+/**************************************************************************
+ * 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 1.17 2002/11/07 09:06:10 morsch
+J/Psi and Upsilon pt and y distributions from R. Vogt 2002 added.
+
+Revision 1.16 2002/10/14 14:55:35 hristov
+Merging the VirtualMC branch to the main development branch (HEAD)
+
+Revision 1.14.6.1 2002/06/10 14:57:41 hristov
+Merged with v3-08-02
+
+Revision 1.15 2002/04/17 10:11:51 morsch
+Coding Rule violations corrected.
+
+Revision 1.14 2002/02/22 17:26:43 morsch
+Eta and omega added.
+
+Revision 1.13 2001/03/27 11:01:04 morsch
+Charm pt-distribution corrected. More realistic y-distribution for pi and K.
+
+Revision 1.12 2001/03/09 13:01:41 morsch
+- enum constants for paramterisation type (particle family) moved to AliGen*lib.h
+- use AliGenGSIlib::kUpsilon, AliGenPHOSlib::kEtaPrime to access the constants
+
+Revision 1.11 2000/11/30 07:12:50 alibrary
+Introducing new Rndm and QA classes
+
+Revision 1.10 2000/06/29 21:08:27 morsch
+All paramatrisation libraries derive from the pure virtual base class AliGenLib.
+This allows to pass a pointer to a library directly to AliGenParam and avoids the
+use of function pointers in Config.C.
+
+Revision 1.9 2000/06/14 15:20:56 morsch
+Include clean-up (IH)
+
+Revision 1.8 2000/06/09 20:32:11 morsch
+All coding rule violations except RS3 corrected
+
+Revision 1.7 2000/05/02 08:12:13 morsch
+Coding rule violations corrected.
+
+Revision 1.6 1999/09/29 09:24:14 fca
+Introduction of the Copyright and cvs Log
+
+*/
+
+// Library class for particle pt and y distributions used for
+// muon spectrometer simulations.
+// To be used with AliGenParam.
+// The following particle typed can be simulated:
+// pi, K, phi, omega, eta, J/Psi, Upsilon, charm and beauty mesons.
+//
+// andreas.morsch@cern.ch
+//
+
+#include "TMath.h"
+#include "TRandom.h"
+
#include "AliGenMUONlib.h"
-#include "AliRun.h"
+
ClassImp(AliGenMUONlib)
//
// Pions
-Double_t AliGenMUONlib::PtPion(Double_t *px, Double_t *)
+Double_t AliGenMUONlib::PtPion(Double_t *px, Double_t *dummy)
{
//
// PT-PARAMETERIZATION CDF, PRL 61(88) 1819
// POWER LAW FOR PT > 500 MEV
// MT SCALING BELOW (T=160 MEV)
//
- const Double_t p0 = 1.3;
- const Double_t xn = 8.28;
- const Double_t xlim=0.5;
- const Double_t t=0.160;
- const Double_t xmpi=0.139;
- const Double_t b=1.;
+ const Double_t kp0 = 1.3;
+ const Double_t kxn = 8.28;
+ const Double_t kxlim=0.5;
+ const Double_t kt=0.160;
+ const Double_t kxmpi=0.139;
+ const Double_t kb=1.;
Double_t y, y1, xmpi2, ynorm, a;
Double_t x=*px;
//
- y1=TMath::Power(p0/(p0+xlim),xn);
- xmpi2=xmpi*xmpi;
- ynorm=b*(TMath::Exp(-sqrt(xlim*xlim+xmpi2)/t));
+ y1=TMath::Power(kp0/(kp0+kxlim),kxn);
+ xmpi2=kxmpi*kxmpi;
+ ynorm=kb*(TMath::Exp(-sqrt(kxlim*kxlim+xmpi2)/kt));
a=ynorm/y1;
- if (x > xlim)
- y=a*TMath::Power(p0/(p0+x),xn);
+ if (x > kxlim)
+ y=a*TMath::Power(kp0/(kp0+x),kxn);
else
- y=b*TMath::Exp(-sqrt(x*x+xmpi2)/t);
+ y=kb*TMath::Exp(-sqrt(x*x+xmpi2)/kt);
return y*x;
}
+//
+// y-distribution
+//
+Double_t AliGenMUONlib::YPion( Double_t *py, Double_t *dummy)
+{
+// Pion y
+ Double_t y=TMath::Abs(*py);
+/*
+ const Double_t ka = 7000.;
+ const Double_t kdy = 4.;
+ Double_t ex = y*y/(2*kdy*kdy);
+ return ka*TMath::Exp(-ex);
+*/
+ return 1.16526e+04+y*-3.79886e+03+y*y*4.31130e+02;
+
+}
+// particle composition
+//
+Int_t AliGenMUONlib::IpPion(TRandom *ran)
+{
+// Pion composition
+ if (ran->Rndm() < 0.5) {
+ return 211;
+ } else {
+ return -211;
+ }
+}
//____________________________________________________________
//
{
// SCALING EN MASSE PAR RAPPORT A PTPI
// MASS PI,K,ETA,RHO,OMEGA,ETA',PHI
- const Double_t hm[10] = {.13957,.493,.5488,.769,.7826,.958,1.02,0,0,0};
+ const Double_t khm[10] = {.13957,.493,.5488,.769,.7826,.958,1.02,0,0,0};
// VALUE MESON/PI AT 5 GEV
- const Double_t fmax[10]={1.,0.3,0.55,1.0,1.0,1.0,1.0,0,0,0};
+ const Double_t kfmax[10]={1.,0.3,0.55,1.0,1.0,1.0,1.0,0,0,0};
np--;
- Double_t f5=TMath::Power(((sqrt(100.018215)+2.)/(sqrt(100.+hm[np]*hm[np])+2.0)),12.3);
- Double_t fmax2=f5/fmax[np];
+ Double_t f5=TMath::Power(((sqrt(100.018215)+2.)/(sqrt(100.+khm[np]*khm[np])+2.0)),12.3);
+ Double_t fmax2=f5/kfmax[np];
// PIONS
Double_t ptpion=100.*PtPion(&pt, (Double_t*) 0);
Double_t fmtscal=TMath::Power(((sqrt(pt*pt+0.018215)+2.)/
- (sqrt(pt*pt+hm[np]*hm[np])+2.0)),12.3)/ fmax2;
+ (sqrt(pt*pt+khm[np]*khm[np])+2.0)),12.3)/ fmax2;
return fmtscal*ptpion;
}
//
-// eta-distribution for kaons
+// kaon
+//
+// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::EtaKaon( Double_t *py, Double_t *)
-{
- const Double_t a1 = 497.6;
- const Double_t a2 = 215.6;
- const Double_t eta1 = 0.79;
- const Double_t eta2 = 4.09;
- const Double_t deta1 = 1.54;
- const Double_t deta2 = 1.40;
+Double_t AliGenMUONlib::PtKaon( Double_t *px, Double_t *dummy)
+{
+// Kaon pT
+ return PtScal(*px,2);
+}
+
+// y-distribution
+//____________________________________________________________
+Double_t AliGenMUONlib::YKaon( Double_t *py, Double_t *dummy)
+{
+// Kaon y
Double_t y=TMath::Abs(*py);
+/*
+ const Double_t ka = 1000.;
+ const Double_t kdy = 4.;
//
- Double_t ex1 = (y-eta1)*(y-eta1)/(2*deta1*deta1);
- Double_t ex2 = (y-eta2)*(y-eta2)/(2*deta2*deta2);
- return a1*TMath::Exp(-ex1)+a2*TMath::Exp(-ex2);
+ Double_t ex = y*y/(2*kdy*kdy);
+ return ka*TMath::Exp(-ex);
+*/
+
+ return 1.16526e+04+y*-3.79886e+03+y*y*4.31130e+02;
+}
+
+// particle composition
+//
+Int_t AliGenMUONlib::IpKaon(TRandom *ran)
+{
+// Kaon composition
+ if (ran->Rndm() < 0.5) {
+ return 321;
+ } else {
+ return -321;
+ }
}
+
// J/Psi
//
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtJpsi( Double_t *px, Double_t *)
+Double_t AliGenMUONlib::PtJpsi( Double_t *px, Double_t *dummy)
{
- const Double_t pt0 = 4.;
- const Double_t xn = 3.6;
+// J/Psi pT
+ const Double_t kpt0 = 4.;
+ const Double_t kxn = 3.6;
Double_t x=*px;
//
- Double_t pass1 = 1.+(x/pt0)*(x/pt0);
- return x/TMath::Power(pass1,xn);
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+
+Double_t AliGenMUONlib::PtJpsiPbPb( Double_t *px, Double_t *dummy)
+{
+// J/Psi pT
+//
+// R. Vogt 2002
+// PbPb 5.5 TeV
+// MRST HO
+// mc = 1.4 GeV, pt-kick 1 GeV
+//
+
+ Float_t ptJpsi[100] = {
+ 0.0000e-01, 4.5870e+01, 6.5200e+01, 7.1740e+01, 6.5090e+01,
+ 5.5070e+01, 4.9420e+01, 3.9780e+01, 3.2390e+01, 2.8120e+01,
+ 2.3870e+01, 1.9540e+01, 1.6510e+01, 1.4180e+01, 1.2050e+01,
+ 1.0390e+01, 8.7970e+00, 7.8680e+00, 6.7710e+00, 5.9360e+00,
+ 5.3460e+00, 4.5670e+00, 4.6500e+00, 3.9360e+00, 3.5070e+00,
+ 3.2070e+00, 2.8310e+00, 2.6340e+00, 2.4900e+00, 2.2410e+00,
+ 2.1090e+00, 1.9070e+00, 1.7360e+00, 1.6120e+00, 1.5450e+00,
+ 1.4350e+00, 1.3890e+00, 1.2610e+00, 1.0880e+00, 1.0930e+00,
+ 1.0680e+00, 9.2500e-01, 8.6790e-01, 8.1790e-01, 7.9770e-01,
+ 7.4660e-01, 7.3110e-01, 6.5120e-01, 6.8140e-01, 5.7960e-01,
+ 5.8210e-01, 5.4640e-01, 5.1700e-01, 5.0760e-01, 4.8280e-01,
+ 4.5360e-01, 4.4910e-01, 4.2410e-01, 4.2100e-01, 3.9530e-01,
+ 3.7220e-01, 3.4840e-01, 3.4550e-01, 3.3000e-01, 3.1670e-01,
+ 3.1470e-01, 2.8920e-01, 2.7650e-01, 2.6860e-01, 2.5390e-01,
+ 2.4190e-01, 2.5200e-01, 2.2960e-01, 2.2540e-01, 2.0950e-01,
+ 2.0250e-01, 1.8720e-01, 1.8200e-01, 1.7860e-01, 1.8290e-01,
+ 1.6970e-01, 1.7130e-01, 1.6310e-01, 1.5500e-01, 1.5100e-01,
+ 1.5770e-01, 1.4240e-01, 1.4560e-01, 1.3330e-01, 1.4190e-01,
+ 1.2010e-01, 1.2430e-01, 1.2430e-01, 1.1340e-01, 1.1840e-01,
+ 1.1380e-01, 1.0330e-01, 1.0130e-01, 1.0390e-01, 9.5810e-02
+ };
+ Float_t x = px[0] * px[0];
+ if (x < 1.5 || x > 100) {
+ return 0.0;
+ } else {
+ Float_t y = Interpolate(x, ptJpsi, 0.5, 1., 100, 4);
+ return px[0] * y;
+ }
}
//
// y-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::YJpsi(Double_t *py, Double_t *)
+Double_t AliGenMUONlib::YJpsi(Double_t *py, Double_t *dummy)
{
- const Double_t y0 = 4.;
- const Double_t b=1.;
+// J/psi y
+ const Double_t ky0 = 4.;
+ const Double_t kb=1.;
Double_t yj;
Double_t y=TMath::Abs(*py);
//
- if (y < y0)
- yj=b;
+ if (y < ky0)
+ yj=kb;
else
- yj=b*TMath::Exp(-(y-y0)*(y-y0)/2);
+ yj=kb*TMath::Exp(-(y-ky0)*(y-ky0)/2);
return yj;
}
+
+
+Double_t AliGenMUONlib::YJpsiPbPb( Double_t *px, Double_t *dummy)
+{
+
+//
+// J/Psi y
+//
+//
+// R. Vogt 2002
+// PbPb 5.5 TeV
+// MRST HO
+// mc = 1.4 GeV, pt-kick 1 GeV
+//
+
+ Float_t yJpsi[62] =
+ {
+ 0.3981E-03, 0.1169E-01, 0.6143E-01, 0.3554E+00, 0.1249E+01
+ , 0.1677E+01, 0.3634E+01, 0.5414E+01, 0.8242E+01, 0.1102E+02
+ , 0.1353E+02, 0.1964E+02, 0.2357E+02, 0.2662E+02, 0.3023E+02
+ , 0.3250E+02, 0.3137E+02, 0.3243E+02, 0.3120E+02, 0.3249E+02
+ , 0.3166E+02, 0.3104E+02, 0.3203E+02, 0.3149E+02, 0.3117E+02
+ , 0.3210E+02, 0.3170E+02, 0.3279E+02, 0.3079E+02, 0.3208E+02
+ , 0.3218E+02, 0.3218E+02, 0.3208E+02, 0.3079E+02, 0.3279E+02
+ , 0.3170E+02, 0.3210E+02, 0.3118E+02, 0.3149E+02, 0.3203E+02
+ , 0.3104E+02, 0.3167E+02, 0.3250E+02, 0.3120E+02, 0.3243E+02
+ , 0.3137E+02, 0.3250E+02, 0.3022E+02, 0.2662E+02, 0.2357E+02
+ , 0.1964E+02, 0.1353E+02, 0.1102E+02, 0.8242E+01, 0.5414E+01
+ , 0.3634E+01, 0.1677E+01, 0.1249E+01, 0.3554E+00, 0.6142E-01
+ , 0.1169E-01, 0.3981E-03};
+
+ return Interpolate(px[0], yJpsi, -7.625, 0.25, 62, 2);
+}
+
// particle composition
//
-Int_t AliGenMUONlib::IpJpsi()
+Int_t AliGenMUONlib::IpJpsi(TRandom *)
{
+// J/Psi composition
return 443;
}
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtUpsilon( Double_t *px, Double_t * )
+Double_t AliGenMUONlib::PtUpsilon( Double_t *px, Double_t *dummy )
{
- const Double_t pt0 = 5.3;
- const Double_t xn = 2.5;
+// Upsilon pT
+ const Double_t kpt0 = 5.3;
+ const Double_t kxn = 2.5;
Double_t x=*px;
//
- Double_t pass1 = 1.+(x/pt0)*(x/pt0);
- return x/TMath::Power(pass1,xn);
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+
+Double_t AliGenMUONlib::PtUpsilonPbPb( Double_t *px, Double_t *dummy)
+{
+
+//
+// Upsilon pT
+//
+//
+// R. Vogt 2002
+// PbPb 5.5 TeV
+// MRST HO
+// mc = 1.4 GeV, pt-kick 1 GeV
+//
+
+ Float_t ptUps[100] =
+ {
+ 0.0000e-01, -1.5290e-02, 2.6020e-01, 3.4220e-01, 3.3710e-01,
+ 3.1880e-01, 3.3420e-01, 2.7740e-01, 2.3730e-01, 2.0640e-01,
+ 1.7690e-01, 1.6190e-01, 1.4500e-01, 1.3310e-01, 1.1440e-01,
+ 1.0800e-01, 1.0210e-01, 8.4690e-02, 8.0050e-02, 7.0710e-02,
+ 6.4160e-02, 6.5200e-02, 6.6890e-02, 6.0600e-02, 5.4030e-02,
+ 5.1140e-02, 4.6120e-02, 4.4800e-02, 4.2490e-02, 4.1440e-02,
+ 4.0310e-02, 3.7110e-02, 3.5890e-02, 3.5420e-02, 3.0370e-02,
+ 2.9970e-02, 3.0770e-02, 2.6380e-02, 2.7740e-02, 2.6690e-02,
+ 2.4210e-02, 2.5200e-02, 2.3760e-02, 2.1370e-02, 2.2290e-02,
+ 2.2700e-02, 2.0110e-02, 1.9320e-02, 1.8830e-02, 1.9910e-02,
+ 1.9740e-02, 1.8460e-02, 1.8240e-02, 1.6740e-02, 1.6140e-02,
+ 1.7340e-02, 1.5950e-02, 1.5430e-02, 1.4780e-02, 1.2750e-02,
+ 1.4370e-02, 1.2810e-02, 1.2900e-02, 1.1070e-02, 1.1830e-02,
+ 1.1150e-02, 1.1260e-02, 1.1610e-02, 1.0700e-02, 1.1600e-02,
+ 1.0390e-02, 1.0280e-02, 1.0180e-02, 1.0030e-02, 9.6050e-03,
+ 8.8050e-03, 8.9680e-03, 9.0120e-03, 8.4110e-03, 8.6660e-03,
+ 8.3060e-03, 8.5850e-03, 8.2600e-03, 8.3800e-03, 8.4200e-03,
+ 7.5690e-03, 7.2100e-03, 7.1230e-03, 7.3350e-03, 7.1980e-03,
+ 6.7500e-03, 6.6190e-03, 6.3370e-03, 6.6270e-03, 6.8290e-03,
+ 6.0880e-03, 6.6310e-03, 6.0490e-03, 5.8900e-03, 5.6100e-03
+ };
+ Float_t x = px[0] * px[0];
+ if (x < 1.5 || x > 100) {
+ return 0.0;
+ } else {
+ Float_t y = Interpolate(x, ptUps, 0.5, 1., 100, 4);
+ return px[0] * y;
+ }
}
+
//
// y-distribution
//
//____________________________________________________________
-Double_t AliGenMUONlib::YUpsilon(Double_t *py, Double_t *)
+Double_t AliGenMUONlib::YUpsilon(Double_t *py, Double_t *dummy)
{
- const Double_t y0 = 3.;
- const Double_t b=1.;
+// Upsilon y
+ const Double_t ky0 = 3.;
+ const Double_t kb=1.;
Double_t yu;
Double_t y=TMath::Abs(*py);
//
- if (y < y0)
- yu=b;
+ if (y < ky0)
+ yu=kb;
else
- yu=b*TMath::Exp(-(y-y0)*(y-y0)/2);
+ yu=kb*TMath::Exp(-(y-ky0)*(y-ky0)/2);
return yu;
}
+
+
+Double_t AliGenMUONlib::YUpsilonPbPb( Double_t *px, Double_t *dummy)
+{
+
+//
+// Upsilon y
+//
+//
+// R. Vogt 2002
+// PbPb 5.5 TeV
+// MRST HO
+// mc = 1.4 GeV, pt-kick 1 GeV
+//
+
+ Float_t yUps[52] =
+ {
+ 0.000000, 0.000065, 0.000767, 0.004332, 0.014790,
+ 0.029370, 0.052060, 0.077930, 0.122500, 0.135800,
+ 0.184000, 0.207900, 0.228300, 0.258500, 0.269500,
+ 0.288500, 0.316200, 0.304100, 0.315800, 0.323300,
+ 0.322400, 0.322600, 0.345500, 0.338100, 0.331900,
+ 0.343700, 0.343700, 0.331900, 0.338100, 0.345500,
+ 0.322600, 0.322400, 0.323300, 0.315800, 0.304100,
+ 0.316200, 0.288500, 0.269500, 0.258500, 0.228300,
+ 0.207900, 0.184000, 0.135800, 0.122500, 0.077930,
+ 0.052060, 0.029380, 0.014780, 0.004332, 0.000767,
+ 0.6479E-04, 0.1013E-06
+ };
+
+
+
+ return Interpolate(px[0], yUps, -6.5, 0.25, 52, 2);
+}
+
// particle composition
//
-Int_t AliGenMUONlib::IpUpsilon()
+Int_t AliGenMUONlib::IpUpsilon(TRandom *)
{
+// y composition
return 553;
}
//
// pt-distribution (by scaling of pion distribution)
//____________________________________________________________
-Double_t AliGenMUONlib::PtPhi( Double_t *px, Double_t *)
+Double_t AliGenMUONlib::PtPhi( Double_t *px, Double_t *dummy)
{
+// Phi pT
return PtScal(*px,7);
}
// y-distribution
-Double_t AliGenMUONlib::YPhi( Double_t *px, Double_t *)
+Double_t AliGenMUONlib::YPhi( Double_t *px, Double_t *dummy)
+{
+// Phi y
+ Double_t *dum=0;
+ return YJpsi(px,dum);
+}
+// particle composition
+//
+Int_t AliGenMUONlib::IpPhi(TRandom *)
+{
+// Phi composition
+ return 333;
+}
+
+//
+// omega
+//
+//
+// pt-distribution (by scaling of pion distribution)
+//____________________________________________________________
+Double_t AliGenMUONlib::PtOmega( Double_t *px, Double_t *dummy)
+{
+// Omega pT
+ return PtScal(*px,5);
+}
+// y-distribution
+Double_t AliGenMUONlib::YOmega( Double_t *px, Double_t *dummy)
{
- Double_t *dummy=0;
- return YJpsi(px,dummy);
+// Omega y
+ Double_t *dum=0;
+ return YJpsi(px,dum);
}
// particle composition
//
-Int_t AliGenMUONlib::IpPhi()
+Int_t AliGenMUONlib::IpOmega(TRandom *)
{
- return 41;
+// Omega composition
+ return 223;
+}
+
+
+//
+// Eta
+//
+//
+// pt-distribution (by scaling of pion distribution)
+//____________________________________________________________
+Double_t AliGenMUONlib::PtEta( Double_t *px, Double_t *dummy)
+{
+// Eta pT
+ return PtScal(*px,3);
+}
+// y-distribution
+Double_t AliGenMUONlib::YEta( Double_t *px, Double_t *dummy)
+{
+// Eta y
+ Double_t *dum=0;
+ return YJpsi(px,dum);
+}
+// particle composition
+//
+Int_t AliGenMUONlib::IpEta(TRandom *)
+{
+// Eta composition
+ return 221;
}
//
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtCharm( Double_t *px, Double_t *)
+Double_t AliGenMUONlib::PtCharm( Double_t *px, Double_t *dummy)
{
- const Double_t pt0 = 4.08;
- const Double_t xn = 9.40;
+// Charm pT
+ const Double_t kpt0 = 4.08;
+ const Double_t kxn = 9.40;
+
Double_t x=*px;
//
- Double_t pass1 = 1.+(x/pt0)*(x/pt0);
- return x/TMath::Power(pass1,xn);
+ Double_t pass1 = 1.+(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
}
// y-distribution
-Double_t AliGenMUONlib::YCharm( Double_t *px, Double_t *)
+Double_t AliGenMUONlib::YCharm( Double_t *px, Double_t *dummy)
{
- Double_t *dummy=0;
- return YJpsi(px,dummy);
+// Charm y
+ Double_t *dum=0;
+ return YJpsi(px,dum);
}
-Int_t AliGenMUONlib::IpCharm()
+Int_t AliGenMUONlib::IpCharm(TRandom *ran)
{
- AliMC* pMC = AliMC::GetMC();
- Float_t random[2];
+// Charm composition
+ Float_t random;
Int_t ip;
// 411,421,431,4122
- pMC->Rndm(random,2);
- if (random[0] < 0.5) {
+ random = ran->Rndm();
+ if (random < 0.5) {
ip=411;
- } else if (random[0] < 0.75) {
+ } else if (random < 0.75) {
ip=421;
- } else if (random[0] < 0.90) {
+ } else if (random < 0.90) {
ip=431;
} else {
ip=4122;
}
- if (random[1] < 0.5) {ip=-ip;}
+ if (ran->Rndm() < 0.5) {ip=-ip;}
return ip;
}
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtBeauty( Double_t *px, Double_t *)
+Double_t AliGenMUONlib::PtBeauty( Double_t *px, Double_t *dummy)
{
- const Double_t pt0 = 4.;
- const Double_t xn = 3.6;
+// Beauty pT
+ const Double_t kpt0 = 4.;
+ const Double_t kxn = 3.6;
Double_t x=*px;
//
- Double_t pass1 = 1.+(x/pt0)*(x/pt0);
- return x/TMath::Power(pass1,xn);
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
}
// y-distribution
-Double_t AliGenMUONlib::YBeauty( Double_t *px, Double_t *)
+Double_t AliGenMUONlib::YBeauty( Double_t *px, Double_t *dummy)
{
- Double_t *dummy=0;
- return YJpsi(px,dummy);
+// Beauty y
+ Double_t *dum=0;
+ return YJpsi(px,dum);
}
-Int_t AliGenMUONlib::IpBeauty()
+Int_t AliGenMUONlib::IpBeauty(TRandom *ran)
{
- AliMC* pMC = AliMC::GetMC();
- Float_t random[2];
+// Beauty Composition
+ Float_t random;
Int_t ip;
- pMC->Rndm(random,2);
- if (random[0] < 0.5) {
+ random = ran->Rndm();
+ if (random < 0.5) {
ip=511;
- } else if (random[0] < 0.75) {
+ } else if (random < 0.75) {
ip=521;
- } else if (random[0] < 0.90) {
+ } else if (random < 0.90) {
ip=531;
} else {
ip=5122;
}
- if (random[1] < 0.5) {ip=-ip;}
+ if (ran->Rndm() < 0.5) {ip=-ip;}
return ip;
}
typedef Double_t (*GenFunc) (Double_t*, Double_t*);
-GenFunc AliGenMUONlib::GetPt(Int_t ipart)
+GenFunc AliGenMUONlib::GetPt(Int_t param, const char* tname) const
{
+// Return pointer to pT parameterisation
+ TString sname = TString(tname);
GenFunc func;
- switch (ipart)
+ switch (param)
{
- case 333:
+ case kPhi:
func=PtPhi;
break;
- case 443:
- func=PtJpsi;
+ case kOmega:
+ func=PtOmega;
+ break;
+ case kEta:
+ func=PtEta;
break;
- case 553:
- func=PtUpsilon;
+ case kJpsi:
+ if (sname == "Vogt") {
+ func=PtJpsiPbPb;
+ } else {
+ func=PtJpsi;
+ }
break;
- case 400:
+ case kUpsilon:
+ if (sname == "Vogt") {
+ func=PtUpsilonPbPb;
+ } else {
+ func=PtUpsilon;
+ }
+ break;
+ case kCharm:
func=PtCharm;
break;
- case 500:
+ case kBeauty:
func=PtBeauty;
break;
+ case kPion:
+ func=PtPion;
+ break;
+ case kKaon:
+ func=PtKaon;
+ break;
+ default:
+ func=0;
+ printf("<AliGenMUONlib::GetPt> unknown parametrisation\n");
}
return func;
}
-GenFunc AliGenMUONlib::GetY(Int_t ipart)
+GenFunc AliGenMUONlib::GetY(Int_t param, const char* tname) const
{
+ TString sname = TString(tname);
+
+// Return pointer to y- parameterisation
GenFunc func;
- switch (ipart)
+ switch (param)
{
- case 333:
+ case kPhi:
func=YPhi;
break;
- case 443:
- func=YJpsi;
+ case kEta:
+ func=YEta;
+ break;
+ case kOmega:
+ func=YOmega;
+ break;
+ case kJpsi:
+ if (sname == "Vogt") {
+ func=YJpsiPbPb;
+ } else {
+ func=YJpsi;
+ }
break;
- case 553:
- func=YUpsilon;
+ case kUpsilon:
+ if (sname == "Vogt") {
+ func=YUpsilonPbPb;
+ } else {
+ func=YUpsilon;
+ }
break;
- case 400:
+ case kCharm:
func=YCharm;
break;
- case 500:
+ case kBeauty:
func=YBeauty;
break;
+ case kPion:
+ func=YPion;
+ break;
+ case kKaon:
+ func=YKaon;
+ break;
+ default:
+ func=0;
+ printf("<AliGenMUONlib::GetY> unknown parametrisation\n");
}
return func;
}
-typedef Int_t (*GenFuncIp) ();
-GenFuncIp AliGenMUONlib::GetIp(Int_t ipart)
+typedef Int_t (*GenFuncIp) (TRandom *);
+GenFuncIp AliGenMUONlib::GetIp(Int_t param, const char* tname) const
{
+// Return pointer to particle type parameterisation
GenFuncIp func;
- switch (ipart)
+ switch (param)
{
- case 333:
+ case kPhi:
func=IpPhi;
break;
- case 443:
+ case kEta:
+ func=IpEta;
+ break;
+ case kOmega:
+ func=IpOmega;
+ break;
+ case kJpsi:
func=IpJpsi;
break;
- case 553:
+ case kUpsilon:
func=IpUpsilon;
break;
- case 400:
+ case kCharm:
func=IpCharm;
break;
- case 500:
+ case kBeauty:
func=IpBeauty;
break;
+ case kPion:
+ func=IpPion;
+ break;
+ case kKaon:
+ func=IpKaon;
+ break;
+ default:
+ func=0;
+ printf("<AliGenMUONlib::GetIp> unknown parametrisation\n");
}
return func;
}
+
+Float_t AliGenMUONlib::Interpolate(Float_t x, Float_t* y, Float_t x0,
+ Float_t dx,
+ Int_t n, Int_t no)
+{
+//
+// Neville's alorithm for interpolation
+//
+// x: x-value
+// y: Input array
+// x0: minimum x
+// dx: step size
+// n: number of data points
+// no: order of polynom
+//
+ Float_t* c = new Float_t[n];
+ Float_t* d = new Float_t[n];
+ Int_t m, i;
+ for (i = 0; i < n; i++) {
+ c[i] = y[i];
+ d[i] = y[i];
+ }
+
+ Int_t ns = int((x - x0)/dx);
+
+ Float_t y1 = y[ns];
+ ns--;
+ for (m = 0; m < no; m++) {
+ for (i = 0; i < n-m; i++) {
+ Float_t ho = x0 + Float_t(i) * dx - x;
+ Float_t hp = x0 + Float_t(i+m+1) * dx - x;
+ Float_t w = c[i+1] - d[i];
+ Float_t den = ho-hp;
+ den = w/den;
+ d[i] = hp * den;
+ c[i] = ho * den;
+ }
+ Float_t dy;
+
+ if (2*ns < (n-m-1)) {
+ dy = c[ns+1];
+ } else {
+ dy = d[ns--];
+ }
+ y1 += dy;}
+ delete[] c;
+ delete[] d;
+
+ return y1;
+}
+
+