// This Version of AliEMCALv0 reduces the number of volumes placed in XEN1 (the envelope) to less than five hundred
// The Envelope is Placed in Alice, And the Aluminium layer. Mini envelopes (XU) are then placed in XEN1.
-// Each mini envelope contains 2 scintillator, and 2 lead layers, except the last one which contains just one scintillator layer.
+// Each mini envelope contains 1 scintillator, and 1 lead layer, except the last one which contains just one scintillator layer.
// At the moment I cannot place the 36 and above layers in the mini envelopes so all layers are still placed in XEN1
// --- ROOT system ---
-#include "TPGON.h"
+//#include "TPGON.h"
#include "TTUBS.h"
#include "TNode.h"
-#include "TRandom.h"
#include "TGeometry.h"
+#include "TVirtualMC.h"
+#include "TArrayI.h"
// --- Standard library ---
-#include <stdio.h>
-#include <string.h>
-#include <stdlib.h>
-#include <strstream.h>
-#include <iostream.h>
+//#include <stdio.h>
// --- AliRoot header files ---
#include "AliEMCALv0.h"
#include "AliEMCALGeometry.h"
-#include "AliConst.h"
#include "AliRun.h"
-#include "AliMC.h"
ClassImp(AliEMCALv0)
TNode * top = gAlice->GetGeometry()->GetNode("alice") ;
new TTUBS("Envelop1", "Tubs that contains arm 1", "void",
geom->GetEnvelop(0), // rmin
- geom->GetEnvelop(1) +30 , // rmax
+ geom->GetEnvelop(1) +30 ,// rmax
geom->GetEnvelop(2)/2.0, // half length in Z
- geom->GetArm1PhiMin(), // minimun phi angle
- geom->GetArm1PhiMax() // maximun phi angle
+ geom->GetArm1PhiMin(), // minimum phi angle
+ geom->GetArm1PhiMax() // maximum phi angle
);
// Place the Node
//______________________________________________________________________
void AliEMCALv0::CreateGeometry()
{
- // Create the EMCAL geometry for Geant
+ // Create the EMCAL geometry for Geant
+ // Geometry of a tower
+ //|-----------------------------------------------------| XEN1
+ //| | | |
+ //| | Al thickness = GetAlFrontThickness() | |
+ //| | | |
+ //| | | |
+ //| | | |
+ //| ------------------------------------------------- |
+ //| | Air Gap = GetGap2Active() | |
+ //| | | |
+ //| ------------------------------------------------- |
+ //| | XU1 : XPST (ECAL e = GetECScintThick() ) | |
+ //| ------------------------------------------------- |
+ //| | XU1 : XPBX (ECAL e = GetECPbRadThick() ) | |
+ //| ------------------------------------------------- |
+ //| | XU1 : XPST (ECAL e = GetECScintThick() | |
+ //| ------------------------------------------------- |
+ //| | XU1 : XPBX (ECAL e = GetECPbRadThick() ) | |
+ //| ------------------------------------------------- |
+ //| etc ..... GetNECLayers() - 1 times |
+ //| ------------------------------------------------- |
+ //| | XUNLayer : XPST (ECAL e = GetECScintThick() | |
+ //| ------------------------------------------------- |
Float_t etamin,etamax;
Float_t *dum=0;
// Get pointer to the array containing media indices
Int_t *idtmed = fIdtmed->GetArray() - 1599 ;
- // Create an Envelope within which to place the Detector
- Float_t envelopA[5];
- envelopA[0] = geom->GetEnvelop(0); // rmin
- envelopA[1] = geom->GetEnvelop(1); // rmax
- envelopA[2] = geom->GetEnvelop(2)/2.0; // dz
- envelopA[3] = geom->GetArm1PhiMin(); // minimun phi angle
- envelopA[4] = geom->GetArm1PhiMax(); // maximun phi angle
-
- // create XEN1
- gMC->Gsvolu("XEN1", "TUBS ", idtmed[1599], envelopA, 5) ; //filled with air
Int_t idrotm = 1;
AliMatrix(idrotm, 90.0, 0., 90.0, 90.0, 0.0, 0.0) ;
- // Position the EMCAL Mother Volume in Alice
- gMC->Gspos("XEN1", 1, "ALIC", 0.0, 0.0, 0.0, idrotm, "ONLY") ;
+ // Create the EMCAL Mother Volume (a polygone) within which to place the Detector and named XEN1
+
+ Float_t envelopA[10];
+ envelopA[0] = geom->GetArm1PhiMin(); // minimum phi angle
+ envelopA[1] = geom->GetArm1PhiMax() - geom->GetArm1PhiMin(); // angular range in phi
+ envelopA[2] = geom->GetNPhi(); // number of sections in phi
+ envelopA[3] = 2; // 2 z coordinates
+ envelopA[4] = geom->ZFromEtaR(geom->GetEnvelop(1),
+ geom->GetArm1EtaMin()); // z coordinate 1
+ //add some padding for mother volume
+ envelopA[5] = geom->GetEnvelop(0) ; // rmin at z1
+ envelopA[6] = geom->GetEnvelop(1) ; // rmax at z1
+ envelopA[7] = geom->ZFromEtaR(geom->GetEnvelop(1),
+ geom->GetArm1EtaMax()); // z coordinate 2
+ envelopA[8] = envelopA[5] ; // radii are the same.
