+/***************************************************************************
+ * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
+ * *
+ * Author: The ALICE Off-line Project. *
+ * Contributors are mentioned in the code where appropriate. *
+ * *
+ * Permission to use, copy, modify and distribute this software and its *
+ * documentation strictly for non-commercial purposes is hereby granted *
+ * without fee, provided that the above copyright notice appears in all *
+ * copies and that both the copyright notice and this permission notice *
+ * appear in the supporting documentation. The authors make no claims *
+ * about the suitability of this software for any purpose. It is *
+ * provided "as is" without express or implied warranty. *
+ **************************************************************************/
+/*
+$Log$
+Revision 1.26 2003/10/03 06:04:10 bnandi
+z_psa and z_psb bugs fixed
+
+Revision 1.25 2003/10/01 11:08:04 bnandi
+changes for NewIO
+
+Revision 1.24 2003/10/01 08:32:51 hristov
+CurrentTrack replaced by GetCurrentTrackNumber
+
+Revision 1.23 2003/10/01 05:07:51 bnandi
+New geometry in new Alice Coordinate system
+
+New rectangular geometry for ALICE PMD - Bedanga Mohanty and Y. P. Viyogi
+June 2003
+*/
+//
///////////////////////////////////////////////////////////////////////////////
// //
// Photon Multiplicity Detector Version 1 //
//End_Html
// //
///////////////////////////////////////////////////////////////////////////////
+////
#include "AliPMDv1.h"
#include "AliRun.h"
-#include "AliMC.h"
#include "AliConst.h"
+#include "AliMagF.h"
+#include "Riostream.h"
+#include <TVirtualMC.h>
-static Int_t maxbox, kdet;
-static Float_t thmin,thmax,zdist,zdist1,thlow,thhigh;
+static Int_t ncol_um1,ncol_um2, nrow_um1, nrow_um2;
+static Int_t kdet;
+static Float_t sm_length_ax,sm_length_ay;
+static Float_t sm_length_bx,sm_length_by;
+static Float_t zdist, zdist1;
+static Float_t sm_thick, cell_radius, cell_wall, cell_depth;
+static Float_t boundary, th_base, th_air, th_pcb;
+static Float_t th_lead, th_steel;
ClassImp(AliPMDv1)
-//_____________________________________________________________________________
-AliPMDv1::AliPMDv1()
+ //_____________________________________________________________________________
+ AliPMDv1::AliPMDv1()
{
//
// Default constructor
//
fMedSens=0;
}
+
//_____________________________________________________________________________
void AliPMDv1::CreateGeometry()
{
- //
- // Create geometry for Photon Multiplicity Detector Version 1
- //
- //Begin_Html
- /*
- <img src="picts/AliPMDv1.gif">
- */
- //End_Html
- //Begin_Html
- /*
- <img src="picts/AliPMDv1Tree.gif">
- */
- //End_Html
- CreatePads();
- CreateInside();
-}
-
-//_____________________________________________________________________________
-void AliPMDv1::CreateInside()
-{
- //
- // Create inside of Pads
- //
- // -- Author : Y.P. VIYOGI, 07/05/1996.
- // -- Modified: P.V.K.S.Baba(JU), 15-12-97.
-// Sipmd, the dimension of TUBE mother volume of PMD, other dimensions
-// like sip01.. are to place more tubes in the volume at different eta bins.
- Float_t sipmd[3] = { 40.,270.,15.};
- Float_t sip01[3] = { 10.,57.89,25.};
- Float_t sip02[3] = { 10.,64.03,25.};
- Float_t sip03[3] = { 10.,70.80,25.};
- Float_t sip04[3] = { 10.,78.32,25.};
- Float_t sip05[3] = { 10.,86.68,25.};
- Float_t sip06[3] = { 10.,95.91,25.};
- Float_t sip07[3] = { 10.,106.14,25.};
- Float_t sip08[3] = { 10.,117.48,25.};
- Float_t sip09[3] = { 10.,130.18,25.};
- Float_t sip10[3] = { 10.,144.18,25.};
- Float_t sip11[3] = { 10.,159.87,25.};
- Float_t sip12[3] = { 10.,177.43,25.};
- Float_t sip13[3] = { 10.,197.11,25.};
- Float_t sip14[3] = { 10.,219.28,25.};
- Float_t sipmdl[5] = { 10.,310.,25.,90.,270. };
- Float_t sipmdr[5] = { 10.,310.,25.,270.,90. };
-
- const Float_t root3_4 = sqrt(3)/4.;
- const Float_t root3_2 = sqrt(3)/2.;
- // Float_t xiqa[4], yiqa[4];
- Int_t i;
- // Float_t siqad[4];
- Float_t xp, yp, zp;
- // Int_t idrotm[100];
- Int_t num_mod;
- Int_t jhrotc,jhrotac;
- Int_t jhrotd;
-// const Float_t delx=78.8;
- const Float_t delx=76.75;
- // const Float_t dely=delx*root3_2;
-// const Float_t delz=1.6/2.;
- AliMatrix(jhrotc, 90., 30., 90., 120., 0., 0.);
- AliMatrix(jhrotac, 90., 330., 90., 240., 0., 0.);
- AliMatrix(jhrotd, 90., 90., 90., 180., 90., 0.);
- Float_t x1= delx*root3_4;
- Float_t x2= delx*root3_4 + delx*root3_2;
- Float_t x3= delx*root3_4 + 2*delx*root3_2;
- Float_t xpos[13]={-x1,-x1,-x1,-x1,-x2,-x2,-x2,-x2,-x2,-x3,-x3,-x3,-x3};
- Float_t x4=delx/4.;
- Float_t ypos[13]={(-70.-x4-delx),-(70.+x4),(70.+x4),(70.+x4+delx),-x4+2*delx,-x4+delx,-x4,-x4-delx,-x4-2*delx,-3*x4-delx,-x4-delx/2.,-3*x4+delx,-3*x4+2*delx};
-// Float_t ypos[13]={(-70.-x4-delx),-(70.+x4),(70.+x4),(70.+x4+delx),(4*dely),(2*dely),0.,-(2*dely),-(4*dely),-3*x4-delx,-x4-delx/2.,-3*x4+delx,-3*x4+2*delx};
- Int_t *idtmed = gAlice->Idtmed();
-
- // VOLUMES Names : begining with D for all PMD volumes,
- // The names of SIZE variables begin with S and have more meaningful
- // characters as shown below.
-
- // VOLUME SIZE MEDIUM : REMARKS
- // ------ ----- ------ : ---------------------------
-
- // DPMD SIPMD AIR : INSIDE PMD and its SIZE
-
-
-
- // *** Define the DPMD Volume and fill with air ***
-
- AliMC* pMC = AliMC::GetMC();
-
- pMC->Gsvolu("DPMD", "TUBE", idtmed[698], sipmd, 3);
- pMC->Gsvolu("PM01", "TUBE", idtmed[698], sip01, 3);
- pMC->Gsvolu("PM02", "TUBE", idtmed[698], sip02, 3);
- pMC->Gsvolu("PM03", "TUBE", idtmed[698], sip03, 3);
- pMC->Gsvolu("PM04", "TUBE", idtmed[698], sip04, 3);
- pMC->Gsvolu("PM05", "TUBE", idtmed[698], sip05, 3);
- pMC->Gsvolu("PM06", "TUBE", idtmed[698], sip06, 3);
- pMC->Gsvolu("PM07", "TUBE", idtmed[698], sip07, 3);
- pMC->Gsvolu("PM08", "TUBE", idtmed[698], sip08, 3);
- pMC->Gsvolu("PM09", "TUBE", idtmed[698], sip09, 3);
- pMC->Gsvolu("PM10", "TUBE", idtmed[698], sip10, 3);
- pMC->Gsvolu("PM11", "TUBE", idtmed[698], sip11, 3);
- pMC->Gsvolu("PM12", "TUBE", idtmed[698], sip12, 3);
- pMC->Gsvolu("PM13", "TUBE", idtmed[698], sip13, 3);
- pMC->Gsvolu("PM14", "TUBE", idtmed[698], sip14, 3);
- pMC->Gsvolu("PMDL", "TUBS", idtmed[698], sipmdl, 5);
- pMC->Gsvolu("PMDR", "TUBS", idtmed[698], sipmdr, 5);
-//
- const Int_t npad2=72;
- Float_t hexd1[10] = {0.,360.,6,2,-0.4,0.,0.53,0.4,0.,0.53};
- Float_t dpara_sm[6] = {12.5,12.5,0.8,30.,0.,0.};
- dpara_sm[0]=(npad2+0.25)*hexd1[6] + 1.2;
- dpara_sm[1] = dpara_sm[0] *root3_2;
- Float_t dpara_dm11[6] = {12.5,12.5,0.8,30.,0.,0.};
- dpara_dm11[0]=dpara_sm[0]+.01;
- dpara_dm11[1] = dpara_dm11[0] *root3_2;
- dpara_dm11[2]= 6.2/2.;
-//
- for (i = 0; i < 2; ++i) {
- num_mod=i+1;
- pMC->Gsposp("DM11", num_mod, "DPMD", xpos[i],ypos[i],0., jhrotac, "ONLY", dpara_dm11, 6);
- pMC->Gsposp("DM11", num_mod+13, "DPMD", TMath::Abs(xpos[i]),ypos[i],0., jhrotc, "ONLY", dpara_dm11, 6);
- printf("Num_mod %d\n",num_mod);
- }
- maxbox=13;
- for (i = 2; i < maxbox; ++i) {
- num_mod=i+1;
- pMC->Gsposp("DM11", num_mod, "DPMD", xpos[i],ypos[i],0., jhrotc, "ONLY", dpara_dm11, 6);
- pMC->Gsposp("DM11", num_mod+13, "DPMD", TMath::Abs(xpos[i]),ypos[i],0., jhrotac, "ONLY", dpara_dm11, 6);
- printf("Num_mod %d\n",num_mod);
- }
-// pMC->Gspos("PM01", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM02", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM03", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM04", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM05", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM06", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM07", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM08", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM09", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM10", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM11", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM12", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM13", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// pMC->Gspos("PM14", 1, "DPMD", 0.,0.,0., 0, "ONLY");
-// --- Place the DPMD in ALICE with front edge 5.8m from vertex ---
- xp = 0.;
- yp = 0.;
- zp = zdist1;
-// pMC->Gspos("PMDL", 1, "DPMD", xp,yp,0., 0, "ONLY");
-// pMC->Gspos("PMDR", 1, "DPMD", xp,yp,0., 0, "ONLY");
- pMC->Gspos("DPMD", 1, "ALIC", xp,yp,zp, 0, "ONLY");
-
+ // Create geometry for Photon Multiplicity Detector
+
+ GetParameters();
+ CreateSupermodule();
+ CreatePMD();
}
//_____________________________________________________________________________
-void AliPMDv1::CreatePads()
+void AliPMDv1::CreateSupermodule()
{
- //
- // Create the geometry of the pads
- // *** DEFINITION OF THE GEOMETRY OF THE PMD ***
- // *** HEXAGONAL PADS WITH 10 MM SQUARE EQUIVALENT
- // -- Author : S. Chattopadhyay, 02/04/1999.
-
-// Basic unit is DP11, a hexagonal cell, which is placed inside another
-// hexagonal cell (DS11) of larger radius, compared to DP11. The difference in r// adius gives the dimension of half width of each cell wall.
-// These cells are placed as 72 x 72 array in a
-// rhombus shaped supermodule (DW11). The rhombus shaped modules are designed
-// to have closed packed structure.
-// Each supermodule (SUPR), made of G10 is filled with following components
-// SMSS --> SS backing,
-// SMAR --> Gap between gas hexagonal cells and G10 backing.
-// DW11 --> Ar-Co2 filled gas hexagonal cells.
-// SMAR
-// These supermodules are placed inside the main module (DM11), with Fe and
-// Pb converter positioned between CPV and PMD.
-// DM11 made of
-// SUPR (rotated to place steel on the other side), this works as preshower
-// when PMD is placed in -ve z.
-// SUPB --> Pb converter
-// SUFE --> Fe backing
-// SUPR --> supermodule without rotation (this acts as CPV).
-//
-
- AliMC* pMC = AliMC::GetMC();
-
- const Int_t npad2 = 72;
- Float_t hexd1[10] = {0.,360.,6,2,-0.4,0.,0.53,0.4,0.,0.53};
-//total wall thickness=0.2*2
- Float_t hexd2[10] = {0.,360.,6,2,-0.4,0.,0.51,0.4,0.,0.51};
- Int_t i, j;
- Float_t xb, yb, zb;//, sw[3];
+ //
+ // Creates the geometry of the cells of PMD, places them in supermodule
+ // which is a rectangular object.
+ // Basic unit is ECAR, a hexagonal cell made of Ar+CO2, which is
+ // placed inside another hexagonal cell made of Cu (ECCU) with larger
+ // radius, compared to ECAR. The difference in radius gives the dimension
+ // of half width of each cell wall.
+ // These cells are placed in a rectangular strip which are of 2 types
+ // EST1 and EST2
+ // 2 types of unit modules are made EUM1 and EUM2 which contains these strips
+ // placed repeatedly
+ // Each supermodule (ESMA, ESMB), made of G10 is filled with following
+ //components. They have 9 unit moudles inside them
+ // ESMA, ESMB are placed in EPMD along with EMPB (Pb converter)
+ // and EMFE (iron support)
+
+
+ Int_t i,j;
+ Float_t xb, yb, zb;
Int_t number;
Int_t ihrotm,irotdm;
- const Float_t root3_cons = sqrt(3) /2.;
- Int_t *idtmed = gAlice->Idtmed();
+ const Float_t root3_2 = TMath::Sqrt(3.) /2.;
+ const Float_t root3 = TMath::Sqrt(3.);
+ Int_t *idtmed = fIdtmed->GetArray()-599;
AliMatrix(ihrotm, 90., 30., 90., 120., 0., 0.);
AliMatrix(irotdm, 90., 180., 90., 270., 180., 0.);
- zdist1 = fIn[2];
+
zdist = TMath::Abs(zdist1);
-//
- Int_t xrow=1;
- Float_t dpara[6] = {12.5,12.5,0.4,30.,0.,0.};
- dpara[0]=(npad2+0.25)*hexd1[6];
- dpara[1] = dpara[0] *root3_cons;
-//
-//Subhasis, dimensional parameters of rhombus (dpara) as given to gsvolu
-// rhombus to accomodate 72 x 72 hexagons, and with total 1.2cm extension
-//(1mm tolerance on both side and 5mm thick G10 wall)
-//
+
+ // First create the sensitive medium of a hexagon cell (ECAR)
+ // Inner hexagon filled with gas (Ar+CO2)
+
+ Float_t hexd2[10] = {0.,360.,6,2,-0.25,0.,0.23,0.25,0.,0.23};
+ hexd2[4] = -cell_depth/2.;
+ hexd2[7] = cell_depth/2.;
+ hexd2[6] = cell_radius - cell_wall;
+ hexd2[9] = cell_radius - cell_wall;
+
+ gMC->Gsvolu("ECAR", "PGON", idtmed[604], hexd2,10);
+ gMC->Gsatt("ECAR", "SEEN", 0);
+
+ // Place the sensitive medium inside a hexagon copper cell (ECCU)
+ // Outer hexagon made of Copper
+
+ Float_t hexd1[10] = {0.,360.,6,2,-0.25,0.,0.25,0.25,0.,0.25};
+ hexd1[4] = -cell_depth/2.;
+ hexd1[7] = cell_depth/2.;
+ hexd1[6] = cell_radius;
+ hexd1[9] = cell_radius;
+
+ gMC->Gsvolu("ECCU", "PGON", idtmed[614], hexd1,10);
+ gMC->Gsatt("ECCU", "SEEN", 0);
+
+ // Place inner hex (sensitive volume) inside outer hex (copper)
-// **** PAD SIZE 10 MM SQUARE EQUIVALENT
-//
-// Inner hex filled with gas
- pMC->Gsvolu("DP11", "PGON", idtmed[604], hexd2,10);
- pMC->Gsatt("DP11", "SEEN", 1);
-
-// Outer hex filled with Plastic
-//plastic pMC->Gsvolu("DS11", "PGON", idtmed[616], hexd1,10);
-// Iron
- pMC->Gsvolu("DS11", "PGON", idtmed[601], hexd1,10);
- pMC->Gsatt("DS11", "SEEN", 1);
-// --- place inner hex inside outer hex
- pMC->Gsposp("DP11", 1, "DS11", 0., 0., 0., 0, "ONLY", hexd2, 10);
-// Rhombus shaped supermodules (defined by PARA)
-// volume for SUPERMODULE
- Float_t dpara_sm[6] = {12.5,12.5,0.8,30.,0.,0.};
- dpara_sm[0]=(npad2+0.25)*hexd1[6] + 1.2;
- dpara_sm[1] = dpara_sm[0] *root3_cons;
-//
- pMC->Gsvolu("SUPR","PARA", idtmed[607], dpara_sm, 6);
- pMC->Gsatt("SUPR", "SEEN", 1);
-// SS
- Float_t dpara_ss[6] = {12.5,12.5,8.,30.,0.,0.};
- dpara_ss[0]= dpara[0];
- dpara_ss[1]= dpara[1];
- dpara_ss[2]= 0.3/2.;
-//
- pMC->Gsvolu("SMSS","PARA", idtmed[601], dpara_ss, 6);
- pMC->Gsatt("SMSS", "SEEN", 1);
-// Air
- Float_t dpara_air[6] = {12.5,12.5,8.,30.,0.,0.};
- dpara_air[0]= dpara[0] - 0.5;
- dpara_air[1]= dpara_air[0] * root3_cons;
- dpara_air[2]= 0.1/2.;
-// pMC->Gsvolu("SMAR","PARA", idtmed[604], dpara_air, 6);
- pMC->Gsvolu("SMAR","PARA", idtmed[698], dpara_air, 6);
- pMC->Gsatt("SMAR", "SEEN", 1);
-//
-// volume for gas chamber (DW11)
-//
-// pMC->Gsvolu("DW11","PARA", idtmed[604], dpara, 6);
- pMC->Gsvolu("DW11","PARA", idtmed[698], dpara, 6);
- pMC->Gsatt("DW11", "SEEN", 1);
-// Place outer hex inside DW11
- yb = -dpara[1] + (1./root3_cons)*hexd1[6];
+ gMC->Gsposp("ECAR", 1, "ECCU", 0., 0., 0., 0, "ONLY", hexd2, 10);
+
+ // Now create Rectangular TWO strips (EST1, EST2)
+ // of 1 column and 48 or 96 cells length
+
+ // volume for first strip EST1 made of AIR
+
+ Float_t dbox1[3];
+ dbox1[0] = ncol_um1*cell_radius;
+ dbox1[1] = cell_radius/root3_2;
+ dbox1[2] = cell_depth/2.;
+
+ gMC->Gsvolu("EST1","BOX", idtmed[698], dbox1, 3);
+ gMC->Gsatt("EST1", "SEEN", 0);
+
+ // volume for second strip EST2
+
+ Float_t dbox2[3];
+ dbox2[0] = ncol_um2*cell_radius;
+ dbox2[1] = dbox1[1];
+ dbox2[2] = dbox1[2];
+
+ gMC->Gsvolu("EST2","BOX", idtmed[698], dbox2, 3);
+ gMC->Gsatt("EST2", "SEEN", 0);
+
+ // Place hexagonal cells ECCU placed inside EST1
+ yb = 0.;
zb = 0.;
- for (j = 1; j <= npad2; ++j) {
- xb =-(dpara[0] + dpara[1]*0.577) + 2*hexd1[6];
- if(xrow >= 2){
- xb = xb+(xrow-1)*hexd1[6];
+ xb = -(dbox1[0]) + cell_radius;
+ for (i = 1; i <= ncol_um1; ++i)
+ {
+ number = i;
+ gMC->Gsposp("ECCU", number, "EST1", xb,yb,zb, ihrotm, "ONLY", hexd1,10);
+ xb += (cell_radius*2.);
+ }
+ // Place hexagonal cells ECCU placed inside EST2
+ yb = 0.;
+ zb = 0.;
+ xb = -(dbox2[0]) + cell_radius;
+ for (i = 1; i <= ncol_um2; ++i)
+ {
+ number = i;
+ gMC->Gsposp("ECCU", number, "EST2", xb,yb,zb, ihrotm, "ONLY", hexd1,10);
+ xb += (cell_radius*2.);
+ }
+
+
+
+ // 2 types of rectangular shaped unit modules EUM1 and EUM2 (defined by BOX)
+
+ // Create EUM1
+
+ Float_t dbox3[3];
+ dbox3[0] = dbox1[0]+cell_radius/2.;
+ dbox3[1] = (dbox1[1]*nrow_um1)-(cell_radius*root3*(nrow_um1-1)/6.);
+ dbox3[2] = cell_depth/2.;
+
+ gMC->Gsvolu("EUM1","BOX", idtmed[698], dbox3, 3);
+ gMC->Gsatt("EUM1", "SEEN", 1);
+
+ // Place rectangular strips EST1 inside EUM1 unit module
+
+ yb = -dbox3[1]+dbox1[1];
+ for (j = 1; j <= nrow_um1; ++j)
+ {
+ if(j%2 == 0)
+ {
+ xb =cell_radius/2.0;
+ }
+ else
+ {
+ xb = -cell_radius/2.0;
+ }
+ number = j;
+ gMC->Gsposp("EST1",number, "EUM1", xb, yb , 0. , 0, "MANY",dbox1,3);
+ yb = (-dbox3[1]+dbox1[1])+j*1.0*cell_radius*root3;
}
- for (i = 1; i <= npad2; ++i) {
- number = i+(j-1)*npad2;
- pMC->Gsposp("DS11", number, "DW11", xb, yb, zb, ihrotm, "ONLY", hexd1, 10);
- xb += (hexd1[6]*2.);
- }
- xrow = xrow+1;
- yb += (hexd1[6]*sqrt(3.));
- }
- Float_t z_ss,z_air1,z_air2,z_gas;
-// Place other components inside super module
- z_ss=-dpara_sm[2]+dpara_ss[2];
- pMC->Gspos("SMSS", 1, "SUPR", 0., 0., z_ss, 0, "ONLY");
- z_air1=z_ss+dpara_ss[2] +dpara_air[2];
- pMC->Gspos("SMAR", 1, "SUPR", 0., 0., z_air1, 0, "ONLY");
- z_gas=z_air1+dpara_air[2]+dpara[2]+0.1;
- pMC->Gspos("DW11", 1, "SUPR", 0., 0., z_gas, 0, "ONLY");
- z_air2=z_gas+dpara[2]+0.1+dpara_air[2];
- pMC->Gspos("SMAR", 2, "SUPR", 0., 0., z_air2, 0, "ONLY");
-
-// --- DEFINE MODules, iron, and lead voLUMES
-
-
-// volume for SUPERMODULE
-// Pb
- Float_t dpara_pb[6] = {12.5,12.5,8.,30.,0.,0.};
- dpara_pb[0]=dpara_sm[0];
- dpara_pb[1]=dpara_sm[1];
-// dpara_pb[2]=1.1/2.;
- dpara_pb[2]=1.5/2.;
- pMC->Gsvolu("SUPB","PARA", idtmed[600], dpara_pb, 6);
- pMC->Gsatt("SUPB", "SEEN", 1);
-// Fe
- Float_t dpara_fe[6] = {12.5,12.5,8.,30.,0.,0.};
- dpara_fe[0]=dpara_sm[0];
- dpara_fe[1]=dpara_sm[1];
- dpara_fe[2]=0.5/2.;
- pMC->Gsvolu("SUFE","PARA", idtmed[601], dpara_fe, 6);
- pMC->Gsatt("SUFE", "SEEN", 1);
-// volume for DM11
- Float_t dpara_dm11[6] = {12.5,12.5,0.8,30.,0.,0.};
- dpara_dm11[0]=dpara_sm[0]+.01;
- dpara_dm11[1] = dpara_dm11[0] *root3_cons;
- dpara_dm11[2]= 6.2/2.;
-
-//
- pMC->Gsvolu("DM11","PARA", idtmed[698], dpara_dm11, 6);
- pMC->Gsatt("DM11", "SEEN", 1);
-// position super module inside DM11
- Float_t z_ps,z_pb,z_fe,z_cv;
- z_ps=-dpara_dm11[2]+dpara_sm[2];
- pMC->Gspos("SUPR", 1, "DM11", 0., 0., z_ps, irotdm, "ONLY");
- z_pb=z_ps+dpara_sm[2]+dpara_pb[2];
- pMC->Gspos("SUPB", 1, "DM11", 0., 0., z_pb, 0, "ONLY");
- z_fe=z_pb+dpara_pb[2]+dpara_fe[2];
- pMC->Gspos("SUFE", 1, "DM11", 0., 0., z_fe, 0, "ONLY");
- z_cv=z_fe+dpara_fe[2]+dpara_sm[2];
- pMC->Gspos("SUPR", 2, "DM11", 0., 0., z_cv, 0, "ONLY");
-//
+
+ // Create EUM2
+
+ Float_t dbox4[3];
+ dbox4[0] = dbox2[0]+cell_radius/2.;
+ dbox4[1] =(dbox2[1]*nrow_um2)-(cell_radius*root3*(nrow_um2-1)/6.);
+ dbox4[2] = dbox3[2];
+
+ gMC->Gsvolu("EUM2","BOX", idtmed[698], dbox4, 3);
+ gMC->Gsatt("EUM2", "SEEN", 1);
+
+ // Place rectangular strips EST2 inside EUM2 unit module
+
+ yb = -dbox4[1]+dbox2[1];
+ for (j = 1; j <= nrow_um2; ++j)
+ {
+ if(j%2 == 0)
+ {
+ xb =cell_radius/2.0;
+ }
+ else
+ {
+ xb = -cell_radius/2.0;
+ }
+ number = j;
+ gMC->Gsposp("EST2",number, "EUM2", xb, yb , 0. , 0, "MANY",dbox2,3);
+ yb = (-dbox4[1]+dbox2[1])+j*1.0*cell_radius*root3;
+ }
+
+ // 2 types of Rectangular shaped supermodules (BOX)
+ //each with 6 unit modules
+
+ // volume for SUPERMODULE ESMA
+ //Space added to provide a gapping for HV between UM's
+
+ Float_t dbox_sm1[3];
+ dbox_sm1[0] = 3.0*dbox3[0]+(2.0*0.025);
+ dbox_sm1[1] = 2.0*dbox3[1]+0.025;
+ dbox_sm1[2] = cell_depth/2.;
+
+ gMC->Gsvolu("ESMA","BOX", idtmed[698], dbox_sm1, 3);
+ gMC->Gsatt("ESMA", "SEEN", 1);
+
+ //Position the 6 unit modules in EMSA
+ Float_t x_a1,x_a2,x_a3,y_a1,y_a2;
+ x_a1 = -dbox_sm1[0] + dbox3[0];
+ x_a2 = 0.;
+ x_a3 = dbox_sm1[0] - dbox3[0];
+ y_a1 = dbox_sm1[1] - dbox3[1];
+ y_a2 = -dbox_sm1[1] + dbox3[1];
+
+ gMC->Gsposp("EUM1", 1, "ESMA", x_a1, y_a1, 0., 0, "ONLY",dbox3,3);
+ gMC->Gsposp("EUM1", 2, "ESMA", x_a2, y_a1, 0., 0, "ONLY",dbox3,3);
+ gMC->Gsposp("EUM1", 3, "ESMA", x_a3, y_a1, 0., 0, "ONLY",dbox3,3);
+ gMC->Gsposp("EUM1", 4, "ESMA", x_a1, y_a2, 0., 0, "ONLY",dbox3,3);
+ gMC->Gsposp("EUM1", 5, "ESMA", x_a2, y_a2, 0., 0, "ONLY",dbox3,3);
+ gMC->Gsposp("EUM1", 6, "ESMA", x_a3, y_a2, 0., 0, "ONLY",dbox3,3);
+
+
+ // volume for SUPERMODULE ESMB
+ //Space is added to provide a gapping for HV between UM's
+ Float_t dbox_sm2[3];
+ dbox_sm2[0] = 2.0*dbox4[0]+0.025;
+ dbox_sm2[1] = 3.0*dbox4[1]+(2.0*0.025);
+ dbox_sm2[2] = cell_depth/2.;
+
+ gMC->Gsvolu("ESMB","BOX", idtmed[698], dbox_sm2, 3);
+ gMC->Gsatt("ESMB", "SEEN", 1);
+
+ //Position the 6 unit modules in EMSB
+ Float_t x_b1,x_b2,y_b1,y_b2,y_b3;
+ x_b1 = -dbox_sm2[0] +dbox4[0];
+ x_b2 = dbox_sm2[0]-dbox4[0];
+ y_b1 =dbox_sm2[1]-dbox4[1];
+ y_b2 = 0.;
+ y_b3 = -dbox_sm2[1]+dbox4[1];
+
+ gMC->Gsposp("EUM2", 1, "ESMB", x_b1, y_b1, 0., 0, "ONLY",dbox4,3);
+ gMC->Gsposp("EUM2", 2, "ESMB", x_b2, y_b1, 0., 0, "ONLY",dbox4,3);
+ gMC->Gsposp("EUM2", 3, "ESMB", x_b1, y_b2, 0., 0, "ONLY",dbox4,3);
+ gMC->Gsposp("EUM2", 4, "ESMB", x_b2, y_b2, 0., 0, "ONLY",dbox4,3);
+ gMC->Gsposp("EUM2", 5, "ESMB", x_b1, y_b3, 0., 0, "ONLY",dbox4,3);
+ gMC->Gsposp("EUM2", 6, "ESMB", x_b2, y_b3, 0., 0, "ONLY",dbox4,3);
+
+
+ // Make a 3mm thick G10 Base plate for ESMA
+ Float_t dbox_g1a[3];
+ dbox_g1a[0] = dbox_sm1[0];
+ dbox_g1a[1] = dbox_sm1[1];
+ dbox_g1a[2] = th_base/2.;
+
+ gMC->Gsvolu("EBPA","BOX", idtmed[607], dbox_g1a, 3);
+ gMC->Gsatt("EBPA", "SEEN", 1);
+
+ // Make a 1.6mm thick G10 PCB for ESMA
+ Float_t dbox_g2a[3];
+ dbox_g2a[0] = dbox_sm1[0];
+ dbox_g2a[1] = dbox_sm1[1];
+ dbox_g2a[2] = th_pcb/2.;
+
+ gMC->Gsvolu("EPCA","BOX", idtmed[607], dbox_g2a, 3);
+ gMC->Gsatt("EPCA", "SEEN", 1);
+
+
+ // Make a Full module EFPA of AIR to place EBPA,
+ // 1mm AIR, EPCA, ESMA,EPCA for PMD
+
+ Float_t dbox_alla[3];
+ dbox_alla[0] = dbox_sm1[0];
+ dbox_alla[1] = dbox_sm1[1];
+ dbox_alla[2] = (th_base+0.1+th_pcb+dbox_sm1[2]+th_pcb)/2.;
+
+ gMC->Gsvolu("EFPA","BOX", idtmed[698], dbox_alla, 3);
+ gMC->Gsatt("EFPA", "SEEN", 1);
+
+
+ // Make a Full module EFCA of AIR to place EBPA,
+ // 1mm AIR, EPCA, ESMA,EPC for CPV
+ Float_t dbox_alla2[3];
+ dbox_alla2[0] = dbox_sm1[0];
+ dbox_alla2[1] = dbox_sm1[1];
+ dbox_alla2[2] = (th_base+0.1+th_pcb+dbox_sm1[2]+th_pcb)/2.;
+
+ gMC->Gsvolu("EFCA","BOX", idtmed[698], dbox_alla2, 3);
+ gMC->Gsatt("EFCA", "SEEN", 1);
+
+ // Now place everything in EFPA for PMD
+
+ Float_t z_bpa,z_pcba1,z_pcba2,z_sma;
+ z_pcba1 = - dbox_alla[2]+th_pcb/2.0;
+ gMC->Gsposp("EPCA", 1, "EFPA", 0., 0., z_pcba1, 0, "ONLY",dbox_g2a,3);
+ z_sma = z_pcba1+dbox_sm1[2];
+ gMC->Gsposp("ESMA", 1, "EFPA", 0., 0., z_sma, 0, "ONLY",dbox_sm1,3);
+ z_pcba2 = z_sma+th_pcb/2.0;
+ gMC->Gsposp("EPCA", 2, "EFPA", 0., 0., z_pcba2, 0, "ONLY",dbox_g2a,3);
+ z_bpa = z_pcba2+0.1+th_base/2.0; // 0.1 for 0.1 mm Air gap
+ gMC->Gsposp("EBPA", 1, "EFPA", 0., 0., z_bpa, 0, "ONLY",dbox_g1a,3);
+
+ // Now place everything in EFCA for CPV
+
+ Float_t z_bpa2,z_pcba12,z_pcba22,z_sma2;
+ z_bpa2 = - dbox_alla2[2]+th_base/2.0;
+ gMC->Gsposp("EBPA", 1, "EFCA", 0., 0., z_bpa2, 0, "ONLY",dbox_g1a,3);
+ z_pcba12 = z_bpa2+0.1+th_pcb/2.0;
+ gMC->Gsposp("EPCA", 1, "EFCA", 0., 0., z_pcba12, 0, "ONLY",dbox_g2a,3);
+ z_sma2 = z_pcba12+dbox_sm1[2];
+ gMC->Gsposp("ESMA", 1, "EFCA", 0., 0., z_sma2, 0, "ONLY",dbox_sm1,3);
+ z_pcba22 = z_sma2+th_pcb/2.0;
+ gMC->Gsposp("EPCA", 2, "EFCA", 0., 0., z_pcba22, 0, "ONLY",dbox_g2a,3);
+
+
+
+ // Make a 3mm thick G10 Base plate for ESMB
+ Float_t dbox_g1b[3];
+ dbox_g1b[0] = dbox_sm2[0];
+ dbox_g1b[1] = dbox_sm2[1];
+ dbox_g1b[2] = th_base/2.;
+
+ gMC->Gsvolu("EBPB","BOX", idtmed[607], dbox_g1b, 3);
+ gMC->Gsatt("EBPB", "SEEN", 1);
+
+ // Make a 1.6mm thick G10 PCB for ESMB
+ Float_t dbox_g2b[3];
+ dbox_g2b[0] = dbox_sm2[0];
+ dbox_g2b[1] = dbox_sm2[1];
+ dbox_g2b[2] = th_pcb/2.;
+
+ gMC->Gsvolu("EPCB","BOX", idtmed[607], dbox_g2b, 3);
+ gMC->Gsatt("EPCB", "SEEN", 1);
+
+
+ // Make a Full module EFPB of AIR to place EBPB,
+ //1mm AIR, EPCB, ESMB,EPCB for PMD
+ Float_t dbox_allb[3];
+ dbox_allb[0] = dbox_sm2[0];
+ dbox_allb[1] = dbox_sm2[1];
+ dbox_allb[2] = (th_base+0.1+th_pcb+dbox_sm2[2]+th_pcb)/2.;
+
+ gMC->Gsvolu("EFPB","BOX", idtmed[698], dbox_allb, 3);
+ gMC->Gsatt("EFPB", "SEEN", 1);
+
+ // Make a Full module EFCB of AIR to place EBPB,
+ //1mm AIR, EPCB, ESMB,EPCB for CPV
+ Float_t dbox_allb2[3];
+ dbox_allb2[0] = dbox_sm2[0];
+ dbox_allb2[1] = dbox_sm2[1];
+ dbox_allb2[2] = (th_base+0.1+th_pcb+dbox_sm2[2]+th_pcb)/2.;
+
+ gMC->Gsvolu("EFCB","BOX", idtmed[698], dbox_allb2, 3);
+ gMC->Gsatt("EFCB", "SEEN", 1);
+
+
+ // Now place everything in EFPB for PMD
+
+ Float_t z_bpb,z_pcbb1,z_pcbb2,z_smb;
+ z_pcbb1 = - dbox_allb[2]+th_pcb/2.0;
+ gMC->Gsposp("EPCB", 1, "EFPB", 0., 0., z_pcbb1, 0, "ONLY",dbox_g2b,3);
+ z_smb = z_pcbb1+dbox_sm2[2];
+ gMC->Gsposp("ESMB", 1, "EFPB", 0., 0., z_smb, 0, "ONLY",dbox_sm2,3);
+ z_pcbb2 = z_smb+th_pcb/2.0;
+ gMC->Gsposp("EPCB", 2, "EFPB", 0., 0., z_pcbb2, 0, "ONLY",dbox_g2b,3);
+ z_bpb = z_pcbb2+0.1+th_base/2.0; // 0.1 for 0.1 mm Air gap
+ gMC->Gsposp("EBPB", 1, "EFPB", 0., 0., z_bpb, 0, "ONLY",dbox_g1b,3);
+
+
+ // Now place everything in EFCB for CPV
+
+ Float_t z_bpb2,z_pcbb12,z_pcbb22,z_smb2;
+ z_bpb2 = - dbox_allb2[2]+th_base/2.0;
+ gMC->Gsposp("EBPB", 1, "EFCB", 0., 0., z_bpb2, 0, "ONLY",dbox_g1b,3);
+ z_pcbb12 = z_bpb2+0.1+th_pcb/2.0;
+ gMC->Gsposp("EPCB", 1, "EFCB", 0., 0., z_pcbb12, 0, "ONLY",dbox_g2b,3);
+ z_smb2 = z_pcbb12+dbox_sm2[2];
+ gMC->Gsposp("ESMB", 1, "EFCB", 0., 0., z_smb2, 0, "ONLY",dbox_sm2,3);
+ z_pcbb22 = z_smb2+th_pcb/2.0;
+ gMC->Gsposp("EPCB", 2, "EFCB", 0., 0., z_pcbb22, 0, "ONLY",dbox_g2b,3);
+
+
+ // Master MODULE EMPA of aluminum for PMD
+ //Float_t dbox_mm1[3];
+ dbox_mm1[0] = dbox_sm1[0]+boundary;
+ dbox_mm1[1] = dbox_sm1[1]+boundary;
+ dbox_mm1[2] = dbox_alla[2];
+
+ gMC->Gsvolu("EMPA","BOX", idtmed[603], dbox_mm1, 3);
+ gMC->Gsatt("EMPA", "SEEN", 1);
+
+ // Master MODULE EMCA of aluminum for CPV
+ //Float_t dbox_mm12[3];
+ dbox_mm12[0] = dbox_sm1[0]+boundary;
+ dbox_mm12[1] = dbox_sm1[1]+boundary;
+ dbox_mm12[2] = dbox_alla[2];
+
+ gMC->Gsvolu("EMCA","BOX", idtmed[603], dbox_mm12, 3);
+ gMC->Gsatt("EMCA", "SEEN", 1);
+
+
+ //Position EFMA inside EMMA for PMD and CPV
+ gMC->Gsposp("EFPA", 1, "EMPA", 0., 0., 0., 0, "ONLY",dbox_alla,3);
+ gMC->Gsposp("EFCA", 1, "EMCA", 0., 0., 0., 0, "ONLY",dbox_alla2,3);
+
+
+ // Master MODULE EMPB of aluminum for PMD
+ //Float_t dbox_mm2[3];
+ dbox_mm2[0] = dbox_sm2[0]+boundary;
+ dbox_mm2[1] = dbox_sm2[1]+boundary;
+ dbox_mm2[2] = dbox_allb[2];
+
+ gMC->Gsvolu("EMPB","BOX", idtmed[603], dbox_mm2, 3);
+ gMC->Gsatt("EMPB", "SEEN", 1);
+
+ // Master MODULE EMCB of aluminum for CPV
+ //Float_t dbox_mm22[3];
+ dbox_mm22[0] = dbox_sm2[0]+boundary;
+ dbox_mm22[1] = dbox_sm2[1]+boundary;
+ dbox_mm22[2] = dbox_allb[2];
+
+ gMC->Gsvolu("EMCB","BOX", idtmed[603], dbox_mm22, 3);
+ gMC->Gsatt("EMCB", "SEEN", 1);
+
+
+ //Position EFMB inside EMMB
+ gMC->Gsposp("EFPB", 1, "EMPB", 0., 0., 0., 0, "ONLY",dbox_allb,3);
+ gMC->Gsposp("EFCB", 1, "EMCB", 0., 0., 0., 0, "ONLY",dbox_allb2,3);
+
+}
+
+//_____________________________________________________________________________
+
+void AliPMDv1::CreatePMD()
+{
+
+ //
+ // Create final detector from supermodules
+ // -- Author : Bedanga and Viyogi June 2003
+
+ Float_t xp, yp, zp;
+ Int_t jhrot12,jhrot13, irotdm;
+ Int_t *idtmed = fIdtmed->GetArray()-599;
+
+ //VOLUMES Names : begining with "E" for all PMD volumes,
+
+ // --- DEFINE Iron, and lead volumes for SM A
+
+ Float_t dbox_pba[3];
+ dbox_pba[0] = sm_length_ax;
+ dbox_pba[1] = sm_length_ay;
+ dbox_pba[2] = th_lead/2.;
+
+ gMC->Gsvolu("EPBA","BOX", idtmed[600], dbox_pba, 3);
+ gMC->Gsatt ("EPBA", "SEEN", 0);
+
+ // Fe Support
+ Float_t dbox_fea[3];
+ dbox_fea[0] = sm_length_ax;
+ dbox_fea[1] = sm_length_ay;
+ dbox_fea[2] = th_steel/2.;
+
+ gMC->Gsvolu("EFEA","BOX", idtmed[618], dbox_fea, 3);
+ gMC->Gsatt ("EFEA", "SEEN", 0);
+
+ // --- DEFINE Iron, and lead volumes for SM B
+
+ Float_t dbox_pbb[3];
+ dbox_pbb[0] = sm_length_bx;
+ dbox_pbb[1] = sm_length_by;
+ dbox_pbb[2] = th_lead/2.;
+
+ gMC->Gsvolu("EPBB","BOX", idtmed[600], dbox_pbb, 3);
+ gMC->Gsatt ("EPBB", "SEEN", 0);
+
+ // Fe Support
+ Float_t dbox_feb[3];
+ dbox_feb[0] = sm_length_bx;
+ dbox_feb[1] = sm_length_by;
+ dbox_feb[2] = th_steel/2.;
+
+ gMC->Gsvolu("EFEB","BOX", idtmed[618], dbox_feb, 3);
+ gMC->Gsatt ("EFEB", "SEEN", 0);
+
+
+ // Gaspmd, the dimension of RECTANGULAR mother volume of PMD,
+
+ // Float_t gaspmd[3] = {81.5,94.5,7.};
+ Float_t gaspmd[3] = {81.5,94.5,0.25};
+ gaspmd[0] = sm_length_ax+sm_length_bx;
+ gaspmd[1] = sm_length_ay+sm_length_by;
+
+
+ gMC->Gsvolu("EPMD", "BOX", idtmed[698], gaspmd, 3);
+ gMC->Gsatt("EPMD", "SEEN", 1);
+
+ AliMatrix(irotdm, 90., 0., 90., 90., 180., 0.);
+
+ AliMatrix(jhrot12, 90., 180., 90., 270., 0., 0.);
+ AliMatrix(jhrot13, 90., 240., 90., 330., 0., 0.);
+
+ Float_t x_sma,y_sma;
+ Float_t x_smb,y_smb;
+ x_sma = -(sm_length_bx)/1.0;
+ y_sma = sm_length_by;
+ x_smb = -sm_length_ax;
+ y_smb = -sm_length_ay;
+
+ //Complete detector for Type A
+ //Position Super modules type A for both CPV and PMD in EPMD
+ Float_t z_psa,z_pba,z_fea,z_cva;
+
+ z_psa = - gaspmd[2] + sm_thick/2.;
+
+ gMC->Gsposp("EMPA", 1, "EPMD", x_sma, y_sma, z_psa, 0, "ONLY",dbox_mm1,3);
+ gMC->Gsposp("EMPA", 2, "EPMD", -x_sma, -y_sma, z_psa, jhrot12, "ONLY",dbox_mm1,3);
+ z_pba=z_psa+sm_thick/2.+dbox_pba[2];
+ gMC->Gsposp("EPBA", 1, "EPMD", x_sma, y_sma, z_pba, 0, "ONLY",dbox_pba,3);
+ gMC->Gsposp("EPBA", 2, "EPMD", -x_sma, -y_sma, z_pba, 0, "ONLY",dbox_pba,3);
+ z_fea=z_pba+dbox_pba[2]+dbox_fea[2];
+ gMC->Gsposp("EFEA", 1, "EPMD", x_sma, y_sma, z_fea, 0, "ONLY",dbox_fea,3);
+ gMC->Gsposp("EFEA", 2, "EPMD", -x_sma, -y_sma, z_fea, 0, "ONLY",dbox_fea,3);
+ z_cva=z_fea+dbox_fea[2]+sm_thick/2.;
+ gMC->Gsposp("EMCA", 1, "EPMD", x_sma, y_sma, z_cva, 0, "ONLY",dbox_mm12,3);
+ gMC->Gsposp("EMCA", 2, "EPMD", -x_sma,-y_sma, z_cva, jhrot12, "ONLY",dbox_mm12,3);
+
+ //Complete detector for Type B
+ //Position Super modules type B for both CPV and PMD in EPMD
+ Float_t z_psb,z_pbb,z_feb,z_cvb;
+ z_psb = - gaspmd[2] + sm_thick/2.;
+
+ gMC->Gsposp("EMPB", 3, "EPMD", x_smb, y_smb, z_psb, 0, "ONLY",dbox_mm2,3);
+ gMC->Gsposp("EMPB", 4, "EPMD", -x_smb, -y_smb, z_psb, jhrot12, "ONLY",dbox_mm2,3);
+ z_pbb=z_psb+sm_thick/2.+dbox_pbb[2];
+ gMC->Gsposp("EPBB", 3, "EPMD", x_smb, y_smb, z_pbb, 0, "ONLY",dbox_pbb,3);
+ gMC->Gsposp("EPBB", 4, "EPMD", -x_smb, -y_smb, z_pbb, 0, "ONLY",dbox_pbb,3);
+ z_feb=z_pbb+dbox_pbb[2]+dbox_feb[2];
+ gMC->Gsposp("EFEB", 3, "EPMD", x_smb, y_smb, z_feb, 0, "ONLY",dbox_feb,3);
+ gMC->Gsposp("EFEB", 4, "EPMD", -x_smb, -y_smb, z_feb, 0, "ONLY",dbox_feb,3);
+ z_cvb=z_feb+dbox_feb[2]+sm_thick/2.;
+ gMC->Gsposp("EMCB", 3, "EPMD", x_smb, y_smb, z_cvb, 0, "ONLY",dbox_mm22,3);
+ gMC->Gsposp("EMCB", 4, "EPMD", -x_smb,-y_smb, z_cvb, jhrot12, "ONLY",dbox_mm22,3);
+
+ // --- Place the EPMD in ALICE
+ xp = 0.;
+ yp = 0.;
+ zp = zdist1;
+
+ //Position Full PMD in ALICE
+ gMC->Gsposp("EPMD", 1, "ALIC", xp,yp,zp, 0, "ONLY",gaspmd,3);
+
}
+
//_____________________________________________________________________________
void AliPMDv1::DrawModule()
{
+ cout << " Inside Draw Modules " << endl;
//
// Draw a shaded view of the Photon Multiplicity Detector
//
- AliMC* pMC = AliMC::GetMC();
-
- pMC->Gsatt("*", "seen", -1);
- pMC->Gsatt("alic", "seen", 0);
+ gMC->Gsatt("*", "seen", -1);
+ gMC->Gsatt("alic", "seen", 0);
//
// Set the visibility of the components
//
- pMC->Gsatt("DP11","seen",0);
- pMC->Gsatt("DS11","seen",1);
- pMC->Gsatt("DW11","seen",0);
- pMC->Gsatt("DM11","seen",1);
- pMC->Gsatt("DPMD","seen",0);
+ gMC->Gsatt("ECAR","seen",0);
+ gMC->Gsatt("ECCU","seen",1);
+ gMC->Gsatt("EST1","seen",1);
+ gMC->Gsatt("EST2","seen",1);
+ gMC->Gsatt("EUM1","seen",1);
+ gMC->Gsatt("EUM2","seen",1);
+ gMC->Gsatt("ESMA","seen",1);
+ gMC->Gsatt("EPMD","seen",1);
//
- pMC->Gdopt("hide", "on");
- pMC->Gdopt("shad", "on");
- pMC->Gsatt("*", "fill", 7);
- pMC->SetClipBox(".");
- pMC->SetClipBox("*", 0, 3000, -3000, 3000, -6000, 6000);
- pMC->DefaultRange();
- pMC->Gdraw("alic", 40, 30, 0, 22, 20.5, .02, .02);
- pMC->Gdhead(1111, "Photon Multiplicity Detector Version 1");
- //pMC->Gdman(17, 5, "MAN");
- pMC->Gdopt("hide", "off");
+ gMC->Gdopt("hide", "on");
+ gMC->Gdopt("shad", "on");
+ gMC->Gsatt("*", "fill", 7);
+ gMC->SetClipBox(".");
+ gMC->SetClipBox("*", 0, 3000, -3000, 3000, -6000, 6000);
+ gMC->DefaultRange();
+ gMC->Gdraw("alic", 40, 30, 0, 22, 20.5, .02, .02);
+ gMC->Gdhead(1111, "Photon Multiplicity Detector Version 1");
+
+ //gMC->Gdman(17, 5, "MAN");
+ gMC->Gdopt("hide", "off");
+
+ cout << " Outside Draw Modules " << endl;
}
//_____________________________________________________________________________
void AliPMDv1::CreateMaterials()
{
+ cout << " Inside create materials " << endl;
//
- // Create materials for the PMD version 1
+ // Create materials for the PMD
//
// ORIGIN : Y. P. VIYOGI
//
- AliMC* pMC = AliMC::GetMC();
-
// --- The Argon- CO2 mixture ---
Float_t ag[2] = { 39.95 };
Float_t zg[2] = { 18. };
- Float_t wg[2] = { .8,.2 };
+ Float_t wg[2] = { .7,.3 };
Float_t dar = .001782; // --- Ar density in g/cm3 ---
// --- CO2 ---
Float_t ac[2] = { 12.,16. };
Float_t zsteel[4] = { 26.,24.,28.,14. };
Float_t wsteel[4] = { .715,.18,.1,.005 };
- Int_t *idtmed = gAlice->Idtmed();
+ Int_t *idtmed = fIdtmed->GetArray()-599;
Int_t isxfld = gAlice->Field()->Integ();
Float_t sxmgmx = gAlice->Field()->Max();
AliMaterial(15, "Cu $", 63.54, 29., 8.96, 1.43, 15.);
AliMaterial(16, "C $", 12.01, 6., 2.265, 18.8, 49.9);
AliMaterial(17, "POLYCARBONATE $", 20., 10., 1.2, 34.6, 999.);
+ AliMixture(19, "STAINLESS STEEL$", asteel, zsteel, 7.88, 4, wsteel);
+ // AliMaterial(31, "Xenon$", 131.3, 54., dxe, x0xe, 6.5e4);
AliMaterial(96, "MYLAR$", 8.73, 4.55, 1.39, 28.7, 62.);
AliMaterial(97, "CONCR$", 20., 10., 2.5, 10.7, 40.);
AliMaterial(98, "Vacum$", 1e-9, 1e-9, 1e-9, 1e16, 1e16);
AliMaterial(99, "Air $", 14.61, 7.3, .0012, 30420., 67500.);
- AliMixture(19, "STAINLESS STEEL$", asteel, zsteel, 7.88, 4, wsteel);
+
// define gas-mixtures
char namate[21];
- pMC->Gfmate((*fIdmate)[3], namate, a, z, d, radl, absl, buf, nbuf);
+ gMC->Gfmate((*fIdmate)[3], namate, a, z, d, radl, absl, buf, nbuf);
ag[1] = a;
zg[1] = z;
dg = (dar * 4 + dco) / 5;
AliMixture(5, "ArCO2$", ag, zg, dg, 2, wg);
// Define tracking media
- AliMedium(601, "Pb conv.$", 1, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
- AliMedium(602, " S steel$", 19, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
- AliMedium(607, "W conv.$", 7, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
- AliMedium(608, "G10plate$", 8, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
- AliMedium(604, "Al $", 4, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
- AliMedium(606, "Fe $", 6, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
- AliMedium(605, "ArCO2 $", 5, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1);
- AliMedium(609, "SILICON $", 9, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1);
- AliMedium(610, "Be $", 10, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
- AliMedium(698, "Vacuum $", 98, 0, 0, isxfld, sxmgmx, 1., .1, .1, 10);
- AliMedium(699, "Air gaps$", 99, 0, 0, isxfld, sxmgmx, 1., .1, .1, .1);
- AliMedium(615, "Cu $", 15, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
- AliMedium(616, "C $", 16, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
- AliMedium(617, "PLOYCARB$", 17, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
+ AliMedium(1, "Pb conv.$", 1, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
+ AliMedium(7, "W conv.$", 7, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
+ AliMedium(8, "G10plate$", 8, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
+ AliMedium(4, "Al $", 4, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
+ AliMedium(6, "Fe $", 6, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
+ AliMedium(5, "ArCO2 $", 5, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1);
+ AliMedium(9, "SILICON $", 9, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1);
+ AliMedium(10, "Be $", 10, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
+ AliMedium(98, "Vacuum $", 98, 0, 0, isxfld, sxmgmx, 1., .1, .1, 10);
+ AliMedium(99, "Air gaps$", 99, 0, 0, isxfld, sxmgmx, 1., .1, .1, .1);
+ AliMedium(15, "Cu $", 15, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
+ AliMedium(16, "C $", 16, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
+ AliMedium(17, "PLOYCARB$", 17, 0, 0, isxfld, sxmgmx, .1, .1, .01, .1);
+ AliMedium(19, " S steel$", 19, 0, 0, isxfld, sxmgmx, 1., .1, .01, .1);
+ // AliMedium(31, "Xenon $", 31, 1, 0, isxfld, sxmgmx, .1, .1, .1, .1);
// --- Generate explicitly delta rays in the iron, aluminium and lead ---
- pMC->Gstpar(idtmed[600], "LOSS", 3.);
- pMC->Gstpar(idtmed[600], "DRAY", 1.);
+ gMC->Gstpar(idtmed[600], "LOSS", 3.);
+ gMC->Gstpar(idtmed[600], "DRAY", 1.);
- pMC->Gstpar(idtmed[603], "LOSS", 3.);
- pMC->Gstpar(idtmed[603], "DRAY", 1.);
+ gMC->Gstpar(idtmed[603], "LOSS", 3.);
+ gMC->Gstpar(idtmed[603], "DRAY", 1.);
- pMC->Gstpar(idtmed[604], "LOSS", 3.);
- pMC->Gstpar(idtmed[604], "DRAY", 1.);
+ gMC->Gstpar(idtmed[604], "LOSS", 3.);
+ gMC->Gstpar(idtmed[604], "DRAY", 1.);
- pMC->Gstpar(idtmed[605], "LOSS", 3.);
- pMC->Gstpar(idtmed[605], "DRAY", 1.);
+ gMC->Gstpar(idtmed[605], "LOSS", 3.);
+ gMC->Gstpar(idtmed[605], "DRAY", 1.);
- pMC->Gstpar(idtmed[606], "LOSS", 3.);
- pMC->Gstpar(idtmed[606], "DRAY", 1.);
+ gMC->Gstpar(idtmed[606], "LOSS", 3.);
+ gMC->Gstpar(idtmed[606], "DRAY", 1.);
- pMC->Gstpar(idtmed[607], "LOSS", 3.);
- pMC->Gstpar(idtmed[607], "DRAY", 1.);
+ gMC->Gstpar(idtmed[607], "LOSS", 3.);
+ gMC->Gstpar(idtmed[607], "DRAY", 1.);
// --- Energy cut-offs in the Pb and Al to gain time in tracking ---
// --- without affecting the hit patterns ---
- pMC->Gstpar(idtmed[600], "CUTGAM", 1e-4);
- pMC->Gstpar(idtmed[600], "CUTELE", 1e-4);
- pMC->Gstpar(idtmed[600], "CUTNEU", 1e-4);
- pMC->Gstpar(idtmed[600], "CUTHAD", 1e-4);
- pMC->Gstpar(idtmed[605], "CUTGAM", 1e-4);
- pMC->Gstpar(idtmed[605], "CUTELE", 1e-4);
- pMC->Gstpar(idtmed[605], "CUTNEU", 1e-4);
- pMC->Gstpar(idtmed[605], "CUTHAD", 1e-4);
- pMC->Gstpar(idtmed[606], "CUTGAM", 1e-4);
- pMC->Gstpar(idtmed[606], "CUTELE", 1e-4);
- pMC->Gstpar(idtmed[606], "CUTNEU", 1e-4);
- pMC->Gstpar(idtmed[606], "CUTHAD", 1e-4);
- pMC->Gstpar(idtmed[603], "CUTGAM", 1e-4);
- pMC->Gstpar(idtmed[603], "CUTELE", 1e-4);
- pMC->Gstpar(idtmed[603], "CUTNEU", 1e-4);
- pMC->Gstpar(idtmed[603], "CUTHAD", 1e-4);
- pMC->Gstpar(idtmed[609], "CUTGAM", 1e-4);
- pMC->Gstpar(idtmed[609], "CUTELE", 1e-4);
- pMC->Gstpar(idtmed[609], "CUTNEU", 1e-4);
- pMC->Gstpar(idtmed[609], "CUTHAD", 1e-4);
+ gMC->Gstpar(idtmed[600], "CUTGAM", 1e-4);
+ gMC->Gstpar(idtmed[600], "CUTELE", 1e-4);
+ gMC->Gstpar(idtmed[600], "CUTNEU", 1e-4);
+ gMC->Gstpar(idtmed[600], "CUTHAD", 1e-4);
+ gMC->Gstpar(idtmed[605], "CUTGAM", 1e-4);
+ gMC->Gstpar(idtmed[605], "CUTELE", 1e-4);
+ gMC->Gstpar(idtmed[605], "CUTNEU", 1e-4);
+ gMC->Gstpar(idtmed[605], "CUTHAD", 1e-4);
+ gMC->Gstpar(idtmed[606], "CUTGAM", 1e-4);
+ gMC->Gstpar(idtmed[606], "CUTELE", 1e-4);
+ gMC->Gstpar(idtmed[606], "CUTNEU", 1e-4);
+ gMC->Gstpar(idtmed[606], "CUTHAD", 1e-4);
+ gMC->Gstpar(idtmed[603], "CUTGAM", 1e-4);
+ gMC->Gstpar(idtmed[603], "CUTELE", 1e-4);
+ gMC->Gstpar(idtmed[603], "CUTNEU", 1e-4);
+ gMC->Gstpar(idtmed[603], "CUTHAD", 1e-4);
+ gMC->Gstpar(idtmed[609], "CUTGAM", 1e-4);
+ gMC->Gstpar(idtmed[609], "CUTELE", 1e-4);
+ gMC->Gstpar(idtmed[609], "CUTNEU", 1e-4);
+ gMC->Gstpar(idtmed[609], "CUTHAD", 1e-4);
// --- Prevent particles stopping in the gas due to energy cut-off ---
- pMC->Gstpar(idtmed[604], "CUTGAM", 1e-5);
- pMC->Gstpar(idtmed[604], "CUTELE", 1e-5);
- pMC->Gstpar(idtmed[604], "CUTNEU", 1e-5);
- pMC->Gstpar(idtmed[604], "CUTHAD", 1e-5);
- pMC->Gstpar(idtmed[604], "CUTMUO", 1e-5);
+ gMC->Gstpar(idtmed[604], "CUTGAM", 1e-5);
+ gMC->Gstpar(idtmed[604], "CUTELE", 1e-5);
+ gMC->Gstpar(idtmed[604], "CUTNEU", 1e-5);
+ gMC->Gstpar(idtmed[604], "CUTHAD", 1e-5);
+ gMC->Gstpar(idtmed[604], "CUTMUO", 1e-5);
+
+ cout << " Outside create materials " << endl;
+
}
//_____________________________________________________________________________
//
// Initialises PMD detector after it has been built
//
+
Int_t i;
kdet=1;
//
- printf("\n");
- for(i=0;i<35;i++) printf("*");
- printf(" PMD_INIT ");
- for(i=0;i<35;i++) printf("*");
- printf("\n");
- printf(" PMD simulation package (v1) initialised\n");
- printf(" parameters of pmd\n");
- printf("%6d %10.2f %10.2f %10.2f %10.2f %10.2f\n",kdet,thmin,thmax,zdist,thlow,thhigh);
- //
- for(i=0;i<80;i++) printf("*");
- printf("\n");
- //
- Int_t *idtmed = gAlice->Idtmed();
+ cout << " Inside Init " << endl;
+ if(fDebug) {
+ printf("\n%s: ",ClassName());
+ for(i=0;i<35;i++) printf("*");
+ printf(" PMD_INIT ");
+ for(i=0;i<35;i++) printf("*");
+ printf("\n%s: ",ClassName());
+ printf(" PMD simulation package (v1) initialised\n");
+ printf("%s: parameters of pmd\n",ClassName());
+ printf("%s: %10.2f %10.2f %10.2f \
+ %10.2f\n",ClassName(),cell_radius,cell_wall,cell_depth,zdist1 );
+ printf("%s: ",ClassName());
+ for(i=0;i<80;i++) printf("*");
+ printf("\n");
+ }
+
+ Int_t *idtmed = fIdtmed->GetArray()-599;
fMedSens=idtmed[605-1];
+
}
//_____________________________________________________________________________
//
// Called at each step in the PMD
//
+
Int_t copy;
Float_t hits[4], destep;
Float_t center[3] = {0,0,0};
- Int_t vol[5];
- Text_t namep[5];
+ Int_t vol[8]; //5
+ //const char *namep;
- AliMC* pMC=AliMC::GetMC();
- if(pMC->GetMedium() == fMedSens && (destep = pMC->Edep())) {
-
-// pMC->CurrentVol(0, copy);
- pMC->CurrentVol(namep, copy);
-// printf("Current vol is %s \n",namep);
+ if(gMC->GetMedium() == fMedSens && (destep = gMC->Edep())) {
+
+ gMC->CurrentVolID(copy);
+ //namep=gMC->CurrentVolName();
+ //printf("Current vol is %s \n",namep);
vol[0]=copy;
-// pMC->CurrentVolOff(1,0,copy);
- pMC->CurrentVolOff(1,namep,copy);
-// printf("Current vol 11 is %s \n",namep);
+
+ gMC->CurrentVolOffID(1,copy);
+ //namep=gMC->CurrentVolOffName(1);
+ //printf("Current vol 11 is %s \n",namep);
vol[1]=copy;
-// pMC->CurrentVolOff(2,0,copy);
- pMC->CurrentVolOff(2,namep,copy);
-// printf("Current vol 22 is %s \n",namep);
+
+ gMC->CurrentVolOffID(2,copy);
+ //namep=gMC->CurrentVolOffName(2);
+ //printf("Current vol 22 is %s \n",namep);
vol[2]=copy;
-// if(strncmp(namep,"DW11",4))vol[2]=1;
-// pMC->CurrentVolOff(3,0,copy);
- pMC->CurrentVolOff(3,namep,copy);
-// printf("Current vol 33 is %s \n",namep);
+
+ // if(strncmp(namep,"EHC1",4))vol[2]=1;
+
+ gMC->CurrentVolOffID(3,copy);
+ //namep=gMC->CurrentVolOffName(3);
+ //printf("Current vol 33 is %s \n",namep);
vol[3]=copy;
- pMC->CurrentVolOff(4,namep,copy);
-// printf("Current vol 44 is %s \n",namep);
+
+ gMC->CurrentVolOffID(4,copy);
+ //namep=gMC->CurrentVolOffName(4);
+ //printf("Current vol 44 is %s \n",namep);
vol[4]=copy;
-// printf("volume number %d,%d,%d,%d,%d \n",vol[0],vol[1],vol[2],vol[3],vol[4]);
- pMC->Gdtom(center,hits,1);
+
+ gMC->CurrentVolOffID(5,copy);
+ //namep=gMC->CurrentVolOffName(5);
+ //printf("Current vol 55 is %s \n",namep);
+ vol[5]=copy;
+
+ gMC->CurrentVolOffID(6,copy);
+ //namep=gMC->CurrentVolOffName(6);
+ //printf("Current vol 66 is %s \n",namep);
+ vol[6]=copy;
+
+ gMC->CurrentVolOffID(7,copy);
+ //namep=gMC->CurrentVolOffName(7);
+ //printf("Current vol 77 is %s \n",namep);
+ vol[7]=copy;
+
+
+ //printf("volume number %4d %4d %4d %4d %4d %4d %4d %4d %10.3f \n",vol[0],vol[1],vol[2],vol[3],vol[4],vol[5],vol[6],vol[7],destep*1000000);
+
+ gMC->Gdtom(center,hits,1);
hits[3] = destep*1e9; //Number in eV
- AddHit(gAlice->CurrentTrack(), vol, hits);
+ AddHit(gAlice->GetCurrentTrackNumber(), vol, hits);
+
}
}
+//------------------------------------------------------------------------
+// Get parameters
+
+void AliPMDv1::GetParameters()
+{
+ const Float_t root3 = TMath::Sqrt(3.);
+ const Float_t root3_2 = TMath::Sqrt(3.) /2.;
+ //
+ cell_radius=0.25;
+ cell_wall=0.02;
+ cell_depth=0.25 * 2.;
+ //
+ ncol_um1 = 48;
+ ncol_um2 = 96;
+ nrow_um1 = 96;//each strip has 1 row
+ nrow_um2 = 48;//each strip has 1 row
+ //
+ sm_length_ax = (3.0*(ncol_um1*cell_radius+cell_radius/2.)+(2.0*0.025)) + 0.7;
+ sm_length_bx = 2.0*(ncol_um2*cell_radius+cell_radius/2.)+0.025+0.7;
+
+ sm_length_ay = 2.0*(((cell_radius/root3_2)*nrow_um1)-(cell_radius*root3*(nrow_um1-1)/6.))+0.025+0.7;
+ sm_length_by = 3.0*(((cell_radius/root3_2)*nrow_um2)-(cell_radius*root3*(nrow_um2-1)/6.))+(2.0*0.025)+0.7;
+ //
+ boundary=0.7;
+ //
+ th_base=0.3;
+ th_air=0.1;
+ th_pcb=0.16;
+ //
+ sm_thick = th_base + th_air + th_pcb + cell_depth + th_pcb + th_air + th_pcb;
+ //
+ th_lead=1.5;
+ th_steel=0.5;
+
+ zdist1 = -361.5;
+
+}