ClassImp(AliGenMUONlib)
//
// Pions
-Double_t AliGenMUONlib::PtPion(Double_t *px, Double_t* /*dummy*/)
+Double_t AliGenMUONlib::PtPion(const Double_t *px, const Double_t* /*dummy*/)
{
//
// PT-PARAMETERIZATION CDF, PRL 61(88) 1819
//
// y-distribution
//
-Double_t AliGenMUONlib::YPion( Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YPion( const Double_t *py, const Double_t */*dummy*/)
{
// Pion y
Double_t y=TMath::Abs(*py);
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtKaon( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtKaon( const Double_t *px, const Double_t */*dummy*/)
{
// Kaon pT
return PtScal(*px,2);
// y-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::YKaon( Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YKaon( const Double_t *py, const Double_t */*dummy*/)
{
// Kaon y
Double_t y=TMath::Abs(*py);
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtJpsi( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtJpsi( const Double_t *px, const Double_t */*dummy*/)
{
// J/Psi pT
const Double_t kpt0 = 4.;
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtJpsiCDFscaled( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtJpsiCDFscaled( const Double_t *px, const Double_t */*dummy*/)
{
// J/Psi pT
- const Double_t kpt0 = 4.703;
- const Double_t kxn = 3.826;
+//
+// PbPb 5.5 TeV
+// scaled from CDF data at 2 TeV
+// see S.Grigoryan, PWG3 Meeting, 27th Oct 2008
+
+ const Double_t kpt0 = 5.100;
+ const Double_t kxn = 4.102;
Double_t x=*px;
//
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtJpsiCDFscaledPP( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtJpsiCDFscaledPP( const Double_t *px, const Double_t */*dummy*/)
{
// J/Psi pT
//
// pp 14 TeV
+// scaled from CDF data at 2 TeV
+
+ const Double_t kpt0 = 5.630;
+ const Double_t kxn = 4.071;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+
+Double_t AliGenMUONlib::PtJpsiCDFscaledPP10( const Double_t *px, const Double_t */*dummy*/)
+{
+// J/Psi pT
//
+// pp 10 TeV
// scaled from CDF data at 2 TeV
- const Double_t kpt0 = 5.355;
- const Double_t kxn = 3.821;
+ const Double_t kpt0 = 5.334;
+ const Double_t kxn = 4.071;
Double_t x=*px;
//
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtJpsiFlat( Double_t */*px*/, Double_t */*dummy*/ )
+Double_t AliGenMUONlib::PtJpsiFlat( const Double_t */*px*/, const Double_t */*dummy*/ )
{
return 1.;
}
-Double_t AliGenMUONlib::PtJpsiPbPb( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtJpsiPbPb( const Double_t *px, const Double_t */*dummy*/)
{
// J/Psi pT spectrum
//
return y;
}
-Double_t AliGenMUONlib::PtJpsiBPbPb( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtJpsiBPbPb( const Double_t *px, const Double_t */*dummy*/)
{
// J/Psi pT spectrum
// B -> J/Psi X
}
-Double_t AliGenMUONlib::PtJpsiPP( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtJpsiPP( const Double_t *px, const Double_t */*dummy*/)
{
// J/Psi pT spectrum
//
//
// y-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::YJpsi(Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YJpsi(const Double_t *py, const Double_t */*dummy*/)
{
// J/psi y
const Double_t ky0 = 4.;
return yj;
}
-Double_t AliGenMUONlib::YJpsiFlat( Double_t */*py*/, Double_t */*dummy*/ )
+Double_t AliGenMUONlib::YJpsiFlat( const Double_t */*py*/, const Double_t */*dummy*/ )
{
return 1.;
}
-Double_t AliGenMUONlib::YJpsiPbPb( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YJpsiPbPb( const Double_t *px, const Double_t */*dummy*/)
{
//
return y;
}
-Double_t AliGenMUONlib::YJpsiCDFscaled( Double_t *px, Double_t* dummy)
+Double_t AliGenMUONlib::YJpsiCDFscaled( const Double_t *px, const Double_t* dummy)
{
// J/Psi y
return AliGenMUONlib::YJpsiPbPb(px, dummy);
}
-Double_t AliGenMUONlib::YJpsiCDFscaledPP( Double_t *px, Double_t* dummy)
+Double_t AliGenMUONlib::YJpsiCDFscaledPP( const Double_t *px, const Double_t* dummy)
{
// J/Psi y
return AliGenMUONlib::YJpsiPP(px, dummy);
}
-Double_t AliGenMUONlib::YJpsiPP( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YJpsiCDFscaledPP10( const Double_t *px, const Double_t */*dummy*/)
+{
+
+//
+// J/Psi y
+//
+// pp 10 TeV
+// scaled from YJpsiPP(14 TeV) using 10 TeV / 14 TeV ratio of y-spectra in LO pQCD.
+// see S.Grigoryan, PWG3 Meeting, 27th Oct 2008
+//
+
+ Double_t c[5] = {2.46681e+01, 8.91486e+01, -3.21227e+01, 3.63075e+00, -1.32047e-01};
+
+ Double_t x = TMath::Abs(px[0]);
+ Double_t y;
+
+ if (x < 3.2) {
+ y = 98.523 - 1.3664 * x * x;
+ } else if (x < 7.5) {
+ Int_t j;
+ y = c[j = 4];
+ while (j > 0) y = y * x + c[--j];
+ } else {
+ y =0.;
+ }
+
+ if(y<0) y=0;
+
+ return y;
+}
+
+Double_t AliGenMUONlib::YJpsiPP( const Double_t *px, const Double_t */*dummy*/)
{
//
return y;
}
-Double_t AliGenMUONlib::YJpsiBPbPb( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YJpsiBPbPb( const Double_t *px, const Double_t */*dummy*/)
{
//
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtUpsilon( Double_t *px, Double_t */*dummy*/ )
+Double_t AliGenMUONlib::PtUpsilon( const Double_t *px, const Double_t */*dummy*/ )
{
// Upsilon pT
const Double_t kpt0 = 5.3;
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtUpsilonCDFscaled( Double_t *px, Double_t */*dummy*/ )
+Double_t AliGenMUONlib::PtUpsilonCDFscaled( const Double_t *px, const Double_t */*dummy*/ )
{
// Upsilon pT
const Double_t kpt0 = 7.753;
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtUpsilonCDFscaledPP( Double_t *px, Double_t */*dummy*/ )
+Double_t AliGenMUONlib::PtUpsilonCDFscaledPP( const Double_t *px, const Double_t */*dummy*/ )
{
// Upsilon pT
//
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtUpsilonFlat( Double_t */*px*/, Double_t */*dummy*/ )
+Double_t AliGenMUONlib::PtUpsilonCDFscaledPP10( const Double_t *px, const Double_t */*dummy*/)
{
- return 1.;
+// Upsilon pT
+//
+// pp 10 TeV
+//
+// scaled from CDF data at 2 TeV
+
+ const Double_t kpt0 = 8.235;
+ const Double_t kxn = 3.051;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtUpsilonPbPb( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtUpsilonFlat( const Double_t */*px*/, const Double_t */*dummy*/ )
{
+ return 1.;
+}
+Double_t AliGenMUONlib::PtUpsilonPbPb( const Double_t *px, const Double_t */*dummy*/)
+{
//
// Upsilon pT
//
return y;
}
-Double_t AliGenMUONlib::PtUpsilonPP( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtUpsilonPP( const Double_t *px, const Double_t */*dummy*/)
{
-
//
// Upsilon pT
//
// y-distribution
//
//____________________________________________________________
-Double_t AliGenMUONlib::YUpsilon(Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YUpsilon(const Double_t *py, const Double_t */*dummy*/)
{
// Upsilon y
const Double_t ky0 = 3.;
}
-Double_t AliGenMUONlib::YUpsilonPbPb( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YUpsilonPbPb( const Double_t *px, const Double_t */*dummy*/)
{
//
Double_t c[7] = {3.40036e-01, -3.98882e-07, -4.48398e-03, 8.46411e-08, -6.10854e-04,
-2.99753e-09, 1.28895e-05};
-
- Double_t x = px[0];
- if (TMath::Abs(x) > 5.55) return 0.;
+ Double_t x = TMath::Abs(px[0]);
+ if (x > 5.55) return 0.;
Int_t j;
Double_t y = c[j = 6];
while (j > 0) y = y * x +c[--j];
return y;
}
-Double_t AliGenMUONlib::YUpsilonCDFscaled( Double_t *px, Double_t *dummy)
+Double_t AliGenMUONlib::YUpsilonCDFscaled( const Double_t *px, const Double_t *dummy)
{
// Upsilon y
return AliGenMUONlib::YUpsilonPbPb(px, dummy);
}
-Double_t AliGenMUONlib::YUpsilonCDFscaledPP( Double_t *px, Double_t *dummy)
+Double_t AliGenMUONlib::YUpsilonCDFscaledPP( const Double_t *px, const Double_t *dummy)
{
// Upsilon y
return AliGenMUONlib::YUpsilonPP(px, dummy);
}
-Double_t AliGenMUONlib::YUpsilonFlat( Double_t */*px*/, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YUpsilonFlat( const Double_t */*px*/, const Double_t */*dummy*/)
{
// Upsilon y
return 1.;
}
-Double_t AliGenMUONlib::YUpsilonPP( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YUpsilonCDFscaledPP10( const Double_t *px, const Double_t */*dummy*/)
+{
+
+//
+// Upsilon y
+//
+// pp 10 TeV
+// scaled from YUpsilonPP(14 TeV) using 10 TeV / 14 TeV ratio of y-spectra in LO pQCD.
+// see S.Grigoryan, PWG3 Meeting, 27th Oct 2008
+//
+ Double_t c[4] = {1.12979e+00, -2.46155e-02, -7.37561e-04, 1.58824e-05};
+ Double_t x = TMath::Abs(px[0]);
+ if (x > 6.1) return 0.;
+ Int_t j;
+ Double_t y = c[j = 3];
+ while (j > 0) y = y * x*x +c[--j];
+ return y;
+}
+
+Double_t AliGenMUONlib::YUpsilonPP( const Double_t *px, const Double_t */*dummy*/)
{
//
//
Double_t c[7] = {8.91936e-01, -6.46645e-07, -1.52774e-02, 4.28677e-08, -7.01517e-04,
-6.20539e-10, 1.29943e-05};
-
- Double_t x = px[0];
- if (TMath::Abs(x) > 6.2) return 0.;
+ Double_t x = TMath::Abs(px[0]);
+ if (x > 6.2) return 0.;
Int_t j;
Double_t y = c[j = 6];
while (j > 0) y = y * x +c[--j];
//
// pt-distribution (by scaling of pion distribution)
//____________________________________________________________
-Double_t AliGenMUONlib::PtPhi( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtPhi( const Double_t *px, const Double_t */*dummy*/)
{
// Phi pT
return PtScal(*px,7);
}
// y-distribution
-Double_t AliGenMUONlib::YPhi( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YPhi( const Double_t *px, const Double_t */*dummy*/)
{
// Phi y
Double_t *dum=0;
//
// pt-distribution (by scaling of pion distribution)
//____________________________________________________________
-Double_t AliGenMUONlib::PtOmega( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtOmega( const Double_t *px, const Double_t */*dummy*/)
{
// Omega pT
return PtScal(*px,5);
}
// y-distribution
-Double_t AliGenMUONlib::YOmega( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YOmega( const Double_t *px, const Double_t */*dummy*/)
{
// Omega y
Double_t *dum=0;
//
// pt-distribution (by scaling of pion distribution)
//____________________________________________________________
-Double_t AliGenMUONlib::PtEta( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtEta( const Double_t *px, const Double_t */*dummy*/)
{
// Eta pT
return PtScal(*px,3);
}
// y-distribution
-Double_t AliGenMUONlib::YEta( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YEta( const Double_t *px, const Double_t */*dummy*/)
{
// Eta y
Double_t *dum=0;
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtCharm( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtCharm( const Double_t *px, const Double_t */*dummy*/)
{
// Charm pT
const Double_t kpt0 = 2.25;
const Double_t kxn = 3.17;
-
Double_t x=*px;
//
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtCharmCentral( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtCharmCentral( const Double_t *px, const Double_t */*dummy*/)
{
// Charm pT
const Double_t kpt0 = 2.12;
const Double_t kxn = 2.78;
-
Double_t x=*px;
//
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
+Double_t AliGenMUONlib::PtCharmF0M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// FiMjSkPP define theoretical uncertainties around F0M0S0PP as follows:
+// PtCharmFiMjSkPP = PtCharmF0M0S0PP * (dN(i,j,k)/dpt / dN(0,0,0)/dpt)_MNR
+// i=0,1,2; j=0,1,2; k=0,1,...,6
+// dN(i,j,k)/dpt - spectra obtained by A.Dainese (hep-ph/0601164, p.88;
+// http://www-zeus.desy.de/~corradi/benchmarks) from NLO pQCD (MNR)
+// calculations for the following inputs:
+// Peterson fragmentation function (F) with \epsilon_c = 0.02, 0.002 & 0.11
+// for i=0,1 & 2 respectively; quark mass (M) of 1.5, 1.3 & 1.7 GeV
+// for j=0,1 & 2 respectively;
+// factorisation \mu_F = a*mt and renormalisation \mu_R = b*mt scales (S)
+// with a/b = 1/1, 1/0.5, 0.5/1, 0.5/0.5, 1/2, 2/1 & 2/2
+// for k = 0, 1, 2, 3, 4, 5 & 6 respectively; CTEQ6.1 PDF set
+// (PDF uncertainty not considered since is small, see hep-ph/0601164, p.89).
+// June 2008, Smbat.Grigoryan@cern.ch
+
+// Charm pT
+// Pythia6.214 (kCharmppMNRwmi, PDF = CTEQ5L, quark mass = 1.2 GeV, PtHard > 2.76 GeV/c)
+// for pp collisions at 14 TeV with one c-cbar pair per event.
+// Corresponding NLO total cross section is 5.68 mb
+
+
+ const Double_t kpt0 = 2.2930;
+ const Double_t kxn = 3.1196;
+ Double_t c[3]={-5.2180e-01,1.8753e-01,2.8669e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF1M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 6.06 mb
+ const Double_t kpt0 = 2.8669;
+ const Double_t kxn = 3.1044;
+ Double_t c[3]={-4.6714e-01,1.5005e-01,4.5003e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF2M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 6.06 mb
+ const Double_t kpt0 = 1.8361;
+ const Double_t kxn = 3.2966;
+ Double_t c[3]={-6.1550e-01,2.6498e-01,1.0728e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M1S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 7.69 mb
+ const Double_t kpt0 = 2.1280;
+ const Double_t kxn = 3.1397;
+ Double_t c[3]={-5.4021e-01,2.0944e-01,2.5211e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M2S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 4.81 mb
+ const Double_t kpt0 = 2.4579;
+ const Double_t kxn = 3.1095;
+ Double_t c[3]={-5.1497e-01,1.7532e-01,3.2429e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M0S1PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 14.09 mb
+ const Double_t kpt0 = 2.1272;
+ const Double_t kxn = 3.1904;
+ Double_t c[3]={-4.6088e-01,2.1918e-01,2.3055e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M0S2PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 1.52 mb
+ const Double_t kpt0 = 2.8159;
+ const Double_t kxn = 3.0857;
+ Double_t c[3]={-6.4691e-01,2.0289e-01,2.4922e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M0S3PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 3.67 mb
+ const Double_t kpt0 = 2.7297;
+ const Double_t kxn = 3.3019;
+ Double_t c[3]={-6.2216e-01,1.9031e-01,1.5341e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M0S4PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 3.38 mb
+ const Double_t kpt0 = 2.3894;
+ const Double_t kxn = 3.1075;
+ Double_t c[3]={-4.9742e-01,1.7032e-01,2.5994e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M0S5PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 10.37 mb
+ const Double_t kpt0 = 2.0187;
+ const Double_t kxn = 3.3011;
+ Double_t c[3]={-3.9869e-01,2.9248e-01,1.1763e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+Double_t AliGenMUONlib::PtCharmF0M0S6PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm pT
+// Corresponding NLO total cross section is 7.22 mb
+ const Double_t kpt0 = 2.1089;
+ const Double_t kxn = 3.1848;
+ Double_t c[3]={-4.6275e-01,1.8114e-01,2.1363e-02};
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn)*(1.+c[0]*x+c[1]*x*x)/(1.+c[2]*x*x);
+}
+
// y-distribution
-Double_t AliGenMUONlib::YCharm( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YCharm( const Double_t *px, const Double_t */*dummy*/)
{
// Charm y :: Carrer & Dainese : ALICE-INT-2003-019 v.3 (hep-ph/0311225)
// Pythia tuned to reproduce the distribution given by the HVQMNR program based on NLO calculations (pQCD)
return ycharm;
}
+Double_t AliGenMUONlib::YCharmF0M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// FiMjSkPP define theoretical uncertainties around F0M0S0PP as follows:
+// YCharmFiMjSkPP = YCharmF0M0S0PP * (dN(i,j,k)/dy / dN(0,0,0)/dy)_MNR
+// i=0,1,2; j=0,1,2; k=0,1,...,6
+// dN(i,j,k)/dy - spectra obtained by A.Dainese (hep-ph/0601164, p.88;
+// http://www-zeus.desy.de/~corradi/benchmarks) from NLO pQCD (MNR)
+// calculations for the following inputs:
+// Peterson fragmentation function (F) with \epsilon_c = 0.02, 0.002 & 0.11
+// for i=0,1 & 2 respectively; quark mass (M) of 1.5, 1.3 & 1.7 GeV
+// for j=0,1 & 2 respectively;
+// factorisation \mu_F = a*mt and renormalisation \mu_R = b*mt scales (S)
+// with a/b = 1/1,1/0.5, 0.5/1, 0.5/0.5, 1/2, 2/1 & 2/2 for
+// k = 0, 1, 2, 3, 4, 5 & 6 respectively; CTEQ6.1 PDF set
+// (PDF uncertainty not considered since is small, see hep-ph/0601164, p.89).
+// June 2008, Smbat.Grigoryan@cern.ch
+
+// Charm y
+// Pythia6.214 (kCharmppMNRwmi, PDF = CTEQ5L, quark mass = 1.2 GeV, PtHard > 2.76 GeV/c)
+// for pp collisions at 14 TeV with one c-cbar pair per event.
+// Corresponding NLO total cross section is 5.68 mb
+
+ Double_t x=px[0];
+ Double_t c[2]={7.0909e-03,6.1967e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF1M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 6.06 mb
+ Double_t x=px[0];
+ Double_t c[2]={6.9707e-03,6.0971e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF2M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 6.06 mb
+ Double_t x=px[0];
+ Double_t c[2]={7.1687e-03,6.5303e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M1S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 7.69 mb
+ Double_t x=px[0];
+ Double_t c[2]={5.9090e-03,7.1854e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M2S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 4.81 mb
+ Double_t x=px[0];
+ Double_t c[2]={8.0882e-03,5.5872e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M0S1PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 14.09 mb
+ Double_t x=px[0];
+ Double_t c[2]={7.2520e-03,6.2691e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M0S2PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 1.52 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.1040e-04,1.4498e-04};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M0S3PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 3.67 mb
+ Double_t x=px[0];
+ Double_t c[2]={-3.1328e-03,1.8270e-04};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M0S4PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 3.38 mb
+ Double_t x=px[0];
+ Double_t c[2]={7.0865e-03,6.2532e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M0S5PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 10.37 mb
+ Double_t x=px[0];
+ Double_t c[2]={7.7070e-03,5.3533e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
+Double_t AliGenMUONlib::YCharmF0M0S6PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Charm y
+// Corresponding NLO total cross section is 7.22 mb
+ Double_t x=px[0];
+ Double_t c[2]={7.9195e-03,5.3823e-05};
+ Double_t y=1-(c[0]*TMath::Power(x,2))-(c[1]*TMath::Power(x,4));
+ Double_t ycharm;
+
+ if (TMath::Abs(x)>9) {
+ ycharm=0.;
+ }
+ else {
+ ycharm=TMath::Power(y,3);
+ }
+
+ return ycharm;
+}
Int_t AliGenMUONlib::IpCharm(TRandom *ran)
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtBeauty( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtBeauty( const Double_t *px, const Double_t */*dummy*/)
{
// Beauty pT
const Double_t kpt0 = 6.53;
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtBeautyCentral( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtBeautyCentral( const Double_t *px, const Double_t */*dummy*/)
{
// Beauty pT
const Double_t kpt0 = 6.14;
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
+Double_t AliGenMUONlib::PtBeautyF0M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// FiMjSkPP define theoretical uncertainties around F0M0S0PP as follows:
+// PtBeautyFiMjSkPP = PtBeautyF0M0S0PP * (dN(i,j,k)/dpt / dN(0,0,0)/dpt)_MNR
+// i=0,1,2; j=0,1,2; k=0,1,...,6
+// dN(i,j,k)/dpt - spectra obtained by A.Dainese (hep-ph/0601164, p.88;
+// http://www-zeus.desy.de/~corradi/benchmarks) from NLO pQCD (MNR)
+// calculations for the following inputs:
+// Peterson fragmentation function (F) with \epsilon_b = 0.001, 0.0002 & 0.004
+// for i=0,1 & 2 respectively; quark mass (M) of 4.75, 4.5 & 5.0 GeV
+// for j=0,1 & 2 respectively;
+// factorisation \mu_F = a*mt and renormalisation \mu_R = b*mt scales (S)
+// with a/b = 1/1, 1/0.5, 0.5/1, 0.5/0.5, 1/2, 2/1 & 2/2 for
+// k = 0, 1, 2, 3, 4, 5 & 6 respectively; CTEQ6.1 PDF set
+// (PDF uncertainty not considered since is small, see hep-ph/0601164, p.89).
+// June 2008, Smbat.Grigoryan@cern.ch
+
+// Beauty pT
+// Pythia6.214 (kBeautyppMNRwmi, PDF = CTEQ5L, quark mass = 4.75 GeV, PtHard > 2.76 GeV/c)
+// for pp collisions at 14 TeV with one b-bbar pair per event.
+// Corresponding NLO total cross section is 0.494 mb
+
+ const Double_t kpt0 = 8.0575;
+ const Double_t kxn = 3.1921;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF1M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.445 mb
+ const Double_t kpt0 = 8.6239;
+ const Double_t kxn = 3.2911;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF2M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.445 mb
+ const Double_t kpt0 = 7.3367;
+ const Double_t kxn = 3.0692;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M1S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.518 mb
+ const Double_t kpt0 = 7.6409;
+ const Double_t kxn = 3.1364;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M2S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.384 mb
+ const Double_t kpt0 = 8.4948;
+ const Double_t kxn = 3.2546;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M0S1PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.648 mb
+ const Double_t kpt0 = 7.6631;
+ const Double_t kxn = 3.1621;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M0S2PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.294 mb
+ const Double_t kpt0 = 8.7245;
+ const Double_t kxn = 3.2213;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M0S3PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.475 mb
+ const Double_t kpt0 = 8.5296;
+ const Double_t kxn = 3.2187;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M0S4PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.324 mb
+ const Double_t kpt0 = 7.9440;
+ const Double_t kxn = 3.1614;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M0S5PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.536 mb
+ const Double_t kpt0 = 8.2408;
+ const Double_t kxn = 3.3029;
+ Double_t x=*px;
+ //
+ Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
+ return x/TMath::Power(pass1,kxn);
+}
+Double_t AliGenMUONlib::PtBeautyF0M0S6PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty pT
+// Corresponding NLO total cross section is 0.420 mb
+ const Double_t kpt0 = 7.8041;
+ const Double_t kxn = 3.2094;
+ Double_t x=*px;
+ //
+ 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 */*dummy*/)
+Double_t AliGenMUONlib::YBeauty( const Double_t *px, const Double_t */*dummy*/)
{
// Beauty y :: Carrer & Dainese : ALICE-INT-2003-019 v.3 (hep-ph/0311225)
// Pythia tuned to reproduce the distribution given by the HVQMNR program based on NLO calculations (pQCD)
return ybeauty;
}
+Double_t AliGenMUONlib::YBeautyF0M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// FiMjSkPP define theoretical uncertainties around F0M0S0PP as follows:
+// YBeautyFiMjSkPP = YBeautyF0M0S0PP * (dN(i,j,k)/dy / dN(0,0,0)/dy)_MNR
+// i=0,1,2; j=0,1,2; k=0,1,...,6
+// dN(i,j,k)/dy - spectra obtained by A.Dainese (hep-ph/0601164, p.88;
+// http://www-zeus.desy.de/~corradi/benchmarks) from NLO pQCD (MNR)
+// calculations for the following inputs:
+// Peterson fragmentation function (F) with \epsilon_b = 0.001, 0.0002 & 0.004
+// for i=0,1 & 2 respectively; quark mass (M) of 4.75, 4.5 & 5.0 GeV
+// for j=0,1 & 2 respectively;
+// factorisation \mu_F = a*mt and renormalisation \mu_R = b*mt scales (S)
+// with a/b = 1/1, 1/0.5, 0.5/1, 0.5/0.5, 1/2, 2/1 & 2/2
+// for k = 0, 1, 2, 3, 4, 5 & 6 respectively; CTEQ6.1 PDF set
+// (PDF uncertainty not considered since is small, see hep-ph/0601164, p.89).
+// June 2008, Smbat.Grigoryan@cern.ch
+
+// Beauty y
+// Pythia6.214 (kBeautyppMNRwmi, PDF = CTEQ5L, quark mass = 4.75 GeV, PtHard > 2.76 GeV/c)
+// for pp collisions at 14 TeV with one b-bbar pair per event.
+// Corresponding NLO total cross section is 0.494 mb
+
+ Double_t x=px[0];
+ Double_t c[2]={1.2350e-02,9.2667e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF1M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.445 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.2292e-02,9.1847e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF2M0S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.445 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.2436e-02,9.3709e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M1S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.518 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.1714e-02,1.0068e-04};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M2S0PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.384 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.2944e-02,8.5500e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M0S1PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.648 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.2455e-02,9.2713e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M0S2PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.294 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.0897e-02,1.1878e-04};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M0S3PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.475 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.0912e-02,1.1858e-04};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M0S4PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.324 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.2378e-02,9.2490e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M0S5PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.536 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.2886e-02,8.2912e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
+Double_t AliGenMUONlib::YBeautyF0M0S6PP( const Double_t *px, const Double_t */*dummy*/)
+{
+// Beauty y
+// Corresponding NLO total cross section is 0.420 mb
+ Double_t x=px[0];
+ Double_t c[2]={1.3106e-02,8.0115e-05};
+ Double_t y=1-c[0]*TMath::Power(x,2)-c[1]*TMath::Power(x,4);
+ Double_t ybeauty;
+
+ if (TMath::Abs(x)>7.6) {
+ ybeauty=0.;
+ }
+ else {
+ ybeauty=TMath::Power(y,3);
+ }
+
+ return ybeauty;
+}
Int_t AliGenMUONlib::IpBeauty(TRandom *ran)
{
}
-typedef Double_t (*GenFunc) (Double_t*, Double_t*);
+typedef Double_t (*GenFunc) (const Double_t*, const Double_t*);
GenFunc AliGenMUONlib::GetPt(Int_t param, const char* tname) const
{
// Return pointer to pT parameterisation
func=PtJpsiCDFscaled;
} else if (sname == "CDF pp") {
func=PtJpsiCDFscaledPP;
+ } else if (sname == "CDF pp 10") {
+ func=PtJpsiCDFscaledPP10;
} else if (sname == "Flat") {
func=PtJpsiFlat;
} else {
func=PtUpsilonCDFscaled;
} else if (sname == "CDF pp") {
func=PtUpsilonCDFscaledPP;
+ } else if (sname == "CDF pp 10") {
+ func=PtUpsilonCDFscaledPP10;
} else if (sname == "Flat") {
func=PtUpsilonFlat;
} else {
}
break;
case kCharm:
- if (sname == "central") {
+ if (sname == "F0M0S0 pp") {
+ func=PtCharmF0M0S0PP;
+ } else if (sname == "F1M0S0 pp") {
+ func=PtCharmF1M0S0PP;
+ } else if (sname == "F2M0S0 pp") {
+ func=PtCharmF2M0S0PP;
+ } else if (sname == "F0M1S0 pp") {
+ func=PtCharmF0M1S0PP;
+ } else if (sname == "F0M2S0 pp") {
+ func=PtCharmF0M2S0PP;
+ } else if (sname == "F0M0S1 pp") {
+ func=PtCharmF0M0S1PP;
+ } else if (sname == "F0M0S2 pp") {
+ func=PtCharmF0M0S2PP;
+ } else if (sname == "F0M0S3 pp") {
+ func=PtCharmF0M0S3PP;
+ } else if (sname == "F0M0S4 pp") {
+ func=PtCharmF0M0S4PP;
+ } else if (sname == "F0M0S5 pp") {
+ func=PtCharmF0M0S5PP;
+ } else if (sname == "F0M0S6 pp") {
+ func=PtCharmF0M0S6PP;
+ } else if (sname == "central") {
func=PtCharmCentral;
} else {
func=PtCharm;
}
break;
case kBeauty:
- if (sname == "central") {
+ if (sname == "F0M0S0 pp") {
+ func=PtBeautyF0M0S0PP;
+ } else if (sname == "F1M0S0 pp") {
+ func=PtBeautyF1M0S0PP;
+ } else if (sname == "F2M0S0 pp") {
+ func=PtBeautyF2M0S0PP;
+ } else if (sname == "F0M1S0 pp") {
+ func=PtBeautyF0M1S0PP;
+ } else if (sname == "F0M2S0 pp") {
+ func=PtBeautyF0M2S0PP;
+ } else if (sname == "F0M0S1 pp") {
+ func=PtBeautyF0M0S1PP;
+ } else if (sname == "F0M0S2 pp") {
+ func=PtBeautyF0M0S2PP;
+ } else if (sname == "F0M0S3 pp") {
+ func=PtBeautyF0M0S3PP;
+ } else if (sname == "F0M0S4 pp") {
+ func=PtBeautyF0M0S4PP;
+ } else if (sname == "F0M0S5 pp") {
+ func=PtBeautyF0M0S5PP;
+ } else if (sname == "F0M0S6 pp") {
+ func=PtBeautyF0M0S6PP;
+ } else if (sname == "central") {
func=PtBeautyCentral;
} else {
func=PtBeauty;
case kKaon:
func=PtKaon;
break;
- case kChi_c0:
- func=PtChi_c0;
+ case kChic0:
+ func=PtChic0;
break;
- case kChi_c1:
- func=PtChi_c1;
+ case kChic1:
+ func=PtChic1;
break;
- case kChi_c2:
- func=PtChi_c2;
+ case kChic2:
+ func=PtChic2;
break;
- case kChi_c:
- func=PtChi_c;
+ case kChic:
+ func=PtChic;
break;
default:
func=0;
func=YJpsiCDFscaled;
} else if (sname == "CDF pp") {
func=YJpsiCDFscaledPP;
+ } else if (sname == "CDF pp 10") {
+ func=YJpsiCDFscaledPP10;
} else if (sname == "Flat") {
func=YJpsiFlat;
} else {
func=YUpsilonCDFscaled;
} else if (sname == "CDF pp") {
func=YUpsilonCDFscaledPP;
+ } else if (sname == "CDF pp 10") {
+ func=YUpsilonCDFscaledPP10;
} else if (sname == "Flat") {
func=YUpsilonFlat;
} else {
}
break;
case kCharm:
- func=YCharm;
+ if (sname == "F0M0S0 pp") {
+ func=YCharmF0M0S0PP;
+ } else if (sname == "F1M0S0 pp") {
+ func=YCharmF1M0S0PP;
+ } else if (sname == "F2M0S0 pp") {
+ func=YCharmF2M0S0PP;
+ } else if (sname == "F0M1S0 pp") {
+ func=YCharmF0M1S0PP;
+ } else if (sname == "F0M2S0 pp") {
+ func=YCharmF0M2S0PP;
+ } else if (sname == "F0M0S1 pp") {
+ func=YCharmF0M0S1PP;
+ } else if (sname == "F0M0S2 pp") {
+ func=YCharmF0M0S2PP;
+ } else if (sname == "F0M0S3 pp") {
+ func=YCharmF0M0S3PP;
+ } else if (sname == "F0M0S4 pp") {
+ func=YCharmF0M0S4PP;
+ } else if (sname == "F0M0S5 pp") {
+ func=YCharmF0M0S5PP;
+ } else if (sname == "F0M0S6 pp") {
+ func=YCharmF0M0S6PP;
+ } else {
+ func=YCharm;
+ }
break;
case kBeauty:
- func=YBeauty;
+ if (sname == "F0M0S0 pp") {
+ func=YBeautyF0M0S0PP;
+ } else if (sname == "F1M0S0 pp") {
+ func=YBeautyF1M0S0PP;
+ } else if (sname == "F2M0S0 pp") {
+ func=YBeautyF2M0S0PP;
+ } else if (sname == "F0M1S0 pp") {
+ func=YBeautyF0M1S0PP;
+ } else if (sname == "F0M2S0 pp") {
+ func=YBeautyF0M2S0PP;
+ } else if (sname == "F0M0S1 pp") {
+ func=YBeautyF0M0S1PP;
+ } else if (sname == "F0M0S2 pp") {
+ func=YBeautyF0M0S2PP;
+ } else if (sname == "F0M0S3 pp") {
+ func=YBeautyF0M0S3PP;
+ } else if (sname == "F0M0S4 pp") {
+ func=YBeautyF0M0S4PP;
+ } else if (sname == "F0M0S5 pp") {
+ func=YBeautyF0M0S5PP;
+ } else if (sname == "F0M0S6 pp") {
+ func=YBeautyF0M0S6PP;
+ } else {
+ func=YBeauty;
+ }
break;
case kPion:
func=YPion;
case kKaon:
func=YKaon;
break;
- case kChi_c0:
- func=YChi_c0;
+ case kChic0:
+ func=YChic0;
break;
- case kChi_c1:
- func=YChi_c1;
+ case kChic1:
+ func=YChic1;
break;
- case kChi_c2:
- func=YChi_c2;
+ case kChic2:
+ func=YChic2;
break;
- case kChi_c:
- func=YChi_c;
+ case kChic:
+ func=YChic;
break;
default:
func=0;
//
// pt-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::PtChi_c0( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtChic0( const Double_t *px, const Double_t */*dummy*/)
{
// Chi_c1 pT
const Double_t kpt0 = 4.;
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtChi_c1( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtChic1( const Double_t *px, const Double_t */*dummy*/)
{
// Chi_c1 pT
const Double_t kpt0 = 4.;
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtChi_c2( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtChic2( const Double_t *px, const Double_t */*dummy*/)
{
// Chi_c2 pT
const Double_t kpt0 = 4.;
Double_t pass1 = 1.+(x/kpt0)*(x/kpt0);
return x/TMath::Power(pass1,kxn);
}
-Double_t AliGenMUONlib::PtChi_c( Double_t *px, Double_t */*dummy*/)
+Double_t AliGenMUONlib::PtChic( const Double_t *px, const Double_t */*dummy*/)
{
// Chi_c family pT
const Double_t kpt0 = 4.;
//
// y-distribution
//____________________________________________________________
-Double_t AliGenMUONlib::YChi_c0(Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YChic0(const Double_t *py, const Double_t */*dummy*/)
{
// Chi-1c y
const Double_t ky0 = 4.;
return yj;
}
-Double_t AliGenMUONlib::YChi_c1(Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YChic1(const Double_t *py, const Double_t */*dummy*/)
{
// Chi-1c y
const Double_t ky0 = 4.;
return yj;
}
-Double_t AliGenMUONlib::YChi_c2(Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YChic2(const Double_t *py, const Double_t */*dummy*/)
{
// Chi-2c y
const Double_t ky0 = 4.;
return yj;
}
-Double_t AliGenMUONlib::YChi_c(Double_t *py, Double_t */*dummy*/)
+Double_t AliGenMUONlib::YChic(const Double_t *py, const Double_t */*dummy*/)
{
// Chi_c family y
const Double_t ky0 = 4.;
// particle composition
//
-Int_t AliGenMUONlib::IpChi_c0(TRandom *)
+Int_t AliGenMUONlib::IpChic0(TRandom *)
{
// Chi composition
return 10441;
}
//
-Int_t AliGenMUONlib::IpChi_c1(TRandom *)
+Int_t AliGenMUONlib::IpChic1(TRandom *)
{
// Chi composition
return 20443;
}
-Int_t AliGenMUONlib::IpChi_c2(TRandom *)
+Int_t AliGenMUONlib::IpChic2(TRandom *)
{
// Chi_c2 prime composition
return 445;
}
-Int_t AliGenMUONlib::IpChi_c(TRandom *)
+Int_t AliGenMUONlib::IpChic(TRandom *)
{
// Chi composition
Int_t ip;
case kKaon:
func=IpKaon;
break;
- case kChi_c0:
- func=IpChi_c0;
+ case kChic0:
+ func=IpChic0;
break;
- case kChi_c1:
- func=IpChi_c1;
+ case kChic1:
+ func=IpChic1;
break;
- case kChi_c2:
- func=IpChi_c2;
+ case kChic2:
+ func=IpChic2;
break;
- case kChi_c:
- func=IpChi_c;
+ case kChic:
+ func=IpChic;
break;
default:
func=0;