+ envelopA[9] = envelopA[6] ; // radii are the same.
- //
- TString label = "XU0";
+ gMC->Gsvolu("XEN1", "PGON ", idtmed[1599], envelopA, 10) ; // Polygone filled with air
- //rmin Start mini envelopes after the aluminium layer
- envelopA[0] = geom->GetEnvelop(0) + geom->GetGap2Active() +
- geom->GetAlFrontThickness();
+ // Position the EMCAL Mother Volume (XEN1) in Alice (ALIC)
+
+ gMC->Gspos("XEN1", 1, "ALIC", 0.0, 0.0, 0.0, idrotm, "ONLY") ;
+
+ if (gDebug==2) {
+ printf("CreateGeometry: XEN1 = %f, %f\n", envelopA[5], envelopA[6]);
+ printf("CreateGeometry: XU0 = %f, %f\n", envelopA[5], envelopA[6]);
+ }
+ // Create mini-envelopes which will contain the Tower scintillator-radiator
+
+ TString label ;
+
+ envelopA[5] = envelopA[5] + geom->GetGap2Active() // we are at the first scintllator
+ + geom->GetAlFrontThickness(); // rmin at z1
+ envelopA[6] = envelopA[5] ;
- //rmax larger for first two layers (preshower);
- Float_t tseg = geom->GetPreSintThick()+geom->GetPbRadThick();
- envelopA[1] = envelopA[0] + 2.0*tseg;
- envelopA[2] = geom->GetEnvelop(2)/2.0; // dz
- envelopA[3] = geom->GetArm1PhiMin(); // minimun phi angle
- envelopA[4] = geom->GetArm1PhiMax(); // maximun phi angle
- //filled with air
- gMC->Gsvolu(label.Data(), "TUBS ", idtmed[1599], envelopA, 5);
+ Int_t i ;
- // Place XU0 in to XEN1
- gMC->Gspos(label.Data(), 1, "XEN1", 0.0, 0.0, 0.0, idrotm, "ONLY");
+ Int_t nLayers = geom->GetNECLayers();
- tseg = geom->GetFullSintThick()+geom->GetPbRadThick();
- for (int i = 1; i < ((geom->GetNLayers()-1)/2) + 1 ; i++ ){
+ for (i = 0; i < (nLayers-1); i++ ){
label = "XU" ;
label += i ;
- envelopA[0] = envelopA[1]; //rmin
- envelopA[1] = envelopA[0] + 2.0*tseg; //rmax
+ Float_t tseg ;
+ tseg = geom->GetECScintThick()+geom->GetECPbRadThick(); // thickness of scintillator+Pb in E Cal
+ envelopA[5] = envelopA[6] ; // rmin at z1
+ envelopA[4] = geom->ZFromEtaR(envelopA[5] + tseg,
+ geom->GetArm1EtaMin()); // z coordinate 1
+ envelopA[7] = geom->ZFromEtaR(envelopA[5] + tseg,
+ geom->GetArm1EtaMax()); // z coordinate 2
+ envelopA[6] = envelopA[5] + tseg ; // rmax at z1
+ envelopA[8] = envelopA[5] ; // radii are the same.
+ envelopA[9] = envelopA[6] ; // radii are the same.
+
+ gMC->Gsvolu(label.Data(), "PGON", idtmed[1599], envelopA, 10);// Polygone filled with air
- //filled with air
- gMC->Gsvolu(label.Data(), "TUBS ", idtmed[1599], envelopA, 5);
+ // Position XUi in XEN1
+
gMC->Gspos(label.Data(), 1, "XEN1", 0.0, 0.0, 0.0, idrotm, "ONLY") ;
- } // end i
+ if (gDebug == 2)
+ printf("CreateGeometry: XU%d = %f, %f\n", i, envelopA[5], envelopA[6]);
+
+ } // end i
+
+
+ // Create one mini-envelope which will contain the last scintillator XU(nlayers-1) because there is one more scintillator than Pb layer XU(nlayers-1)
+
+ label = "XU" ;
+ label += i ;
+ envelopA[5] = envelopA[6] ; // rmin at z1
+ envelopA[4] = geom->ZFromEtaR(envelopA[5] + geom->GetECScintThick(),
+ geom->GetArm1EtaMin()); // z coordinate 1
+ envelopA[7] = geom->ZFromEtaR(envelopA[5] + geom->GetECScintThick(),
+ geom->GetArm1EtaMax()); // z coordinate 2
+ envelopA[6] = envelopA[5] + geom->GetECScintThick() ; // rmax at z1
+ envelopA[8] = envelopA[5] ; // radii are the same.
+ envelopA[9] = envelopA[6] ; // radii are the same.
+
+ gMC->Gsvolu(label.Data(), "PGON", idtmed[1599], envelopA, 10); // Polygone filled with air
+
+ // Position the last minienvelope in XEN1
+
+ gMC->Gspos(label.Data(), 1, "XEN1", 0.0, 0.0, 0.0, idrotm, "ONLY") ;
+
+ if(gDebug == 2)
+ printf("CreateGeometry: XEN%d = %f, %f\n", i, envelopA[5], envelopA[6]);
+
// Create the shapes of active material (LEAD/Aluminium/Scintillator)
// to be placed
Float_t envelopB[10]; // First Layer of Aluminium
Float_t envelopC[10]; // Scintillator Layers
Float_t envelopD[10]; // Lead Layers
- //starting position in Phi
- envelopC[0] = envelopD[0] = envelopB[0] = geom->GetArm1PhiMin();
-
- // Angular size of the Detector in Phi
- envelopB[1] = geom->GetArm1PhiMax() - geom->GetArm1PhiMin();
- envelopC[1] = envelopD[1] = envelopB[1];
-
- // Number of Section in Phi
- envelopC[2] = envelopD[2] = envelopB[2] = geom->GetNPhi();
-
- // each section will be passed 2 z coordinates
- envelopD[3] = envelopC[3] = envelopB[3] = 2;
- envelopB[4] = geom->ZFromEtaR(geom->GetEnvelop(0)+geom->GetGap2Active(),
- geom->GetArm1EtaMin());// z co-ordinate 1
- envelopB[5] = geom->GetEnvelop(0) + geom->GetGap2Active(); //rmin at z1
- envelopB[6] = envelopB[5] + geom->GetAlFrontThickness();//rmax at z1
- envelopD[6] = envelopB[6];
- envelopB[7] = geom->ZFromEtaR(geom->GetEnvelop(0)+geom->GetGap2Active(),
- geom->GetArm1EtaMax()); // z co-ordinate 2
- envelopB[8] = envelopB[5] ; //
- envelopB[9] = envelopB[6] ; // radii are the same.
-
- // filled shapes wit hactive material
-
- // Define Aluminium volume completely
- gMC->Gsvolu("XALU", "PGON", idtmed[1602], envelopB, 10);
-
- // The polystyrene layers will be defined when placed
- gMC->Gsvolu("XPST", "PGON", idtmed[1601], dum, 0);
- gMC->Gsvolu("XPBX", "PGON", idtmed[1600], dum, 0);// as will the lead layers
+ envelopC[0] = envelopD[0] = envelopB[0] = envelopA[0] ; // starting position in Phi
+ envelopC[1] = envelopD[1] = envelopB[1] = envelopA[1] ; // angular range in phi
+ envelopC[2] = envelopD[2] = envelopB[2] = envelopA[2] ; // number of sections in Phi
+ envelopC[3] = envelopD[3] = envelopB[3] = envelopA[3] ; // 2 z coordinates
+
+ Float_t dist = geom->GetEnvelop(0) + geom->GetAlFrontThickness() + geom->GetGap2Active() ;
+ envelopB[4] = geom->ZFromEtaR(dist,
+ geom->GetArm1EtaMin()); // z co-ordinate 1
+ envelopB[5] = geom->GetEnvelop(0) ; // rmin at z1
+ envelopB[6] = envelopB[5] + geom->GetAlFrontThickness();// rmax at z1
+ envelopB[7] = geom->ZFromEtaR(dist,
+ geom->GetArm1EtaMax()); // z co-ordinate 2
+ envelopB[8] = envelopB[5] ; // radii are the same.
+ envelopB[9] = envelopB[6] ; // radii are the same.
+
+ // Define active volumes completely
+
+ gMC->Gsvolu("XALU", "PGON", idtmed[1602], envelopB, 10); // PGON filled with Al
+
+ gMC->Gspos("XALU", 1, "XEN1", 0.0, 0.0, 0.0 , idrotm, "ONLY") ; // Position Aluminium Layer in XEN1
- // Dividind eta polystyrene divisions into phi segments.
- gMC->Gsdvn("XPHI", "XPST", geom->GetNPhi(), 2);
+ gMC->Gsvolu("XPST", "PGON", idtmed[1601], dum, 0); // PGON filled with Scintillator (shape to be defined by GSPOSP)
+
+ gMC->Gsvolu("XPBX", "PGON", idtmed[1600], dum, 0); // PGON filled with Lead (shape to be defined by GSPOSP)
+
+ //gMC->Gsvolu("XCUX", "PGON", idtmed[1603], dum, 0); // PGON filled with Copper (shape to be defined by GSPOSP)
- // Position Aluminium Layer in the Envelope
- gMC->Gspos("XALU", 1, "XEN1", 0.0, 0.0, 0.0 , idrotm, "ONLY") ;
+ gMC->Gsdvn("XPHI", "XPST", geom->GetNPhi(), 2); // Divide eta section of scintillators into phi segments.
+
+ // Position alternatively scintillator and Lead Layers in XUi.
- // The loop below places the scintillator in Lead Layers alternately.
- for (int i = 0; i < geom->GetNLayers() ; i++ ){
- label = "XU" ;
- label += (int) i/2 ; // we will place two layers (i = one layer) in each mini envelope)
- envelopC[5] = envelopD[6] ; //rmin
- envelopC[6] = envelopD[6] + ((i > 1) ? geom->GetFullSintThick() :
- geom->GetPreSintThick());//rmax larger for first two layers (preshower)
- envelopC[8] = envelopD[6] ; //rmin
- envelopC[9] = envelopD[6] + ((i > 1 ) ? geom->GetFullSintThick() :
- geom->GetPreSintThick());//rmax larger for first two layers (preshower)
- for (int j =0; j < (geom->GetNEta()) ; j++){
+ envelopD[6] = envelopB[6] + geom->GetGap2Active() ;// gap between Al layer and XU0
+
+ for (int i = 0; i < nLayers; i++ ){
+ label = "XU" ;
+ label += i ; // we will place one layer in each mini envelope)
+
+ Float_t scthick ; // scintillator thickness
+ scthick = geom->GetECScintThick() ;
+
+ envelopC[5] = envelopD[6] ; //rmin
+ envelopC[6] = envelopC[5] + scthick ; //rmax
+ envelopC[8] = envelopC[5] ; //rmin
+ envelopC[9] = envelopC[6] ; //rmax
+
+ if(gDebug == 2 )
+ printf("CreateGeometry: volume = %s, name = XPST thickness = %f deb = %f/%f fin = %f/%f", label.Data(), scthick, envelopC[5], envelopC[8], envelopC[6], envelopC[9]) ;
+
+ for (int j =0; j < (geom->GetNEta()) ; j++){
+ etamin = geom->GetArm1EtaMin()+
+ (j*geom->GetDeltaEta());
+ etamax = geom->GetArm1EtaMin()+
+ ((j+1)*geom->GetDeltaEta());
+ envelopC[4] = geom->ZFromEtaR(envelopC[5],etamin); //z begin
+ envelopC[7] = geom->ZFromEtaR(envelopC[5],etamax);// z end
+
+ gMC->Gsposp("XPST",1+j+i*(geom->GetNEta()), label.Data(),
+ 0.0, 0.0, 0.0 , idrotm, "ONLY", envelopC, 10); // Position and define layer
+ } // end for j
+
+ Float_t radthick ; // radiator thickness
+ TString radname ; // radiator name
+ radthick = geom->GetECPbRadThick();
+ radname = "XPBX" ;
+
+ if ( i < nLayers -1 ) { // except for the last XU which contains only one scintillator layer
+
+ envelopD[5] = envelopC[6] ; //rmin
+ envelopD[8] = envelopD[5] ; //rmin
+ envelopD[6] = envelopD[5] + radthick ; // rmax
+ envelopD[9] = envelopD[6] ; //rmax
+
+ if(gDebug == 2 )
+ printf("CreateGeometry: volume = %s, name = %s thickness = %f deb = %f/%f fin = %f/%f", label.Data(), radname.Data(), radthick, envelopD[5], envelopD[8], envelopD[6], envelopD[9]) ;
+
+ for (int j =0; j < (geom->GetNEta()) ; j++){
etamin = geom->GetArm1EtaMin()+
- (j*geom->GetDeltaEta());
+ (j*geom->GetDeltaEta());
etamax = geom->GetArm1EtaMin()+
- ((j+1)*geom->GetDeltaEta());
- envelopC[4] = geom->ZFromEtaR(envelopD[6],etamin); //z begin
- envelopC[7] = geom->ZFromEtaR(envelopD[6],etamax);// z end
- gMC->Gsposp("XPST",1+j+i*(geom->GetNEta()), label.Data(), // should be used but there's a weird crash above i = 18,
- 0.0, 0.0, 0.0 , idrotm, "ONLY", envelopC, 10); // Position and define layer
- } // end for j
-
- if (i < (geom->GetNLayers()-1)){
- envelopD[5] = envelopC[6] ; //rmin
- envelopD[6] = envelopC[6] + geom->GetPbRadThick(); //rmax
- envelopD[8] = envelopC[6] ; //rmin
- envelopD[9] = envelopC[6] + geom->GetPbRadThick(); //rmax
- for (int j =0; j < (geom->GetNEta()) ; j++){
- etamin = geom->GetArm1EtaMin()+
- (j*geom->GetDeltaEta());
- etamax = geom->GetArm1EtaMin()+
- ((j+1)*geom->GetDeltaEta());
- envelopD[4] = geom->ZFromEtaR(envelopC[6],etamin);//z begin
- envelopD[7] = geom->ZFromEtaR(envelopC[6],etamax);// z end
-
- // Position and Define Layer
- gMC->Gsposp("XPBX",1+ j+i*(geom->GetNEta()), label.Data(),
- 0.0, 0.0, 0.0 , idrotm, "ONLY", envelopD, 10);
- } // end for j
- } // end if i
+ ((j+1)*geom->GetDeltaEta());
+ envelopD[4] = geom->ZFromEtaR(envelopD[5],etamin);//z begin
+ envelopD[7] = geom->ZFromEtaR(envelopD[5],etamax);// z end
+
+ // Position and Define Layer
+
+ gMC->Gsposp(radname.Data(),1+j+i*(geom->GetNEta()), label.Data(),
+ 0.0, 0.0, 0.0 , idrotm, "ONLY", envelopD, 10);
+ } // end for j
+ } // if not last layer
} // for i
}
void AliEMCALv0::Init(void)
{
// Just prints an information message
-
- Int_t i;
+
+ if(fDebug) {
+ TString message("\n") ;
+ message += "*****************************************\n" ;
- if(fDebug) {
- cout << endl;
- for(i=0;i<35;i++)
- cout <<"*";
- cout << "INFO: " << ClassName() << "::Init ";
- for(i=0;i<35;i++)
- cout << "*";
- cout << endl;
-
// Here the EMCAL initialisation code (if any!)
-
+
AliEMCALGeometry * geom = GetGeometry() ;
-
- if (geom!=0)
- cout << "AliEMCAL" << Version() << " : EMCAL geometry intialized for "
- << geom->GetName() << endl ;
- else
- cout << "AliEMCAL" << Version() <<
- " : EMCAL geometry initialization failed !" << endl ;
-
- for(i=0;i<80;i++)
- cout << "*" ;
- cout << endl;
+
+ if (geom!=0) {
+ message += "AliEMCAL " ;
+ message += Version() ;
+ message += "EMCAL geometry initialized for " ;
+ message += geom->GetName() ;
+ }
+ else {
+ message += "AliEMCAL " ;
+ message += Version() ;
+ message += "EMCAL geometry initialization failed !" ;
}
+ message += "\n*****************************************" ;
+ printf(message.Data() ) ;
+ }
}
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff