0.;
par0[56] = 37.5;
- par0[57] = -dz+zch42;
+ par0[57] = -dz+kZch42;
par0[58] = 0.;
- par0[59] = 30.+(zch42-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[59] = 30.+(kZch42-kZConeE)*TMath::Tan(kThetaOpenPbO);
// recess station 5
- par0[60] = -dz+zch51;
+ par0[60] = -dz+kZch51;
par0[61] = 0.;
- par0[62] = 30.+(zch51-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[62] = 30.+(kZch51-kZConeE)*TMath::Tan(kThetaOpenPbO);
- par0[63] = -dz+zch51;
+ par0[63] = -dz+kZch51;
par0[64] = 0.;
par0[65] = 37.5;
- par0[66] = -dz+zch52;
+ par0[66] = -dz+kZch52;
par0[67] = 0.;
par0[68] = 37.5;
- par0[69] = -dz+zch52;
+ par0[69] = -dz+kZch52;
par0[70] = 0.;
- par0[71] = 30.+(zch52-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[71] = 30.+(kZch52-kZConeE)*TMath::Tan(kThetaOpenPbO);
// end of cone
- par0[72] = -dz+zvac10;
+ par0[72] = -dz+kZvac10;
par0[73] = 0.;
- par0[74] = 30.+(zvac10-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[74] = 30.+(kZvac10-kZConeE)*TMath::Tan(kThetaOpenPbO);
- par0[75] = -dz+zvac10;
+ par0[75] = -dz+kZvac10;
par0[76] = 0.;
- par0[77] = R42;
+ par0[77] = kR42;
- par0[78] = -dz+zvac11;
+ par0[78] = -dz+kZvac11;
par0[79] = 0.;
- par0[80] = R42;
+ par0[80] = kR42;
- par0[81] = -dz+zvac11;
+ par0[81] = -dz+kZvac11;
par0[82] = 0.;
- par0[83] = R43;
+ par0[83] = kR43;
- par0[84] = -dz+zvac12;
+ par0[84] = -dz+kZvac12;
par0[85] = 0.;
- par0[86] = R43;
+ par0[86] = kR43;
gMC->Gsvolu("YMOT", "PCON", idtmed[kVacuum], par0, 87);
dz=zstart+dl;
par1[0] = 0.;
par1[1] = 360.;
par1[2] = 12.;
- dl=(zvac4-zstart)/2.;
+ dl=(kZvac4-zstart)/2.;
par1[3] = -dl;
- par1[4] = rAbs+(zstart-zOpen) * TMath::Tan(thetaOpen1);
- par1[5] = zstart * TMath::Tan(accMin);
+ par1[4] = kRAbs+(zstart-kZOpen) * TMath::Tan(kThetaOpen1);
+ par1[5] = zstart * TMath::Tan(kAccMin);
- par1[6] = -dl+zvac1-zstart;
- par1[7] = rAbs+ (zvac1-zOpen) * TMath::Tan(thetaOpen1);
- par1[8] = zvac1 * TMath::Tan(accMin);
+ par1[6] = -dl+kZvac1-zstart;
+ par1[7] = kRAbs+ (kZvac1-kZOpen) * TMath::Tan(kThetaOpen1);
+ par1[8] = kZvac1 * TMath::Tan(kAccMin);
- par1[9] = par1[6]+dr11/2.;
- par1[10] = par1[7]+dr11;
- par1[11] = (zvac1+dr11/2.) * TMath::Tan(accMin);
+ par1[9] = par1[6]+kDr11/2.;
+ par1[10] = par1[7]+kDr11;
+ par1[11] = (kZvac1+kDr11/2.) * TMath::Tan(kAccMin);
par1[12] = -dl+dRear1;
par1[13] = par1[10];
- par1[14] = zRear * TMath::Tan(accMin);
+ par1[14] = kZRear * TMath::Tan(kAccMin);
par1[15] = -dl+dRear1;
par1[16] = par1[10];
- par1[17] = R11;
+ par1[17] = kR11;
- par1[18] = -dl+(zvac1+dr11+dB1-zstart);
+ par1[18] = -dl+(kZvac1+kDr11+kDB1-zstart);
par1[19] = par1[16];
- par1[20] = R11;
+ par1[20] = kR11;
- par1[21] = par1[18]+dr12;
- par1[22] = par1[19]+dr12;
- par1[23] = R11;
+ par1[21] = par1[18]+kDr12;
+ par1[22] = par1[19]+kDr12;
+ par1[23] = kR11;
- par1[24] = par1[21]+dF1;
+ par1[24] = par1[21]+kDF1;
par1[25] = par1[22];
- par1[26] = R11;
+ par1[26] = kR11;
- par1[27] = par1[24]+dr12;
- par1[28] = par1[25]-dr12;
- par1[29] = R11;
+ par1[27] = par1[24]+kDr12;
+ par1[28] = par1[25]-kDr12;
+ par1[29] = kR11;
- par1[30] = par1[27]+dB1;
+ par1[30] = par1[27]+kDB1;
par1[31] = par1[28];
- par1[32] = R11;
+ par1[32] = kR11;
- par1[33] = par1[30]+dr13;
- par1[34] = par1[31]-dr13;
- par1[35] = R11;
+ par1[33] = par1[30]+kDr13;
+ par1[34] = par1[31]-kDr13;
+ par1[35] = kR11;
- par1[36] = -dl+zvac4-zstart;
+ par1[36] = -dl+kZvac4-zstart;
par1[37] = par1[34];
- par1[38] = R11;
+ par1[38] = kR11;
Float_t r2 = par1[37];
Float_t rBox= par1[31]-0.1;
//
// begin Fluka
- for (ifl=0; ifl<12; ifl++) {
- zfluka[ifl]=par1[3+3*ifl]+dl+zRear-dRear;
- rfluka1[ifl] = par1[4+3*ifl];
- rfluka2[ifl] = par1[5+3*ifl];
- if (ifl > 3) rfluka2[ifl]=rfluka2[ifl]-dRSteel1;
- }
-
-
Float_t rfluka0[8]={rBox,rBox,rBox,rBox,rBox,rBox,rBox,rBox};
-
- flukaGeom->Comment("1st part: Shield");
+ if (fWriteGeometry) {
+ for (ifl=0; ifl<12; ifl++) {
+ zfluka[ifl]=par1[3+3*ifl]+dl+kZRear-kDRear;
+ rfluka1[ifl] = par1[4+3*ifl];
+ rfluka2[ifl] = par1[5+3*ifl];
+ if (ifl > 3) rfluka2[ifl]=rfluka2[ifl]-kDRSteel1;
+ }
+ flukaGeom->Comment("1st part: Shield");
// Use default for first three cones
- flukaGeom->SetDefaultVolume("*ACR02");
- rfluka2[0]=rfluka2[1]=rfluka2[2]=-1;
+ flukaGeom->SetDefaultVolume("*ACR02");
+ rfluka2[0]=rfluka2[1]=rfluka2[2]=-1;
//
- flukaGeom->Comment("Shield");
- flukaGeom->PolyCone(rfluka1, rfluka2, zfluka, 12, posfluka, "NIW", "MF", "$SHS");
- flukaGeom->Comment("Vacuum");
- flukaGeom->PolyCone(rfluka0, rfluka1+2, zfluka+2, 8, posfluka, "VACUUM", "MF", "$SHS");
+ flukaGeom->Comment("Shield");
+ flukaGeom->PolyCone(rfluka1, rfluka2, zfluka, 12, posfluka, "NIW", "MF", "$SHS");
+ flukaGeom->Comment("Vacuum");
+ flukaGeom->PolyCone(rfluka0, rfluka1+2, zfluka+2, 8, posfluka, "VACUUM", "MF", "$SHS");
+ }
+
//
// end Fluka
-
- for (i=0; i<39; i++) pars1[i] = par1[i];
+
+
+ for (i=0; i<39; i++) {
+ pars1[i] = par1[i];
+ }
+
for (i=4; i<38; i+=3) pars1[i] = 0.;
gMC->Gsvolu("YMO1", "PCON", idtmed[kVacuum+40], pars1, 39);
//
// Steel envelope
- tpar[0]=R11-dRSteel2;
- tpar[1]=R11;
- tpar[2]=(zvac4-zvac3)/2.;
+ tpar[0]=kR11-kDRSteel2;
+ tpar[1]=kR11;
+ tpar[2]=(kZvac4-kZvac3)/2.;
gMC->Gsvolu("YSE1", "TUBE", idtmed[kNiCuW], tpar, 3);
dz=dl-tpar[2];
gMC->Gspos("YSE1", 1, "YGO1", 0., 0., dz, 0, "ONLY");
+
// begin Fluka
- flukaGeom->Comment("1st part: Steel Envelope");
- flukaGeom->Cylinder(tpar[0], tpar[1], zRear, zvac4, posfluka, "NIW", "MF", "$SHS");
+ if (fWriteGeometry) {
+ flukaGeom->Comment("1st part: Steel Envelope");
+ flukaGeom->Cylinder(tpar[0], tpar[1], kZRear, kZvac4, posfluka, "NIW", "MF", "$SHS");
+ }
+
//
// end Fluka
//
// Bellow 1
//
- tpar[0]=rB1;
- tpar[1]=rB1+hB1;
- tpar[2]=eB1/2.;
+ tpar[0]=kRB1;
+ tpar[1]=kRB1+kHB1;
+ tpar[2]=kEB1/2.;
gMC->Gsvolu("YB11", "TUBE", idtmed[kSteel+40], tpar, 3);
Float_t dl1=tpar[2];
- tpar[0]=rB1+hB1-eB1;
- tpar[1]=rB1+hB1;
- tpar[2]=(lB1/2.-2.*eB1)/2.;
+ tpar[0]=kRB1+kHB1-kEB1;
+ tpar[1]=kRB1+kHB1;
+ tpar[2]=(kLB1/2.-2.*kEB1)/2.;
gMC->Gsvolu("YB12", "TUBE", idtmed[kSteel+40], tpar, 3);
Float_t dl2=tpar[2];
- tpar[0]=rB1-eB1;
- tpar[1]=rB1;
- tpar[2]=lB1/8.;
+ tpar[0]=kRB1-kEB1;
+ tpar[1]=kRB1;
+ tpar[2]=kLB1/8.;
gMC->Gsvolu("YB13", "TUBE", idtmed[kSteel+40], tpar, 3);
Float_t dl3=tpar[2];
tpar[0]=0;
- tpar[1]=rB1+hB1;
- tpar[2]=lB1/2.;
+ tpar[1]=kRB1+kHB1;
+ tpar[2]=-kLB1/2.;
gMC->Gsvolu("YBU1", "TUBE", idtmed[kVacuum+40], tpar, 3);
- dz=-tpar[2]+dl3;
+ dz=-kLB1/2.+dl3;
gMC->Gspos("YB13", 1, "YBU1", 0., 0., dz, 0, "ONLY");
dz+=dl3;
dz+=dl1;
tpar[0]=0;
- tpar[1]=rB1+hB1+0.5;
- tpar[2]=10.*lB1/2.;
+ tpar[1]=kRB1+kHB1+0.5;
+ tpar[2]=12.*kLB1/2.;
gMC->Gsvolu("YBM1", "TUBE", idtmed[kVacuum+40], tpar, 3);
+ gMC->Gsdvn("YB1S", "YBM1", 12 , 3);
+
Float_t bsize = tpar[2];
- tpar[0]=rB1+hB1;
+ tpar[0]=kRB1+kHB1;
+ tpar[2]=-kLB1/2.;
gMC->Gsvolu("YBI1", "TUBE", idtmed[kInsulation+40], tpar, 3);
- gMC->Gspos("YBI1", 2, "YBM1", 0., 0., 0., 0, "ONLY");
- dz=-bsize+lB1/2.;
+ gMC->Gspos("YBI1", 1, "YB1S", 0., 0., 0., 0, "ONLY");
+ gMC->Gspos("YBU1", 1, "YB1S", 0., 0., 0., 0, "ONLY");
- for (i=0; i<10; i++) {
- gMC->Gspos("YBU1", i+1 , "YBM1", 0., 0., dz, 0, "ONLY");
- dz+=lB1;
- }
-
- dz=-dl+(zvac1-zstart)+dr11+bsize;
+ dz=-dl+(kZvac1-zstart)+kDr11/2.+bsize;
gMC->Gspos("YBM1", 1, "YMO1", 0., 0., dz, 0, "ONLY");
- dz=dl-dr13-(zvac4-zvac3)-bsize;
- gMC->Gspos("YBM1", 2, "YMO1", 0., 0., dz, 0, "ONLY");
+// dz=dl-kDr13-(kZvac4-kZvac3)-bsize;
+// gMC->Gspos("YBM1", 2, "YMO1", 0., 0., dz, 0, "ONLY");
//
// Flange
tpar[0]=0;
- tpar[1]=rF1+0.6;
- tpar[2]=dF1/2.;
+ tpar[1]=kRF1+0.6;
+ tpar[2]=kDF1/2.;
gMC->Gsvolu("YFM1", "TUBE", idtmed[kVacuum+40], tpar, 3);
// Steel
- tpar[0]=rB1;
- tpar[1]=rF1+0.6;
- tpar[2]=dF1/2.;
+ tpar[0]=kRB1;
+ tpar[1]=kRF1+0.6;
+ tpar[2]=kDF1/2.;
gMC->Gsvolu("YF11", "TUBE", idtmed[kSteel+40], tpar, 3);
// Insulation
- tpar[0]=rF1;
- tpar[1]=rF1+0.5;
- tpar[2]=dF1/2.;
+ tpar[0]=kRF1;
+ tpar[1]=kRF1+0.5;
+ tpar[2]=kDF1/2.;
gMC->Gsvolu("YF12", "TUBE", idtmed[kInsulation+40], tpar, 3);
gMC->Gspos("YF11", 1, "YFM1", 0., 0., 0., 0, "ONLY");
gMC->Gspos("YF12", 1, "YFM1", 0., 0., 0., 0, "ONLY");
- dz=-dl+(zvac2-zstart);
+ dz=-dl+(kZvac1-zstart)+kDr11/2.+2.*bsize+kDF1/2.+3.;
gMC->Gspos("YFM1", 2, "YMO1", 0., 0., dz, 0, "ONLY");
//
// pipe between flange and bellows
//
// Steel
- tpar[0]=rB1-dTubeS;
- tpar[1]=rB1+0.6;
- tpar[2]=2.*(dB1+dr12-10.*lB1)/4.;
+ tpar[0]=kRB1-dTubeS;
+ tpar[1]=kRB1+0.6;
+ tpar[2]=1.5;
gMC->Gsvolu("YPF1", "TUBE", idtmed[kSteel+40], tpar, 3);
// Insulation
- tpar[0]=rB1;
- tpar[1]=rB1+0.5;
+ tpar[0]=kRB1;
+ tpar[1]=kRB1+0.5;
gMC->Gsvolu("YPS1", "TUBE", idtmed[kInsulation+40], tpar, 3);
gMC->Gspos("YPS1", 1, "YPF1", 0., 0., 0., 0, "ONLY");
- dz=-dl+(zvac2-zstart)-dF1/2.-tpar[2];
+ dz=dz-1.5-kDF1/2.;
gMC->Gspos("YPF1", 1, "YMO1", 0., 0., dz, 0, "ONLY");
- dz=-dl+(zvac2-zstart)+dF1/2.+tpar[2];
+ dz=dz+3.0+kDF1;
gMC->Gspos("YPF1", 2, "YMO1", 0., 0., dz, 0, "ONLY");
//
// begin Fluka
- flukaGeom->Comment("First Bellow");
- Float_t z1=zvac1+dr11;
- Float_t z2;
+ Float_t z1, z2, zcy1, zcy2, zfl;
+ if (fWriteGeometry) {
+ flukaGeom->Comment("First Bellow");
+ z1=kZvac1+kDr11;
for (i=0; i<10; i++) {
- z2=z1+eB1;
- flukaGeom->Cylinder(0., rB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+hB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1+kEB1;
+ flukaGeom->Cylinder(0., kRB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+kHB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2+=lB1/2.-eB1;
- flukaGeom->Cylinder(0., rB1+hB1-eB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+hB1-eB1, rB1+hB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ z2+=kLB1/2.-kEB1;
+ flukaGeom->Cylinder(0., kRB1+kHB1-kEB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+kHB1-kEB1, kRB1+kHB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2=z1+eB1;
- flukaGeom->Cylinder(0., rB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+hB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1+kEB1;
+ flukaGeom->Cylinder(0., kRB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+kHB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2+=lB1/2.-eB1;
- flukaGeom->Cylinder(0., rB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+eB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+eB1, rB1+hB1, z1, z2, posfluka, "AIR", "MF", "$SHH");
+ z2+=kLB1/2.-kEB1;
+ flukaGeom->Cylinder(0., kRB1, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+kEB1, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+kEB1, kRB1+kHB1, z1, z2, posfluka, "AIR", "MF", "$SHH");
z1=z2;
}
- flukaGeom->Cylinder(rB1+hB1, rB1+hB1+0.5, zvac1+dr11, z1, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+hB1+0.5, rBox, zvac1+dr11, z1, posfluka, "AIR", "MF", "$SHH");
- Float_t zcy1=z1;
+ flukaGeom->Cylinder(kRB1+kHB1, kRB1+kHB1+0.5, kZvac1+kDr11, z1, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+kHB1+0.5, rBox, kZvac1+kDr11, z1, posfluka, "AIR", "MF", "$SHH");
+ zcy1=z1;
flukaGeom->Comment("Second Bellow");
- z1=zvac3-dr13;
+ z1=kZvac3-kDr13;
for (i=0; i<10; i++) {
- z2=z1-eB1;
- flukaGeom->Cylinder(0., rB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+hB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1-kEB1;
+ flukaGeom->Cylinder(0., kRB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+kHB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2-=lB1/2.-eB1;
- flukaGeom->Cylinder(0., rB1+hB1-eB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+hB1-eB1, rB1+hB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ z2-=kLB1/2.-kEB1;
+ flukaGeom->Cylinder(0., kRB1+kHB1-kEB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+kHB1-kEB1, kRB1+kHB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2=z1-eB1;
- flukaGeom->Cylinder(0., rB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+hB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1-kEB1;
+ flukaGeom->Cylinder(0., kRB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+kHB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2-=lB1/2.-eB1;
- flukaGeom->Cylinder(0., rB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+eB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+eB1, rB1+hB1, z2, z1, posfluka, "AIR", "MF", "$SHH");
+ z2-=kLB1/2.-kEB1;
+ flukaGeom->Cylinder(0., kRB1, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+kEB1, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+kEB1, kRB1+kHB1, z2, z1, posfluka, "AIR", "MF", "$SHH");
z1=z2;
}
- flukaGeom->Cylinder(rB1+hB1, rB1+hB1+0.5, z1, zvac3-dr13, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+hB1+0.5, rBox, z1, zvac3-dr13, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+kHB1, kRB1+kHB1+0.5, z1, kZvac3-kDr13, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+kHB1+0.5, rBox, z1, kZvac3-kDr13, posfluka, "AIR", "MF", "$SHH");
- Float_t zcy2=z1;
+ zcy2=z1;
flukaGeom->Comment("Flange");
- Float_t zfl=(zcy1+zcy2)/2.;
-
- z1=zfl-dF1/2.;
- z2=zfl+dF1/2.;
- flukaGeom->Cylinder(0.,rF1-2. , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rF1-2., rF1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rF1, rF1+0.05 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rF1+0.05, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ zfl=(zcy1+zcy2)/2.;
+
+ z1=zfl-kDF1/2.;
+ z2=zfl+kDF1/2.;
+ flukaGeom->Cylinder(0.,kRF1-2. , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF1-2., kRF1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF1, kRF1+0.05 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF1+0.05, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
z2=z1;
- z1=z2-dFlange;
- flukaGeom->Cylinder(0.,rB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rF1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rF1, rF1+0.5 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rF1+0.5, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ z1=z2-kDFlange;
+ flukaGeom->Cylinder(0.,kRB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRF1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF1, kRF1+0.5 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF1+0.5, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
z2=z1;
z1=zcy1;
- flukaGeom->Cylinder(0.,rB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+0.1, rB1+0.6 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+0.6, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
-
- z1=zfl+dF1/2.;
- z2=z1+dFlange;
- flukaGeom->Cylinder(0.,rB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rF1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rF1, rF1+0.5 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rF1+0.5, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(0.,kRB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+0.1, kRB1+0.6 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+0.6, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+
+ z1=zfl+kDF1/2.;
+ z2=z1+kDFlange;
+ flukaGeom->Cylinder(0.,kRB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRF1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF1, kRF1+0.5 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF1+0.5, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
z1=z2;
z2=zcy2;
- flukaGeom->Cylinder(0.,rB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB1, rB1+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+0.1, rB1+0.6 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB1+0.6, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(0.,kRB1 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1, kRB1+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+0.1, kRB1+0.6 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB1+0.6, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ }
// end Fluka
//
// pipe and heating jackets outside bellows
//
// left side
- cpar0[0]=(zvac1+dr11-zstart)/2;
- cpar0[1]=rVacu-0.05 +(zstart-zOpen)*TMath::Tan(thetaOpen1);
- cpar0[2]=rVacu+0.7 +(zstart-zOpen)*TMath::Tan(thetaOpen1);
- cpar0[3]=cpar0[1]+2.*cpar0[0]*TMath::Tan(thetaOpen1);
- cpar0[4]=cpar0[2]+2.*cpar0[0]*TMath::Tan(thetaOpen1);
+ cpar0[0]=(kZvac1+kDr11/2.-zstart)/2;
+ cpar0[1]=kRVacu-0.05 +(zstart-kZOpen)*TMath::Tan(kThetaOpen1);
+ cpar0[2]=kRVacu+0.7 +(zstart-kZOpen)*TMath::Tan(kThetaOpen1);
+ cpar0[3]=cpar0[1]+2.*cpar0[0]*TMath::Tan(kThetaOpen1);
+ cpar0[4]=cpar0[2]+2.*cpar0[0]*TMath::Tan(kThetaOpen1);
gMC->Gsvolu("YV11", "CONE", idtmed[kSteel+40], cpar0, 5);
//
// insulation
// begin Fluka
//
Float_t rf1[10], rf2[10];
+ const char* materialsA[7]
+ = {"VACUUM", "STEEL", "PIPEINSU", "STEEL", "AIR", "AIR"};
+ const char* fieldsA[7]
+ = {"MF", "MF", "MF", "MF", "MF", "MF"};
+ const char* cutsA[7]
+ = {"$SHH","$SHH","$SHH","$SHH","$SHH","$SHH","$SHH"};
+
+ if (fWriteGeometry) {
rf1[0]=0.; rf2[0]=0.;
rf1[1] = cpar0[1];
rf2[1] = cpar0[3];
rf2[2]=rf2[1]+0.15; rf2[3]=rf2[2]+0.5; rf2[4]=rf2[3]+0.1;
rf2[5]=par1[7];
- char* materialsA[7]
- = {"VACUUM", "STEEL", "PIPEINSU", "STEEL", "AIR", "AIR"};
- char* fieldsA[7]
- = {"MF", "MF", "MF", "MF", "MF", "MF"};
- char* cutsA[7]
- = {"$SHH","$SHH","$SHH","$SHH","$SHH","$SHH","$SHH"};
flukaGeom->Comment("1st part: Beam pipe lateral struture (left)");
- flukaGeom->OnionCone(rf1, rf2, 6 , zstart, zvac1, posfluka, materialsA, fieldsA, cutsA);
+ flukaGeom->OnionCone(rf1, rf2, 6 , zstart, kZvac1, posfluka, materialsA, fieldsA, cutsA);
for (i=0; i<6; i++) rf1[i]=rf2[i];
- for (i=1; i<6; i++) rf2[i]=rf1[i]+dr11*TMath::Tan(thetaOpen1);
- flukaGeom->OnionCone(rf1, rf2, 6 , zvac1, zvac1+dr11, posfluka, materialsA, fieldsA, cutsA);
- flukaGeom->Cone(rc1, rf2[5], rc1, rc1+dr11, zvac1 , zvac1+dr11, posfluka,"AIR", "MF", "$SHH");
+ for (i=1; i<6; i++) rf2[i]=rf1[i]+kDr11*TMath::Tan(kThetaOpen1);
+ flukaGeom->OnionCone(rf1, rf2, 6 , kZvac1, kZvac1+kDr11, posfluka, materialsA, fieldsA, cutsA);
+ flukaGeom->Cone(rc1, rf2[5], rc1, rc1+kDr11, kZvac1 , kZvac1+kDr11, posfluka,"AIR", "MF", "$SHH");
+ }
+
//
// end Fluka
dTubeS = 0.35;
dVacuS += 0.25;
- cpar0[0] = (zvac4-zvac3)/2;
- cpar0[1] = rB1;
+ cpar0[0] = (kZvac4-kZvac3)/2;
+ cpar0[1] = kRB1;
cpar0[2] = cpar0[1]+dVacuS;
- cpar0[3] = cpar0[1]+2.*cpar0[0]*TMath::Tan(thetaOpenB);
- cpar0[4] = cpar0[2]+2.*cpar0[0]*TMath::Tan(thetaOpenB);
+ cpar0[3] = cpar0[1]+2.*cpar0[0]*TMath::Tan(kThetaOpenB);
+ cpar0[4] = cpar0[2]+2.*cpar0[0]*TMath::Tan(kThetaOpenB);
gMC->Gsvolu("YV12", "CONE", idtmed[kSteel], cpar0, 5);
Float_t r2V=cpar0[3];
//
// insulation
cpar[0] = cpar0[0];
cpar[1] = cpar0[1]+dTubeS;
- cpar[2] = cpar0[1]+dTubeS+dInsuS;
+ cpar[2] = cpar0[1]+dTubeS+kDInsuS;
cpar[3] = cpar0[3]+dTubeS;
- cpar[4] = cpar0[3]+dTubeS+dInsuS;
+ cpar[4] = cpar0[3]+dTubeS+kDInsuS;
gMC->Gsvolu("YI12", "CONE", idtmed[kInsulation], cpar, 5);
gMC->Gspos("YI12", 1, "YV12", 0., 0., 0., 0, "ONLY");
//
// begin Fluka
- char* materialsB[5]
+ const char* materialsB[5]
= {"VACUUM", "STEEL", "PIPEINSU", "STEEL", "AIR"};
- char* fieldsB[5]
+ const char* fieldsB[5]
= {"MF", "MF", "MF", "MF", "MF"};
- char* cutsB[5]
+ const char* cutsB[5]
= {"$SHH","$SHH","$SHH","$SHH","$SHH"};
-
+
+ if (fWriteGeometry) {
+
rf1[0]=rf2[0]=0.;
rf1[1]=cpar0[1];
rf2[1]=cpar0[3];
- rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+dInsuS; rf1[4]=rf1[3]+dEnveS;
+ rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+kDInsuS; rf1[4]=rf1[3]+kDEnveS;
rf1[5]=r2;
- rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+dInsuS; rf2[4]=rf2[3]+dEnveS;
+ rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+kDInsuS; rf2[4]=rf2[3]+kDEnveS;
rf2[5]=r2;
flukaGeom->Comment("1st part: Beam pipe lateral structure (right)");
- flukaGeom->OnionCone(rf1, rf2, 6 , zvac3, zvac4, posfluka, materialsB, fieldsB, cutsB);
+ flukaGeom->OnionCone(rf1, rf2, 6 , kZvac3, kZvac4, posfluka, materialsB, fieldsB, cutsB);
for (i=0; i<6; i++) rf2[i]=rf1[i];
for (i=1; i<5; i++) rf1[i]=rf2[i];
- rf1[5]=rf2[5]+dr13;
- flukaGeom->OnionCone(rf1, rf2, 6 , zvac3-dr13, zvac3, posfluka, materialsB, fieldsB, cutsB);
-
+ rf1[5]=rf2[5]+kDr13;
+ flukaGeom->OnionCone(rf1, rf2, 6 , kZvac3-kDr13, kZvac3, posfluka, materialsB, fieldsB, cutsB);
+ }
+
//
// end Fluka
par2[0] = 0.;
par2[1] = 360.;
par2[2] = 11.;
- dl=(zvac7-zvac4)/2.;
+ dl=(kZvac7-kZvac4)/2.;
// recess station 2
par2[3] = -dl;
par2[4] = r2;
- par2[5] = R21;
+ par2[5] = kR21;
par2[6] = -dl+.1;
par2[7] = r2;
- par2[8] = R21;
+ par2[8] = kR21;
- par2[9] = -dl+(zvac6-zvac4);
- par2[10] = r2+(zvac6-zvac4-10.) * TMath::Tan(thetaOpen2);
- par2[11] = R21;
+ par2[9] = -dl+(kZvac6-kZvac4);
+ par2[10] = r2+(kZvac6-kZvac4-10.) * TMath::Tan(kThetaOpen2);
+ par2[11] = kR21;
- par2[12] = -dl+(zvac6-zvac4);
+ par2[12] = -dl+(kZvac6-kZvac4);
par2[13] = par2[10];
- par2[14] = zvac6*TMath::Tan(accMin);
+ par2[14] = kZvac6*TMath::Tan(kAccMin);
// Start of Pb section
- par2[15] = -dl+(zPb-zvac4);
- par2[16] = r2+(zPb-zvac4-10.) * TMath::Tan(thetaOpen2);
- par2[17] = zPb*TMath::Tan(accMin);
+ par2[15] = -dl+(kZPb-kZvac4);
+ par2[16] = r2+(kZPb-kZvac4-10.) * TMath::Tan(kThetaOpen2);
+ par2[17] = kZPb*TMath::Tan(kAccMin);
//
// end of cone following 2 deg line
- par2[18] = -dl+(zConeE-zvac4);
- par2[19] = r2+(zConeE-zvac4-10.) * TMath::Tan(thetaOpen2);
+ par2[18] = -dl+(kZConeE-kZvac4);
+ par2[19] = r2+(kZConeE-kZvac4-10.) * TMath::Tan(kThetaOpen2);
par2[20] = 30.;
// recess station 3
- par2[21] = -dl+(zch31-zvac4);
- par2[22] = r2+(zch31-zvac4-10.) * TMath::Tan(thetaOpen2);
+ par2[21] = -dl+(kZch31-kZvac4);
+ par2[22] = r2+(kZch31-kZvac4-10.) * TMath::Tan(kThetaOpen2);
par2[23] = 30.;
- par2[24] = -dl+(zch31-zvac4);
- par2[25] = r2+(zch31-zvac4-10.) * TMath::Tan(thetaOpen2);
+ par2[24] = -dl+(kZch31-kZvac4);
+ par2[25] = r2+(kZch31-kZvac4-10.) * TMath::Tan(kThetaOpen2);
par2[26] = 29.;
- par2[27] = -dl+(zch32-zvac4);
- par2[28] = r2+(zch32-zvac4-10.) * TMath::Tan(thetaOpen2);
+ par2[27] = -dl+(kZch32-kZvac4);
+ par2[28] = r2+(kZch32-kZvac4-10.) * TMath::Tan(kThetaOpen2);
par2[29] = 29.;
- par2[30] = -dl+(zch32-zvac4);
- par2[31] = r2+(zch32-zvac4-10.) * TMath::Tan(thetaOpen2);
+ par2[30] = -dl+(kZch32-kZvac4);
+ par2[31] = r2+(kZch32-kZvac4-10.) * TMath::Tan(kThetaOpen2);
par2[32] = 30.;
- par2[33] = -dl+(zvac7-zvac4);
- par2[34] = r2+(zvac7-zvac4-10.) * TMath::Tan(thetaOpen2);
+ par2[33] = -dl+(kZvac7-kZvac4);
+ par2[34] = r2+(kZvac7-kZvac4-10.) * TMath::Tan(kThetaOpen2);
par2[35] = 30.;
gMC->Gsvolu("YGO2", "PCON", idtmed[kSteel+40], par2, 36);
//
// begin Fluka
-
- char* materials1[8]
+ Float_t r3V = 0.;
+
+ if (fWriteGeometry) {
+ const char* materials1[8]
= {"VACUUM", "STEEL", "PIPEINSU", "STEEL", "AIR", "NIW", "NIW", "STEEL"};
- char* fields1[8]
+ const char* fields1[8]
= {"MF", "MF", "MF", "MF", "MF", "MF", "MF", "MF"};
- char* cuts1[8]
+ const char* cuts1[8]
= {"$SHH","$SHH","$SHH","$SHH","$SHH","$SHH","$SHH","$SHH"};
flukaGeom->Comment("2nd part: Beam shield lateral struture (0)");
// until end of recess 1
- rf1[0] = 0.; rf1[1] = r2V; rf1[2] = rf1[1] + dTubeS; rf1[3] = rf1[2] + dInsuS;
- rf1[4] = rf1[3] + dEnveS; rf1[5] = r2; rf1[6] = rf1[5]+2.;
- rf1[7] = R11-dRSteel1; rf1[8] = R21;
+ rf1[0] = 0.; rf1[1] = r2V; rf1[2] = rf1[1] + dTubeS; rf1[3] = rf1[2] + kDInsuS;
+ rf1[4] = rf1[3] + kDEnveS; rf1[5] = r2; rf1[6] = rf1[5]+2.;
+ rf1[7] = kR11-kDRSteel1; rf1[8] = kR21;
- for (i=1; i<7; i++) rf2[i]=rf1[i]+4.*TMath::Tan(thetaOpenB);
+ for (i=1; i<7; i++) rf2[i]=rf1[i]+4.*TMath::Tan(kThetaOpenB);
rf2[7] = rf1[7];
rf2[8] = rf1[8];
- flukaGeom->OnionCone(rf1, rf2, 9 , zvac4, zvac4+4, posfluka, materials1, fields1, cuts1);
+ flukaGeom->OnionCone(rf1, rf2, 9 , kZvac4, kZvac4+4, posfluka, materials1, fields1, cuts1);
flukaGeom->Comment("2nd part: Beam shield lateral struture (1)");
// until end of recess 2
for (i=0; i<9; i++) rf1[i]=rf2[i];
- rf1[7] = R21-dRSteel2; rf1[8] = R21;
- for (i=1; i<9; i++) rf2[i]=rf1[i]+(zvac6-zvac4-4.)*TMath::Tan(thetaOpenB);
+ rf1[7] = kR21-kDRSteel2; rf1[8] = kR21;
+ for (i=1; i<9; i++) rf2[i]=rf1[i]+(kZvac6-kZvac4-4.)*TMath::Tan(kThetaOpenB);
rf2[7] = rf1[7];
rf2[8] = rf1[8];
- flukaGeom->OnionCone(rf1, rf2, 9 , zvac4+4, zvac6, posfluka, materials1, fields1, cuts1);
+ flukaGeom->OnionCone(rf1, rf2, 9 , kZvac4+4, kZvac6, posfluka, materials1, fields1, cuts1);
flukaGeom->Comment("2nd part: Beam shield lateral struture (2)");
// steel recess
for (i=0; i<9; i++) rf1[i]=rf2[i];
- rf1[8] = zvac6*TMath::Tan(accMin);
- rf1[7] = R21-dRSteel2;
+ rf1[8] = kZvac6*TMath::Tan(kAccMin);
+ rf1[7] = kR21-kDRSteel2;
- for (i=1; i<9; i++) rf2[i]=rf1[i]+4.*TMath::Tan(thetaOpenB);
+ for (i=1; i<9; i++) rf2[i]=rf1[i]+4.*TMath::Tan(kThetaOpenB);
rf2[7] = rf1[7];
- rf2[8] = -(rf1[8]+4.*TMath::Tan(accMin));
+ rf2[8] = -(rf1[8]+4.*TMath::Tan(kAccMin));
rf1[8] = -rf1[8];
- flukaGeom->OnionCone(rf1, rf2, 9 , zvac6, zvac6+4, posfluka, materials1, fields1, cuts1);
+ flukaGeom->OnionCone(rf1, rf2, 9 , kZvac6, kZvac6+4, posfluka, materials1, fields1, cuts1);
rf1[8] = -rf1[8];
rf2[8] = -rf2[8];
flukaGeom->Comment("2nd part: Beam shield lateral struture (3)");
// until start of lead section
for (i=0; i<9; i++) rf1[i]=rf2[i];
- for (i=1; i<9; i++) rf2[i]=rf1[i]+(zPb-zvac6-4.)*TMath::Tan(thetaOpenB);
- rf1[7] = rf1[8] - dRSteel2;
- rf2[8] = rf1[8] + (zPb-zvac6-4.)*TMath::Tan(accMin);
- rf2[7] = rf2[8] - dRSteel2;
+ for (i=1; i<9; i++) rf2[i]=rf1[i]+(kZPb-kZvac6-4.)*TMath::Tan(kThetaOpenB);
+ rf1[7] = rf1[8] - kDRSteel2;
+ rf2[8] = rf1[8] + (kZPb-kZvac6-4.)*TMath::Tan(kAccMin);
+ rf2[7] = rf2[8] - kDRSteel2;
rf1[8]=-rf1[8];
rf2[8]=-rf2[8];
- flukaGeom->OnionCone(rf1, rf2, 9 , zvac6+4, zPb, posfluka, materials1, fields1, cuts1);
+ flukaGeom->OnionCone(rf1, rf2, 9 , kZvac6+4, kZPb, posfluka, materials1, fields1, cuts1);
rf1[8]=-rf1[8];
rf2[8]=-rf2[8];
materials1[5] = "LEAD";
materials1[6] = "LEAD";
for (i=0; i<9; i++) rf1[i]=rf2[i];
- for (i=1; i<9; i++) rf2[i]=rf1[i]+(zConeE-zPb)*TMath::Tan(thetaOpenB);
+ for (i=1; i<9; i++) rf2[i]=rf1[i]+(kZConeE-kZPb)*TMath::Tan(kThetaOpenB);
rf1[8] = -rf1[8];
rf2[8] = -30.;
rf2[7] = 26.;
- flukaGeom->OnionCone(rf1, rf2, 9 , zPb, zConeE, posfluka, materials1, fields1, cuts1);
+ flukaGeom->OnionCone(rf1, rf2, 9 , kZPb, kZConeE, posfluka, materials1, fields1, cuts1);
rf1[8]=-rf1[8];
rf2[8]=-rf2[8];
flukaGeom->Comment("2nd part: Beam shield lateral struture (4)");
// until end of this section
for (i=0; i<9; i++) rf1[i]=rf2[i];
- for (i=1; i<9; i++) rf2[i]=rf1[i]+(zvac7-zConeE)*TMath::Tan(thetaOpenB);
+ for (i=1; i<9; i++) rf2[i]=rf1[i]+(kZvac7-kZConeE)*TMath::Tan(kThetaOpenB);
rf2[8] = 30;
rf2[7] = 26;
- flukaGeom->OnionCone(rf1, rf2, 9 , zConeE, zvac7, posfluka, materials1, fields1, cuts1);
-
- Float_t r3V = rf2[1];
+ flukaGeom->OnionCone(rf1, rf2, 9 , kZConeE, kZvac7, posfluka, materials1, fields1, cuts1);
+ r3V = rf2[1];
+ }
+
// end Fluka
//
// Lead cone
//
- Float_t parPb[12];
- parPb[0] = 0.;
- parPb[1] = 360.;
- parPb[2] = 3.;
- Float_t dlPb=(zvac7-zPb)/2.;
-
- parPb[3] = -dlPb;
- parPb[4] = r2+(zPb-zvac4-10.) * TMath::Tan(thetaOpen2);
- parPb[5] = zPb*TMath::Tan(accMin)-dRSteel2;
+ Float_t parPb[18];
+ parPb[ 0] = 0.;
+ parPb[ 1] = 360.;
+ parPb[ 2] = 5.;
+ Float_t dlPb=(kZvac7-kZPb)/2.;
- parPb[6] = -dlPb+(zConeE-zPb);
- parPb[7] = r2+(zConeE-zvac4-10.) * TMath::Tan(thetaOpen2);
- parPb[8] = 26.;
+ parPb[ 3] = -dlPb;
+ parPb[ 4] = r2+(kZPb-kZvac4-10.) * TMath::Tan(kThetaOpen2);
+ parPb[ 5] = kZPb*TMath::Tan(kAccMin)-kDRSteel2;
- parPb[9] = dlPb;
- parPb[10] = r2+(zvac7-zvac4-10.) * TMath::Tan(thetaOpen2);
+ parPb[ 6] = -dlPb+(kZConeE-kZPb);
+ parPb[ 7] = r2+(kZConeE-kZvac4-10.) * TMath::Tan(kThetaOpen2);
+ parPb[ 8] = 26.;
+
+ parPb[ 9] = -dlPb+(kZch32+4.-kZPb);
+ parPb[10] = r2+(kZch32+4.-kZvac4-10.) * TMath::Tan(kThetaOpen2);
parPb[11] = 26.;
- gMC->Gsvolu("YXO2", "PCON", idtmed[kPb], parPb, 12);
- gMC->Gspos("YXO2", 1, "YGO2", 0., 0., (zPb-zvac4)/2., 0, "ONLY");
+ parPb[12] = -dlPb+(kZch32+4.-kZPb);
+ parPb[13] = r2+(kZch32+4.-kZvac4-10.) * TMath::Tan(kThetaOpen2);
+ parPb[14] = 30.;
+
+ parPb[15] = dlPb;
+ parPb[16] = r2+(kZvac7-kZvac4-10.) * TMath::Tan(kThetaOpen2);
+ parPb[17] = 30.;
+
+ gMC->Gsvolu("YXO2", "PCON", idtmed[kPb], parPb, 18);
+ gMC->Gspos("YXO2", 1, "YGO2", 0., 0., (kZPb-kZvac4)/2., 0, "ONLY");
//
// W cone
parW[0] = 0.;
parW[1] = 360.;
parW[2] = 4.;
- Float_t dlW=(zPb-zvac4)/2.;
+ Float_t dlW=(kZPb-kZvac4)/2.;
parW[3] = -dlW;
parW[4] = r2;
- parW[5] = R21-dRSteel2;
+ parW[5] = kR21-kDRSteel2;
- parW[6] = -dlW+(zvac6-zvac4)+dRSteel2;
- parW[7] = r2+(zvac6-zvac4+dRSteel2) * TMath::Tan(thetaOpen2);
- parW[8] = R21-dRSteel2;
+ parW[6] = -dlW+(kZvac6-kZvac4)+kDRSteel2;
+ parW[7] = r2+(kZvac6-kZvac4+kDRSteel2) * TMath::Tan(kThetaOpen2);
+ parW[8] = kR21-kDRSteel2;
- parW[9] = -dlW+(zvac6-zvac4)+dRSteel2;
- parW[10] = r2+(zvac6-zvac4+dRSteel2) * TMath::Tan(thetaOpen2);
- parW[11] = (zvac6+dRSteel2)*TMath::Tan(accMin)-dRSteel2;
+ parW[9] = -dlW+(kZvac6-kZvac4)+kDRSteel2;
+ parW[10] = r2+(kZvac6-kZvac4+kDRSteel2) * TMath::Tan(kThetaOpen2);
+ parW[11] = (kZvac6+kDRSteel2)*TMath::Tan(kAccMin)-kDRSteel2;
parW[12] = dlW;
- parW[13] = r2+(zPb-zvac4) * TMath::Tan(thetaOpen2);
- parW[14] = zPb*TMath::Tan(accMin)-dRSteel2;
+ parW[13] = r2+(kZPb-kZvac4) * TMath::Tan(kThetaOpen2);
+ parW[14] = kZPb*TMath::Tan(kAccMin)-kDRSteel2;
gMC->Gsvolu("YYO2", "PCON", idtmed[kNiCuW], parW, 15);
- gMC->Gspos("YYO2", 1, "YGO2", 0., 0., -(zvac7-zPb)/2., 0, "ONLY");
+ gMC->Gspos("YYO2", 1, "YGO2", 0., 0., -(kZvac7-kZPb)/2., 0, "ONLY");
for (i=4; i<35; i+=3) par2[i] = 0;
//
// 2nd section: vacuum system
//
- cpar0[0]=(zvac7-zvac4)/2;
+ cpar0[0]=(kZvac7-kZvac4)/2;
cpar0[1]=r2V;
cpar0[2]=r2V+dVacuS;
- cpar0[3]=cpar0[1]+2.*cpar0[0]*TMath::Tan(thetaOpenB);
- cpar0[4]=cpar0[2]+2.*cpar0[0]*TMath::Tan(thetaOpenB);
+ cpar0[3]=cpar0[1]+2.*cpar0[0]*TMath::Tan(kThetaOpenB);
+ cpar0[4]=cpar0[2]+2.*cpar0[0]*TMath::Tan(kThetaOpenB);
gMC->Gsvolu("YV21", "CONE", idtmed[kSteel+40], cpar0, 5);
//
// insulation
cpar[0]=cpar0[0];
cpar[1]=cpar0[1]+dTubeS;
- cpar[2]=cpar0[1]+dTubeS+dInsuS;
+ cpar[2]=cpar0[1]+dTubeS+kDInsuS;
cpar[3]=cpar0[3]+dTubeS;
- cpar[4]=cpar0[3]+dTubeS+dInsuS;
+ cpar[4]=cpar0[3]+dTubeS+kDInsuS;
gMC->Gsvolu("YI21", "CONE", idtmed[kInsulation+40], cpar, 5);
gMC->Gspos("YI21", 1, "YV21", 0., 0., 0., 0, "ONLY");
gMC->Gspos("YV21", 1, "YMO2", 0., 0., 0., 0, "ONLY");
par3[0] = 0.;
par3[1] = 360.;
par3[2] = 8.;
- dl=(zvac9-zvac7)/2.;
+ dl=(kZvac9-kZvac7)/2.;
par3[3] = -dl;
- par3[4] = r2+(zvac7-zvac3) * TMath::Tan(thetaOpen2);
+ par3[4] = r2+(kZvac7-kZvac3) * TMath::Tan(kThetaOpen2);
par3[5] = 30.;
- par3[6] = -dl+dr21;
- par3[7] = par3[4]+dr21;
+ par3[6] = -dl+kDr21;
+ par3[7] = par3[4]+kDr21;
par3[8] = 30.;
- par3[9] = par3[6]+dB2;
+ par3[9] = par3[6]+kDB2;
par3[10] = par3[7];
par3[11] = 30.;
- par3[12] = par3[9]+dr22;
- par3[13] = par3[10]+dr22;
+ par3[12] = par3[9]+kDr22;
+ par3[13] = par3[10]+kDr22;
par3[14] = 30.;
- par3[15] = par3[12]+dF2;
+ par3[15] = par3[12]+kDF2;
par3[16] = par3[13];
par3[17] = 30.;
- par3[18] = par3[15]+dr22;
- par3[19] = par3[16]-dr22;
+ par3[18] = par3[15]+kDr22;
+ par3[19] = par3[16]-kDr22;
par3[20] = 30.;
- par3[21] = par3[18]+dB2;
+ par3[21] = par3[18]+kDB2;
par3[22] = par3[19];
par3[23] = 30.;
- par3[24] = par3[21]+dr23;
+ par3[24] = par3[21]+kDr23;
par3[25] = par3[22];
par3[26] = 30.;
//
gMC->Gsvolu("YGO3", "PCON", idtmed[iHeavy+40], par3, 27);
// begin Fluka
+ if (fWriteGeometry) {
Float_t rfvacu0[15];
for (ifl=0; ifl<8; ifl++) {
- zfluka[ifl]=par3[3+3*ifl]+dl+zvac7;
+ zfluka[ifl]=par3[3+3*ifl]+dl+kZvac7;
rfluka1[ifl] = par3[4+3*ifl];
rfluka2[ifl] = par3[5+3*ifl]-4.;
rfluka3[ifl] = par3[5+3*ifl];
rf1[0]=0.; rf2[0]=0.;
rf1[1] = r3V;
- rf2[1] = rf1[1]+dr21*TMath::Tan(thetaOpenB);
- rf1[2] = rf1[1]+dTubeS; rf1[3]=rf1[2]+dInsuS; rf1[4]=rf1[3]+dEnveS;
+ rf2[1] = rf1[1]+kDr21*TMath::Tan(kThetaOpenB);
+ rf1[2] = rf1[1]+dTubeS; rf1[3]=rf1[2]+kDInsuS; rf1[4]=rf1[3]+kDEnveS;
rf1[5] = par3[4];
- rf2[2] = rf2[1]+dTubeS; rf2[3]=rf2[2]+dInsuS; rf2[4]=rf2[3]+dEnveS;
- rf2[5] = rf1[5]+dr21;
- flukaGeom->OnionCone(rf1, rf2, 6 , zvac7, zvac7+dr21, posfluka, materialsB, fieldsB, cutsB);
+ rf2[2] = rf2[1]+dTubeS; rf2[3]=rf2[2]+kDInsuS; rf2[4]=rf2[3]+kDEnveS;
+ rf2[5] = rf1[5]+kDr21;
+ flukaGeom->OnionCone(rf1, rf2, 6 , kZvac7, kZvac7+kDr21, posfluka, materialsB, fieldsB, cutsB);
flukaGeom->Comment("3rd part: Beam Pipe (right)");
rf1[0] = 0.;
rf1[1] = rf2[1];
- rf1[2] = rf1[1]+dTubeS; rf1[3]=rf1[2]+dInsuS; rf1[4]=rf1[3]+dEnveS;
+ rf1[2] = rf1[1]+dTubeS; rf1[3]=rf1[2]+kDInsuS; rf1[4]=rf1[3]+kDEnveS;
rf1[5] = par3[25];
- flukaGeom->OnionCylinder(rf1, 6 , zvac9-dr23, zvac9, posfluka, materialsA, fieldsA, cutsA);
+ flukaGeom->OnionCylinder(rf1, 6 , kZvac9-kDr23, kZvac9, posfluka, materialsA, fieldsA, cutsA);
//
flukaGeom->Comment("First Bellow");
- z1=zvac7+dr21;
+ z1=kZvac7+kDr21;
for (i=0; i<7; i++) {
- z2=z1+eB2;
- flukaGeom->Cylinder(0., rB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+hB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1+kEB2;
+ flukaGeom->Cylinder(0., kRB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+kHB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2+=lB2/2.-eB2;
- flukaGeom->Cylinder(0., rB2+hB2-eB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+hB2-eB2, rB2+hB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ z2+=kLB2/2.-kEB2;
+ flukaGeom->Cylinder(0., kRB2+kHB2-kEB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kHB2-kEB2, kRB2+kHB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2=z1+eB2;
- flukaGeom->Cylinder(0., rB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+hB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1+kEB2;
+ flukaGeom->Cylinder(0., kRB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+kHB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2+=lB2/2.-eB2;
- flukaGeom->Cylinder(0., rB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+eB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+eB2, rB2+hB2, z1, z2, posfluka, "AIR", "MF", "$SHH");
+ z2+=kLB2/2.-kEB2;
+ flukaGeom->Cylinder(0., kRB2, z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+kEB2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kEB2, kRB2+kHB2, z1, z2, posfluka, "AIR", "MF", "$SHH");
z1=z2;
}
- flukaGeom->Cylinder(rB2+hB2, rB2+hB2+0.2, zvac7+dr21, z1, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+hB2+0.2, rBox, zvac7+dr21, z1, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kHB2, kRB2+kHB2+0.2, kZvac7+kDr21, z1, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kHB2+0.2, rBox, kZvac7+kDr21, z1, posfluka, "AIR", "MF", "$SHH");
zcy1=z1;
flukaGeom->Comment("Second Bellow");
- z1=zvac9-dr23;
+ z1=kZvac9-kDr23;
for (i=0; i<7; i++) {
- z2=z1-eB2;
- flukaGeom->Cylinder(0., rB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+hB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1-kEB2;
+ flukaGeom->Cylinder(0., kRB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+kHB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2-=lB2/2.-eB2;
- flukaGeom->Cylinder(0., rB2+hB2-eB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+hB2-eB2, rB2+hB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ z2-=kLB2/2.-kEB2;
+ flukaGeom->Cylinder(0., kRB2+kHB2-kEB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kHB2-kEB2, kRB2+kHB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2=z1-eB2;
- flukaGeom->Cylinder(0., rB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+hB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ z2=z1-kEB2;
+ flukaGeom->Cylinder(0., kRB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+kHB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
z1=z2;
- z2-=lB2/2.-eB2;
- flukaGeom->Cylinder(0., rB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+eB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+eB2, rB2+hB2, z2, z1, posfluka, "AIR", "MF", "$SHH");
+ z2-=kLB2/2.-kEB2;
+ flukaGeom->Cylinder(0., kRB2, z2, z1, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+kEB2, z2, z1, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kEB2, kRB2+kHB2, z2, z1, posfluka, "AIR", "MF", "$SHH");
z1=z2;
}
- flukaGeom->Cylinder(rB2+hB2, rB2+hB2+0.2, z1, zvac9-dr23, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+hB2+0.2, rBox, z1, zvac9-dr23, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kHB2, kRB2+kHB2+0.2, z1, kZvac9-kDr23, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+kHB2+0.2, rBox, z1, kZvac9-kDr23, posfluka, "AIR", "MF", "$SHH");
zcy2=z1;
flukaGeom->Comment("Flange");
zfl=(zcy1+zcy2)/2.;
- z1=zfl-dF2/2.;
- z2=zfl+dF2/2.;
- flukaGeom->Cylinder(0.,rF2-2., z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rF2-2., rF2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rF2, rF2+0.02 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rF2+0.02, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ z1=zfl-kDF2/2.;
+ z2=zfl+kDF2/2.;
+ flukaGeom->Cylinder(0.,kRF2-2., z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF2-2., kRF2, z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF2, kRF2+0.02 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF2+0.02, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
z2=z1;
- z1=z2-dFlange;
- flukaGeom->Cylinder(0.,rB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rF2 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rF2, rF2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rF2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ z1=z2-kDFlange;
+ flukaGeom->Cylinder(0.,kRB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRF2 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF2, kRF2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
z2=z1;
z1=zcy1;
- flukaGeom->Cylinder(0.,rB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+0.1, rB2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
-
- z1=zfl+dF2/2.;
- z2=z1+dFlange;
- flukaGeom->Cylinder(0.,rB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rF2 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rF2, rF2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rF2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(0.,kRB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+0.1, kRB2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+
+ z1=zfl+kDF2/2.;
+ z2=z1+kDFlange;
+ flukaGeom->Cylinder(0.,kRB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRF2 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF2, kRF2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRF2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
z1=z2;
z2=zcy2;
- flukaGeom->Cylinder(0.,rB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
- flukaGeom->Cylinder(rB2, rB2+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+0.1, rB2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
- flukaGeom->Cylinder(rB2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(0.,kRB2 , z1, z2, posfluka, "VACUUM", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2, kRB2+0.1 , z1, z2, posfluka, "STEEL", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+0.1, kRB2+0.2 , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ flukaGeom->Cylinder(kRB2+0.2, rBox , z1, z2, posfluka, "AIR", "MF", "$SHH");
+ }
+
//
// end Fluka
-
+
for (i=4; i<26; i+=3) par3[i] = 0;
gMC->Gsvolu("YMO3", "PCON", idtmed[kVacuum+40], par3, 27);
//
// Steel envelope
- tpar[0]=26;
- tpar[1]=30;
- tpar[2]=dl;
- gMC->Gsvolu("YS31", "TUBE", idtmed[kSteel], tpar, 3);
- gMC->Gspos("YS31", 1, "YGO3", 0., 0., 0., 0, "ONLY");
+// tpar[0]=26;
+// tpar[1]=30;
+// tpar[2]=dl;
+// gMC->Gsvolu("YS31", "TUBE", idtmed[kSteel], tpar, 3);
+// gMC->Gspos("YS31", 1, "YGO3", 0., 0., 0., 0, "ONLY");
dZ+=dl;
gMC->Gspos("YMO3", 1, "YMOT", 0., 0., dZ, 0, "ONLY");
dZ+=dl;
//
// Bellow2
//
- tpar[0]=rB2;
- tpar[1]=rB2+hB2;
- tpar[2]=eB2/2.;
+ Float_t eps = 0.;
+ Float_t kLB2S = kLB2-eps;
+
+ tpar[0]=kRB2;
+ tpar[1]=kRB2+kHB2;
+ tpar[2]=kEB2/2.;
gMC->Gsvolu("YB21", "TUBE", idtmed[kSteel+40], tpar, 3);
dl1=tpar[2];
- tpar[0]=rB2+hB2-eB2;
- tpar[1]=rB2+hB2;
- tpar[2]=(lB2/2.-2.*eB2)/2.;
+ tpar[0]=kRB2+kHB2-kEB2;
+ tpar[1]=kRB2+kHB2;
+ tpar[2]=(kLB2S/2.-2.*kEB2)/2.;
gMC->Gsvolu("YB22", "TUBE", idtmed[kSteel+40], tpar, 3);
dl2=tpar[2];
- tpar[0]=rB2-eB2;
- tpar[1]=rB2;
- tpar[2]=lB2/8.;
+ tpar[0]=kRB2-kEB2;
+ tpar[1]=kRB2;
+ tpar[2]=kLB2S/8.;
gMC->Gsvolu("YB23", "TUBE", idtmed[kSteel+40], tpar, 3);
dl3=tpar[2];
tpar[0]=0;
- tpar[1]=rB2+hB2;
- tpar[2]=lB2/2.;
+ tpar[1]=kRB2+kHB2;
+ tpar[2]= - kLB2S/2.;
gMC->Gsvolu("YBU2", "TUBE", idtmed[kVacuum+40], tpar, 3);
- dz=-tpar[2]+dl3;
+ tpar[0]=0;
+ tpar[1]=kRB2+kHB2;
+ tpar[2]=7.*kLB2/2.;
+
+ gMC->Gsvolu("YBM2", "TUBE", idtmed[kVacuum+40], tpar, 3);
+ gMC->Gsdvn("YBMS", "YBM2", 7, 3);
+ gMC->Gspos("YBU2", 1, "YBMS", 0., 0., 0., 0, "ONLY");
+
+ dz=-kLB2S/2.+dl3;
gMC->Gspos("YB23", 1, "YBU2", 0., 0., dz, 0, "ONLY");
dz+=dl3;
dz+=dl1;
dz+=dl1;
dz+=dl3;
gMC->Gspos("YB23", 2, "YBU2", 0., 0., dz, 0, "ONLY");
-
-
- tpar[0]=0;
- tpar[1]=rB2+hB2;
- tpar[2]=7.*lB2/2.;
- gMC->Gsvolu("YBM2", "TUBE", idtmed[kVacuum+40], tpar, 3);
- dz=-tpar[2]+lB2/2.;
-
- for (i=0; i<7; i++) {
- gMC->Gspos("YBU2", i+1 , "YBM2", 0., 0.,dz , 0, "ONLY");
- dz+=lB2;
- }
- dz=-dl+dr21+tpar[2];
+ dz=-dl+kDr21+tpar[2];
gMC->Gspos("YBM2", 1, "YMO3", 0., 0., dz, 0, "ONLY");
- dz=dl-dr23-tpar[2];
+ dz=dl-kDr23-tpar[2];
gMC->Gspos("YBM2", 2, "YMO3", 0., 0., dz, 0, "ONLY");
//
// Flange
tpar[0]=0;
- tpar[1]=rF2;
- tpar[2]=dF2/2.;
+ tpar[1]=kRF2;
+ tpar[2]=kDF2/2.;
gMC->Gsvolu("YFM2", "TUBE", idtmed[kVacuum+40], tpar, 3);
- tpar[0]=rF2-2.;
- tpar[1]=rF2;
- tpar[2]=dF2/2.;
+ tpar[0]=kRF2-2.;
+ tpar[1]=kRF2;
+ tpar[2]=kDF2/2.;
gMC->Gsvolu("YF21", "TUBE", idtmed[kSteel+40], tpar, 3);
gMC->Gspos("YF21", 1, "YFM2", 0., 0., 0., 0, "ONLY");
- tpar[0]=rB2;
- tpar[1]=rF2-2.;
- tpar[2]=dFlange/2.;
+ tpar[0]=kRB2;
+ tpar[1]=kRF2-2.;
+ tpar[2]=kDFlange/2.;
gMC->Gsvolu("YF22", "TUBE", idtmed[kSteel+40], tpar, 3);
- dz=-dF2/2.+tpar[2];
+ dz=-kDF2/2.+tpar[2];
gMC->Gspos("YF22", 1, "YFM2", 0., 0., dz, 0, "ONLY");
- dz= dF2/2.-tpar[2];
+ dz= kDF2/2.-tpar[2];
gMC->Gspos("YF22", 2, "YFM2", 0., 0., dz, 0, "ONLY");
- dz=dr21/2.-dr23/2.;
+ dz=kDr21/2.-kDr23/2.;
gMC->Gspos("YFM2", 2, "YMO3", 0., 0., dz, 0, "ONLY");
//
// pipe between flange and bellows
- tpar[0]=rB2-dTubeS;
- tpar[1]=rB2;
- tpar[2]=2.*(dB2+dr22-7.*lB2)/4.;
+ tpar[0]=kRB2-dTubeS;
+ tpar[1]=kRB2;
+ tpar[2]=2.*(kDB2+kDr22-7.*kLB2)/4.;
gMC->Gsvolu("YPF2", "TUBE", idtmed[kSteel+40], tpar, 3);
- dz=dr21/2.-dr23/2.-dF2/2.-tpar[2];
+ dz=kDr21/2.-kDr23/2.-kDF2/2.-tpar[2];
gMC->Gspos("YPF2", 1, "YMO3", 0., 0., dz, 0, "ONLY");
- dz=dr21/2.-dr23/2.+dF2/2.+tpar[2];
+ dz=kDr21/2.-kDr23/2.+kDF2/2.+tpar[2];
gMC->Gspos("YPF2", 2, "YMO3", 0., 0., dz, 0, "ONLY");
Float_t dHorZ=20.;
par4[0] = 0.;
par4[1] = 360.;
par4[2] = 7.;
- dl=(zvac12-zvac9)/2.;
+ dl=(kZvac12-kZvac9)/2.;
par4[3] = -dl;
par4[4] = r3;
par4[7] = r3;
par4[8] = 30.;
- par4[9] = -dl+(zvac10-zvac9);
- par4[10] = r3+(zvac10-zvac9-dHorZ) * TMath::Tan(thetaOpen3);
+ par4[9] = -dl+(kZvac10-kZvac9);
+ par4[10] = r3+(kZvac10-kZvac9-dHorZ) * TMath::Tan(kThetaOpen3);
par4[11] = 30.;
par4[12] = par4[9];
par4[13] = par4[10];
- par4[14] = R42;
+ par4[14] = kR42;
- par4[15] = -dl+(zvac11-zvac9);
- par4[16] = r3+(zvac11-zvac9-dHorZ) * TMath::Tan(thetaOpen3);
- par4[17] = R42;
+ par4[15] = -dl+(kZvac11-kZvac9);
+ par4[16] = r3+(kZvac11-kZvac9-dHorZ) * TMath::Tan(kThetaOpen3);
+ par4[17] = kR42;
par4[18] = par4[15];
par4[19] = par4[16];
- par4[20] = R43;
+ par4[20] = kR43;
- par4[21] = -dl+(zvac12-zvac9);
- par4[22] = rVacu+dVacuS;
- par4[23] = R43;
+ par4[21] = -dl+(kZvac12-kZvac9);
+ par4[22] = kRVacu+dVacuS;
+ par4[23] = kR43;
gMC->Gsvolu("YGO4", "PCON", idtmed[iHeavy+40], par4, 24);
-// parPb[0] = (zvac12-zvac10)/2.;
+
+// parPb[0] = (kZvac12-kZvac10)/2.;
// parPb[1] = parPb[3];
// parPb[2] = 31.;
-// parPb[3] = parPb[1]+2.*parPb[0]*TMath::Tan(thetaOpenPb);
+// parPb[3] = parPb[1]+2.*parPb[0]*TMath::Tan(kThetaOpenPb);
// parPb[4] = 31.;
// gMC->Gsvolu("YXO5", "CONE", idtmed[kPb], parPb, 5);
-// gMC->Gspos("YXO5", 1, "YGO4", 0., 0., -dl+(zvac10-zvac9)+parPb[0], 0, "ONLY");
+// gMC->Gspos("YXO5", 1, "YGO4", 0., 0., -dl+(kZvac10-kZvac9)+parPb[0], 0, "ONLY");
for (i=4; i<23; i+=3) par4[i] = 0;
//
// Closing concrete cone
//
- cpar[0]=(zvac12-zvac11)/2.;
- cpar[1] = r3+(zvac11-zvac9-dHorZ) * TMath::Tan(thetaOpen3);
+ cpar[0]=(kZvac12-kZvac11)/2.;
+ cpar[1] = r3+(kZvac11-kZvac9-dHorZ) * TMath::Tan(kThetaOpen3);
cpar[2] = cpar[1]+0.001;
- cpar[3] = rVacu+dVacuS;
+ cpar[3] = kRVacu+dVacuS;
cpar[4] = cpar[2];
gMC->Gsvolu("YCC4", "CONE", idtmed[kConcrete+40], cpar, 5);
dz=dl-cpar[0];
//
// begin Fluka
-
- Float_t r10=r3+(zvac10-zvac9-dHorZ) * TMath::Tan(thetaOpen3);
- Float_t r11=cpar[1];
+ Float_t r10 = .0, r11 = 0.;
+
+ if (fWriteGeometry) {
+ r10=r3+(kZvac10-kZvac9-dHorZ) * TMath::Tan(kThetaOpen3);
+ r11=cpar[1];
flukaGeom->Comment("4th part: Shield");
- flukaGeom->Cone(r3, r3, 26.0, 26.0, zvac9, zvac9+dHorZ,
+ flukaGeom->Cone(r3, r3, 26.0, 26.0, kZvac9, kZvac9+dHorZ,
posfluka, "LEAD", "NF", "$SHH");
- flukaGeom->Cone(r3, r10, 26.0, 26.0, zvac9+dHorZ, zvac10,
+ flukaGeom->Cone(r3, r10, 26.0, 26.0, kZvac9+dHorZ, kZvac10,
posfluka, "LEAD", "NF", "$SHH");
- flukaGeom->Cone(r10, r11, 30.0, 30.0, zvac10, zvac11,
+ flukaGeom->Cone(r10, r11, 30.0, 30.0, kZvac10, kZvac11,
posfluka, "LEAD", "NF", "$SHH");
- flukaGeom->Cylinder( cpar[1], 30.0, zvac11, zvac12,
+ flukaGeom->Cylinder( cpar[1], 30.0, kZvac11, kZvac12,
posfluka, "LEAD", "NF", "$SHH");
flukaGeom->Comment("4th part: Steel Envelope");
- flukaGeom->Cylinder(26.0, 30., zvac9, zvac10, posfluka, "STEEL", "NF", "$SHH");
+ flukaGeom->Cylinder(26.0, 30., kZvac9, kZvac10, posfluka, "STEEL", "NF", "$SHH");
flukaGeom->Comment("4th part: Closing Cone");
- flukaGeom->Cone(cpar[1]-0.1, cpar[3], cpar[1], cpar[1], zvac11, zvac12,
+ flukaGeom->Cone(cpar[1]-0.1, cpar[3], cpar[1], cpar[1], kZvac11, kZvac12,
posfluka, "PORTLAND", "NF", "$SHH");
flukaGeom->Comment("4th part: VACUUM");
- flukaGeom->Cone(0., 0., cpar[1]-0.1, cpar[3], zvac11, zvac12,
- posfluka, "VACUUM", "NF", "$SHH");
+ flukaGeom->Cone(0., 0., cpar[1]-0.1, cpar[3], kZvac11, kZvac12,
+ posfluka, "VACUUM", "NF", "$SHH");
+ }
+
//
// end Fluka
//
dz=-dl;
tpar[0]=26.;
tpar[1]=30.;
- tpar[2]=(zvac10-zvac9)/2.;
+ tpar[2]=(kZvac10-kZvac9)/2.;
gMC->Gsvolu("YS41", "TUBE", idtmed[kSteel], tpar, 3);
dz+=tpar[2];
- gMC->Gspos("YS41", 1, "YGO4", 0., 0., dz, 0, "ONLY");
+// gMC->Gspos("YS41", 1, "YGO4", 0., 0., dz, 0, "ONLY");
dz+=tpar[2];
- tpar[0]=R41-dRSteel2;
- tpar[1]=R41;
- tpar[2]=(zvac11-zvac10)/2.;
+ tpar[0]=kR41-kDRSteel2;
+ tpar[1]=kR41;
+ tpar[2]=(kZvac11-kZvac10)/2.;
gMC->Gsvolu("YS43", "TUBE", idtmed[kPb], tpar, 3);
dz+=tpar[2];
gMC->Gspos("YS43", 1, "YGO4", 0., 0., dz, 0, "ONLY");
//
// rear lead shield
//
- tpar[0]=R41;
- tpar[1]=R42;
- tpar[2]=(zvac11-zvac10)/2.;
+ tpar[0]=kR41;
+ tpar[1]=kR42;
+ tpar[2]=(kZvac11-kZvac10)/2.;
gMC->Gsvolu("YPBI", "TUBE", idtmed[kPb+40], tpar, 3);
dz-=0;
gMC->Gspos("YPBI", 1, "YGO4", 0., 0., dz, 0, "ONLY");
- tpar[0]=R42-5;
- tpar[1]=R42;
- tpar[2]=(zvac11-zvac10)/2.;
+ tpar[0]=kR42-5;
+ tpar[1]=kR42;
+ tpar[2]=(kZvac11-kZvac10)/2.;
gMC->Gsvolu("YPBO", "TUBE", idtmed[kPb], tpar, 3);
gMC->Gspos("YPBO", 1, "YPBI", 0., 0., 0., 0, "ONLY");
//
tpar[0]=31.;
- tpar[1]=R43;
- tpar[2]=(zvac12-zvac11)/2.;
+ tpar[1]=kR43;
+ tpar[2]=(kZvac12-kZvac11)/2.;
gMC->Gsvolu("YFEI", "TUBE", idtmed[kFe+40], tpar, 3);
dz=dl-tpar[2];
gMC->Gspos("YFEI", 1, "YGO4", 0., 0., dz, 0, "ONLY");
tpar[0]=31.;
- tpar[1]=R43;
+ tpar[1]=kR43;
tpar[2]=2.5;
gMC->Gsvolu("YFEO", "TUBE", idtmed[kFe], tpar, 3);
- dz=-(zvac12-zvac11)/2.+tpar[2];
+ dz=-(kZvac12-kZvac11)/2.+tpar[2];
gMC->Gspos("YFEO", 1, "YFEI", 0., 0., dz, 0, "ONLY");
//
// Magnet element
//
tpar[0]=0.;
- tpar[1]=R43;
- tpar[2]=50.;
+ tpar[1]=40.;
+ tpar[2]=85.;
gMC->Gsvolu("YAEM", "TUBE", idtmed[kAir], tpar, 3);
- tpar[0]=rAbs;
- tpar[1]=R43;
- tpar[2]=50.;
+ tpar[0]=17.6/2.;
+ tpar[1]=40.;
+ tpar[2]=85.;
gMC->Gsvolu("YFEM", "TUBE", idtmed[kFe], tpar, 3);
gMC->Gspos("YFEM", 1, "YAEM", 0., 0., 0., 0, "ONLY");
//
-
- dz=zvac12+50.;
- gMC->Gspos("YAEM", 1, "ALIC", 0., 0., dz, 0, "ONLY");
-
-
+ dz=1921.6 + tpar[2];
+ gMC->Gspos("YAEM", 1, "ALIC", 0., 0., dz, 0, "ONLY");
+
//
//
// 4th section: vacuum system
//
// up to closing cone
- r3V=r3-dr23+dVacuS-1.6;
+ r3V=r3-kDr23+dVacuS-1.6;
- cpar0[0]=(zvac11-zvac9)/2;
+ cpar0[0]=(kZvac11-kZvac9)/2;
cpar0[1]=r3V-dVacuS;
cpar0[2]=r3V;
- cpar0[3]=cpar0[1]+2.*cpar0[0]*TMath::Tan(thetaOpen3);
- cpar0[4]=cpar0[2]+2.*cpar0[0]*TMath::Tan(thetaOpen3);
+ cpar0[3]=cpar0[1]+2.*cpar0[0]*TMath::Tan(kThetaOpen3);
+ cpar0[4]=cpar0[2]+2.*cpar0[0]*TMath::Tan(kThetaOpen3);
gMC->Gsvolu("YV31", "CONE", idtmed[kSteel+40], cpar0, 5);
//
// insulation
cpar[0]=cpar0[0];
cpar[1]=cpar0[1]+dTubeS;
- cpar[2]=cpar0[1]+dTubeS+dInsuS;
+ cpar[2]=cpar0[1]+dTubeS+kDInsuS;
cpar[3]=cpar0[3]+dTubeS;
- cpar[4]=cpar0[3]+dTubeS+dInsuS;
+ cpar[4]=cpar0[3]+dTubeS+kDInsuS;
gMC->Gsvolu("YI31", "CONE", idtmed[kInsulation+40], cpar, 5);
gMC->Gspos("YI31", 1, "YV31", 0., 0., 0., 0, "ONLY");
dz=-dl+cpar[0];
//
// begin Fluka
+ if (fWriteGeometry) {
flukaGeom->Comment("4th part: Beam pipe lateral structure");
for (i=0; i<7; i++) fieldsA[i] = "NF";
rf1[0]=0.; rf2[0]=0.;
- rf1[1]=rf2[1]; rf2[1]=rf1[1]+dHorZ*TMath::Tan(thetaOpen3);
+ rf1[1]=rf2[1]; rf2[1]=rf1[1]+dHorZ*TMath::Tan(kThetaOpen3);
- rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+dInsuS; rf1[4]=rf1[3]+dEnveS;
+ rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+kDInsuS; rf1[4]=rf1[3]+kDEnveS;
rf1[5]=r3;
- rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+dInsuS; rf2[4]=rf2[3]+dEnveS;
+ rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+kDInsuS; rf2[4]=rf2[3]+kDEnveS;
rf2[5]=r3;
- flukaGeom->OnionCone(rf1, rf2, 6 , zvac9 , zvac9+dHorZ, posfluka, materialsA, fieldsA, cutsA);
+ flukaGeom->OnionCone(rf1, rf2, 6 , kZvac9 , kZvac9+dHorZ, posfluka, materialsA, fieldsA, cutsA);
rf1[0]=0.; rf2[0]=0.;
- rf1[1]=rf2[1]; rf2[1]=rf1[1]+(zvac10-zvac9-dHorZ)*TMath::Tan(thetaOpen3);
+ rf1[1]=rf2[1]; rf2[1]=rf1[1]+(kZvac10-kZvac9-dHorZ)*TMath::Tan(kThetaOpen3);
- rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+dInsuS; rf1[4]=rf1[3]+dEnveS;
+ rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+kDInsuS; rf1[4]=rf1[3]+kDEnveS;
rf1[5]=r3;
- rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+dInsuS; rf2[4]=rf2[3]+dEnveS;
+ rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+kDInsuS; rf2[4]=rf2[3]+kDEnveS;
rf2[5]=r10;
- flukaGeom->OnionCone(rf1, rf2, 6 , zvac9+dHorZ, zvac10, posfluka, materialsA, fieldsA, cutsA);
+ flukaGeom->OnionCone(rf1, rf2, 6 , kZvac9+dHorZ, kZvac10, posfluka, materialsA, fieldsA, cutsA);
rf1[0]=0.; rf2[0]=0.;
- rf1[1]=rf2[1]; rf2[1]=rf1[1]+(zvac11-zvac10)*TMath::Tan(thetaOpen3);
+ rf1[1]=rf2[1]; rf2[1]=rf1[1]+(kZvac11-kZvac10)*TMath::Tan(kThetaOpen3);
- rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+dInsuS; rf1[4]=rf1[3]+dEnveS;
+ rf1[2]=rf1[1]+dTubeS; rf1[3]=rf1[2]+kDInsuS; rf1[4]=rf1[3]+kDEnveS;
rf1[5]=r10;
- rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+dInsuS; rf2[4]=rf2[3]+dEnveS;
+ rf2[2]=rf2[1]+dTubeS; rf2[3]=rf2[2]+kDInsuS; rf2[4]=rf2[3]+kDEnveS;
rf2[5]=r11;
- flukaGeom->OnionCone(rf1, rf2, 6 , zvac10, zvac11, posfluka, materialsA, fieldsA, cutsA);
+ flukaGeom->OnionCone(rf1, rf2, 6 , kZvac10, kZvac11, posfluka, materialsA, fieldsA, cutsA);
+ }
+
//
// end Fluka
//
// closing cone
- cpar0[0]=(zvac12-zvac11)/2;
- cpar0[1]=r3V-dVacuS+(zvac11-zvac9)*TMath::Tan(thetaOpen3);
- cpar0[2]=r3V +(zvac11-zvac9)*TMath::Tan(thetaOpen3);
- cpar0[3]=rVacu;
- cpar0[4]=rVacu+dTubeS+dInsuS+dProtS+dFreeS;
+ cpar0[0]=(kZvac12-kZvac11)/2;
+ cpar0[1]=r3V-dVacuS+(kZvac11-kZvac9)*TMath::Tan(kThetaOpen3);
+ cpar0[2]=r3V +(kZvac11-kZvac9)*TMath::Tan(kThetaOpen3);
+ cpar0[3]=kRVacu;
+ cpar0[4]=kRVacu+dTubeS+kDInsuS+kDProtS+kDFreeS;
gMC->Gsvolu("YV32", "CONE", idtmed[kSteel+40], cpar0, 5);
//
// insulation
cpar[0]=cpar0[0];
cpar[1]=cpar0[1]+dTubeS;
- cpar[2]=cpar0[1]+dTubeS+dInsuS;
+ cpar[2]=cpar0[1]+dTubeS+kDInsuS;
cpar[3]=cpar0[3]+dTubeS;
- cpar[4]=cpar0[3]+dTubeS+dInsuS;
+ cpar[4]=cpar0[3]+dTubeS+kDInsuS;
gMC->Gsvolu("YI32", "CONE", idtmed[kInsulation+40], cpar, 5);
gMC->Gspos("YI32", 1, "YV32", 0., 0., 0., 0, "ONLY");
//
// clearance
-// cpar[1]=cpar0[2]-dProtS-dFreeS;
-// cpar[2]=cpar0[2]-dProtS;
-// cpar[3]=cpar0[4]-dProtS-dFreeS;
-// cpar[4]=cpar0[4]-dProtS;
+// cpar[1]=cpar0[2]-kDProtS-kDFreeS;
+// cpar[2]=cpar0[2]-kDProtS;
+// cpar[3]=cpar0[4]-kDProtS-kDFreeS;
+// cpar[4]=cpar0[4]-kDProtS;
// gMC->Gsvolu("YP32", "CONE", idtmed[kVacuum+40], cpar, 5);
// gMC->Gspos("YP32", 1, "YV32", 0., 0., 0., 0, "ONLY");
-
dz=dl-cpar[0];
gMC->Gspos("YV32", 1, "YMO4", 0., 0., dz, 0, "ONLY");
//
//
tpar[0] = 50.;
tpar[1] = 310.;
- tpar[2] = (zFilterOut - zFilterIn) / 2.;
+ tpar[2] = (kZFilterOut - kZFilterIn) / 2.;
gMC->Gsvolu("YFIM", "TUBE", idtmed[kFe+40], tpar, 3);
- dz = (zFilterIn + zFilterOut) / 2.;
+ dz = (kZFilterIn + kZFilterOut) / 2.;
tpar[2] -= 10.;
gMC->Gsvolu("YFII","TUBE", idtmed[kFe], tpar, 3);
gMC->Gspos("YFII", 1, "YFIM", 0., 0., 0., 0, "ONLY");
// Shielding close to chamber
//
//
- cpar[0]=(zch11-zRear)/2.;
- cpar[1]=R11;
- cpar[2]=zRear*TMath::Tan(accMin);
- cpar[3]=R11;
- cpar[4]=(zRear+2.*cpar[0])*TMath::Tan(accMin);
+ cpar[0]=(kZch11-kZRear)/2.;
+ cpar[1]=kR11;
+ cpar[2]=kZRear*TMath::Tan(kAccMin);
+ cpar[3]=kR11;
+ cpar[4]=(kZRear+2.*cpar[0])*TMath::Tan(kAccMin);
gMC->Gsvolu("YCS1", "CONE", idtmed[kNiCuW], cpar, 5);
- dz=-(zvac12-zstart)/2.+(zRear-zstart)+cpar[0];
+ dz=-(kZvac12-zstart)/2.+(kZRear-zstart)+cpar[0];
gMC->Gspos("YCS1", 1, "YMOT", 0., 0., dz, 0, "ONLY");
- cpar[0]=(zvac4-zch12)/2.;
- cpar[1]=R11;
- cpar[2]=zch12*TMath::Tan(accMin);
- cpar[3]=R11;
- cpar[4]=(zch12+2.*cpar[0])*TMath::Tan(accMin);
+ cpar[0]=(kZvac4-kZch12)/2.;
+ cpar[1]=kR11;
+ cpar[2]=kZch12*TMath::Tan(kAccMin);
+ cpar[3]=kR11;
+ cpar[4]=(kZch12+2.*cpar[0])*TMath::Tan(kAccMin);
gMC->Gsvolu("YCS3", "CONE", idtmed[kNiCuW], cpar, 5);
- dz=-(zvac12-zstart)/2.+(zch12-zstart)+cpar[0];
+ dz=-(kZvac12-zstart)/2.+(kZch12-zstart)+cpar[0];
gMC->Gspos("YCS3", 1, "YMOT", 0., 0., dz, 0, "ONLY");
// Recess station 1
- cpar[0]=(zch12-zch11)/2.;
- cpar[1]=R11;
+ cpar[0]=(kZch12-kZch11)/2.;
+ cpar[1]=kR11;
cpar[2]=18.;
- cpar[3]=R11;
+ cpar[3]=kR11;
cpar[4]=17.9;
gMC->Gsvolu("YCS2", "CONE", idtmed[kAir], cpar, 5);
- dz=-(zvac12-zstart)/2.+(zch11-zstart)+cpar[0];
+ dz=-(kZvac12-zstart)/2.+(kZch11-zstart)+cpar[0];
gMC->Gspos("YCS2", 1, "YMOT", 0., 0., dz, 0, "ONLY");
Float_t ptubs[5];
- ptubs[0] = R11;
+ ptubs[0] = kR11;
ptubs[1] = 17.9;
ptubs[2] = 0.;
// phi_min, phi_max
- cpar[0]=(zch21-zvac4)/2.;
- cpar[1]=R21;
- cpar[2]=zvac4*TMath::Tan(accMin);
- cpar[3]=R21;
- cpar[4]=(zvac4+2.*cpar[0])*TMath::Tan(accMin);
+ cpar[0]=(kZch21-kZvac4)/2.;
+ cpar[1]=kR21;
+ cpar[2]=kZvac4*TMath::Tan(kAccMin);
+ cpar[3]=kR21;
+ cpar[4]=(kZvac4+2.*cpar[0])*TMath::Tan(kAccMin);
gMC->Gsvolu("YCS4", "CONE", idtmed[kNiCuW], cpar, 5);
- dz=-(zvac12-zstart)/2.+(zvac4-zstart)+cpar[0];
+ dz=-(kZvac12-zstart)/2.+(kZvac4-zstart)+cpar[0];
gMC->Gspos("YCS4", 1, "YMOT", 0., 0., dz, 0, "ONLY");
- cpar[0]=(zvac6-zch22)/2.;
- cpar[1]=R21;
- cpar[2]=zch22*TMath::Tan(accMin);
- cpar[3]=R21;
- cpar[4]=(zch22+2.*cpar[0])*TMath::Tan(accMin);
+ cpar[0]=(kZvac6-kZch22)/2.;
+ cpar[1]=kR21;
+ cpar[2]=kZch22*TMath::Tan(kAccMin);
+ cpar[3]=kR21;
+ cpar[4]=(kZch22+2.*cpar[0])*TMath::Tan(kAccMin);
gMC->Gsvolu("YCS6", "CONE", idtmed[kNiCuW], cpar, 5);
- dz=-(zvac12-zstart)/2.+(zch22-zstart)+cpar[0];
+ dz=-(kZvac12-zstart)/2.+(kZch22-zstart)+cpar[0];
gMC->Gspos("YCS6", 1, "YMOT", 0., 0., dz, 0, "ONLY");
// Recess station 2
- cpar[0]=(zch22-zch21)/2.;
- cpar[1]=R21;
+ cpar[0]=(kZch22-kZch21)/2.;
+ cpar[1]=kR21;
cpar[2]=23.;
- cpar[3]=R21;
+ cpar[3]=kR21;
cpar[4]=23.;
gMC->Gsvolu("YCS5", "CONE", idtmed[kAir], cpar, 5);
- dz=-(zvac12-zstart)/2.+(zch21-zstart)+cpar[0];
+ dz=-(kZvac12-zstart)/2.+(kZch21-zstart)+cpar[0];
gMC->Gspos("YCS5", 1, "YMOT", 0., 0., dz, 0, "ONLY");
- ptubs[0] = R21;
+ ptubs[0] = kR21;
ptubs[1] = 23;
ptubs[2] = 0.;
ptubs[3] = 0.;
//
// begin Fluka
/*
- flukaGeom->Cone(R11, R11, -1., -1.,
- zRear, zch11, posfluka,"NIW", "MF", "$SHS");
+ flukaGeom->Cone(kR11, kR11, -1., -1.,
+ kZRear, kZch11, posfluka,"NIW", "MF", "$SHS");
- flukaGeom->Cone(R11, R11, -1., -1.,
- zch11, zch12, posfluka,"AIR", "MF", "$SHS");
+ flukaGeom->Cone(kR11, kR11, -1., -1.,
+ kZch11, kZch12, posfluka,"AIR", "MF", "$SHS");
- flukaGeom->Cone(R11, R11, -1., -1.,
- zch12, zvac4, posfluka,"NIW", "MF", "$SHS");
+ flukaGeom->Cone(kR11, kR11, -1., -1.,
+ kZch12, kZvac4, posfluka,"NIW", "MF", "$SHS");
- flukaGeom->Cone(R21, R21, -1., -1.,
- zvac4, zch21, posfluka,"NIW", "MF", "$SHS");
- flukaGeom->Cone(R21, R21, -1., -1.,
- zch21, zch22, posfluka,"AIR", "MF", "$SHS");
- flukaGeom->Cone(R21, R21, -1., -1.,
- zch22, zvac6, posfluka,"NIW", "MF", "$SHS");
+ flukaGeom->Cone(kR21, kR21, -1., -1.,
+ kZvac4, kZch21, posfluka,"NIW", "MF", "$SHS");
+ flukaGeom->Cone(kR21, kR21, -1., -1.,
+ kZch21, kZch22, posfluka,"AIR", "MF", "$SHS");
+ flukaGeom->Cone(kR21, kR21, -1., -1.,
+ kZch22, kZvac6, posfluka,"NIW", "MF", "$SHS");
*/
- flukaGeom->Finish();
+ if (fWriteGeometry) flukaGeom->Finish();
//
// end Fluka
// Outer Pb Cone
if (fPbCone) {
- dl = (zvac10-zch32)/2.;
- dz = dl+zch32;
+ dl = (kZvac10-kZch32)/2.;
+ dz = dl+kZch32;
par0[0] = 0.;
par0[1] = 360.;
par0[ 3] = -dl;
par0[ 4] = 30.;
- par0[ 5] = 30.+(zch32-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[ 5] = 30.+(kZch32-kZConeE)*TMath::Tan(kThetaOpenPbO);
// 4th station
- par0[ 6] = -dz + zch41;
+ par0[ 6] = -dz + kZch41;
par0[ 7] = 30.;
- par0[ 8] = 30.+(zch41-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[ 8] = 30.+(kZch41-kZConeE)*TMath::Tan(kThetaOpenPbO);
- par0[ 9] = -dz + zch41;
+ par0[ 9] = -dz + kZch41;
par0[10] = 30.;
par0[11] = 37.5;
// recess erice2000
- par0[12] = -dz + zch42;
+ par0[12] = -dz + kZch42;
par0[13] = 30.;
par0[14] = par0[11];
- par0[15] = -dz + zch42;
+ par0[15] = -dz + kZch42;
par0[16] = 30.;
- par0[17] = 30.+(zch42-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[17] = 30.+(kZch42-kZConeE)*TMath::Tan(kThetaOpenPbO);
// 5th station
- par0[18] = -dz + zch51;
+ par0[18] = -dz + kZch51;
par0[19] = 30.;
- par0[20] = 30.+(zch51-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[20] = 30.+(kZch51-kZConeE)*TMath::Tan(kThetaOpenPbO);
- par0[21] = -dz + zch51;
+ par0[21] = -dz + kZch51;
par0[22] = 30.;
par0[23] = 37.5; // recess erice2000
- par0[24] = -dz + zch52;
+ par0[24] = -dz + kZch52;
par0[25] = 30.;
par0[26] = par0[23];
- par0[27] = -dz + zch52;
+ par0[27] = -dz + kZch52;
par0[28] = 30.;
- par0[29] = 30.+(zch52-zConeE)*TMath::Tan(thetaOpenPbO);
+ par0[29] = 30.+(kZch52-kZConeE)*TMath::Tan(kThetaOpenPbO);
// end of cone
par0[30] = +dl;
par0[31] = 30.;
par0[32] = par0[29];
//
gMC->Gsvolu("YOPB", "PCON", idtmed[kPb], par0, 33);
- dz = -(zvac12-zstart)/2. + (zch32-zstart) + dl;
- gMC->Gspos("YOPB", 1, "YMOT", 0., 0., dz, 0, "ONLY");
+ Float_t dzs = -(kZvac12-zstart)/2. + (kZch32-zstart) + dl;
+ gMC->Gspos("YOPB", 1, "YMOT", 0., 0., dzs, 0, "ONLY");
+
+ par0[ 0] = 0.;
+ par0[ 1] = 360.;
+ par0[ 2] = 18.;
+
+ par0[ 3] = -dl;
+ par0[ 5] = 30.+(kZch32-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[ 4] = par0[ 5] - 4.;
+// 4th station
+ par0[ 6] = -dz + kZch41 - 4.;
+ par0[ 8] = 30.+(kZch41-4.-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[ 7] = par0[ 8] -4.;
+
+ par0[ 9] = -dz + kZch41 - 4.;
+ par0[11] = par0[8];
+ par0[10] = 33.5;
+
+ par0[12] = -dz + kZch41;
+ par0[14] = 30.+(kZch41-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[13] = 33.5;
+
+ par0[15] = -dz + kZch41;
+ par0[17] = 37.5;
+ par0[16] = 33.5;
+
+ par0[18] = -dz + kZch42;
+ par0[20] = 37.5;
+ par0[19] = 33.5;
+
+ par0[21] = -dz + kZch42;
+ par0[23] = 30.+(kZch42-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[22] = 33.5;
+
+ par0[24] = -dz + kZch42 + 4.;
+ par0[26] = 30.+(kZch42+4.-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[25] = 33.5;
+
+ par0[27] = -dz + kZch42 + 4.;
+ par0[29] = 30.+(kZch42+4.-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[28] = par0[29] - 4.;
+
+// 5th station
+ par0[30] = -dz + kZch51 - 4.;
+ par0[32] = 30.+(kZch51-4.-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[31] = par0[32] - 4.;
+
+ par0[33] = -dz + kZch51 - 4.;
+ par0[35] = par0[32];
+ par0[34] = 33.5;
+
+ par0[36] = -dz + kZch51;
+ par0[38] = 30.+(kZch51-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[37] = 33.5;
+
+ par0[39] = -dz + kZch51;
+ par0[41] = 37.5;
+ par0[40] = 33.5;
+
+ par0[42] = -dz + kZch52;
+ par0[44] = 37.5;
+ par0[43] = 33.5;
+
+ par0[45] = -dz + kZch52;
+ par0[47] = 30.+(kZch52-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[46] = 33.5;
+
+ par0[48] = -dz + kZch52 + 4.;
+ par0[50] = 30.+(kZch52+4.-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[49] = 33.5;
+
+ par0[51] = -dz + kZch52 + 4.;
+ par0[53] = 30.+(kZch52+4.-kZConeE)*TMath::Tan(kThetaOpenPbO);
+ par0[52] = par0[53] - 4.;
+
+ par0[54] = +dl;
+ par0[56] = par0[53];
+ par0[55] = par0[52];
+
+ gMC->Gsvolu("YOSE", "PCON", idtmed[kSteel], par0, 57);
+ gMC->Gspos ("YOSE", 1, "YOPB", 0., 0., 0., 0, "ONLY");
}
}
//
Int_t i;
//
- if(fDebug) {
+ if(AliLog::GetGlobalDebugLevel()>0) {
printf("\n%s: ",ClassName());
for(i=0;i<35;i++) printf("*");
printf(" SHILvF_INIT ");
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff