[u/mrichter/AliRoot.git] / EVGEN / AliGenMUONlib.cxx

#include "AliGenMUONlib.h"
#include "AliRun.h"
ClassImp(AliGenMUONlib)
//
//  Pions
Double_t AliGenMUONlib::PtPion(Double_t *px, Double_t *)
{
//
//     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.;
  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));
  a=ynorm/y1;
  if (x > xlim)
    y=a*TMath::Power(p0/(p0+x),xn);
  else
    y=b*TMath::Exp(-sqrt(x*x+xmpi2)/t);
  return y*x;
}
//
// y-distribution
//
Double_t AliGenMUONlib::YPion( Double_t *py, Double_t *)
{
  const Double_t a    = 7000.;
  const Double_t dy   = 4.;

  Double_t y=TMath::Abs(*py);
  //
  Double_t ex = y*y/(2*dy*dy);
  return a*TMath::Exp(-ex);
}
//                 particle composition
//
Int_t AliGenMUONlib::IpPion()
{
    Float_t random[1];
    gMC->Rndm(random,1);
    if (random[0] < 0.5) {
	return  211;
    } else {
	return -211;
    }
}

//____________________________________________________________
//
// Mt-scaling

Double_t AliGenMUONlib::PtScal(Double_t pt, Int_t np)
{
  //    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};
  //     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};
  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];
  // 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;
  return fmtscal*ptpion;
}
//
// kaon
//
//                pt-distribution
//____________________________________________________________
Double_t AliGenMUONlib::PtKaon( Double_t *px, Double_t *)
{
  return PtScal(*px,2);
}

// y-distribution
//____________________________________________________________
Double_t AliGenMUONlib::YKaon( Double_t *py, Double_t *)
{
  const Double_t a    = 1000.;
  const Double_t dy   = 4.;
  

  Double_t y=TMath::Abs(*py);
  //
  Double_t ex = y*y/(2*dy*dy);
  return a*TMath::Exp(-ex);
}

//                 particle composition
//
Int_t AliGenMUONlib::IpKaon()
{
    Float_t random[1];
    gMC->Rndm(random,1);
    if (random[0] < 0.5) {
	return  321;
    } else {
	return -321;
    }
}

//                    J/Psi 
//
//
//                pt-distribution
//____________________________________________________________
Double_t AliGenMUONlib::PtJpsi( Double_t *px, Double_t *)
{
  const Double_t pt0 = 4.;
  const Double_t xn  = 3.6;
  Double_t x=*px;
  //
  Double_t pass1 = 1.+(x/pt0)*(x/pt0);
  return x/TMath::Power(pass1,xn);
}
//
//               y-distribution
//____________________________________________________________
Double_t AliGenMUONlib::YJpsi(Double_t *py, Double_t *)
{
  const Double_t y0 = 4.;
  const Double_t b=1.;
  Double_t yj;
  Double_t y=TMath::Abs(*py);
  //
  if (y < y0)
    yj=b;
  else
    yj=b*TMath::Exp(-(y-y0)*(y-y0)/2);
  return yj;
}
//                 particle composition
//
Int_t AliGenMUONlib::IpJpsi()
{
    return 443;
}

//                      Upsilon
//
//
//                  pt-distribution
//____________________________________________________________
Double_t AliGenMUONlib::PtUpsilon( Double_t *px, Double_t * )
{
  const Double_t pt0 = 5.3;
  const Double_t xn  = 2.5;
  Double_t x=*px;
  //
  Double_t pass1 = 1.+(x/pt0)*(x/pt0);
  return x/TMath::Power(pass1,xn);
}
//
//                    y-distribution
//
//____________________________________________________________
Double_t AliGenMUONlib::YUpsilon(Double_t *py, Double_t *)
{
  const Double_t y0 = 3.;
  const Double_t b=1.;
  Double_t yu;
  Double_t y=TMath::Abs(*py);
  //
  if (y < y0)
    yu=b;
  else
    yu=b*TMath::Exp(-(y-y0)*(y-y0)/2);
  return yu;
}
//                 particle composition
//
Int_t AliGenMUONlib::IpUpsilon()
{
    return 553;
}

//
//                        Phi
//
//
//    pt-distribution (by scaling of pion distribution)
//____________________________________________________________
Double_t AliGenMUONlib::PtPhi( Double_t *px, Double_t *)
{
  return PtScal(*px,7);
}
//    y-distribution
Double_t AliGenMUONlib::YPhi( Double_t *px, Double_t *)
{
    Double_t *dummy=0;
    return YJpsi(px,dummy);
}
//                 particle composition
//
Int_t AliGenMUONlib::IpPhi()
{
    return 41;
}

//
//                        Charm
//
//
//                    pt-distribution
//____________________________________________________________
Double_t AliGenMUONlib::PtCharm( Double_t *px, Double_t *)
{
  const Double_t pt0 = 4.08;
  const Double_t xn  = 9.40;
  Double_t x=*px;
  //
  Double_t pass1 = 1.+(x/pt0)*(x/pt0);
  return x/TMath::Power(pass1,xn);
}
//                  y-distribution
Double_t AliGenMUONlib::YCharm( Double_t *px, Double_t *)
{
    Double_t *dummy=0;
    return YJpsi(px,dummy);
}

Int_t AliGenMUONlib::IpCharm()
{  
    Float_t random[2];
    Int_t ip;
//    411,421,431,4122
    gMC->Rndm(random,2);
    if (random[0] < 0.5) {
	ip=411;
    } else if (random[0] < 0.75) {
	ip=421;
    } else if (random[0] < 0.90) {
	ip=431;
    } else {
	ip=4122;
    }
    if (random[1] < 0.5) {ip=-ip;}
    
    return ip;
}


//
//                        Beauty
//
//
//                    pt-distribution
//____________________________________________________________
Double_t AliGenMUONlib::PtBeauty( Double_t *px, Double_t *)
{
  const Double_t pt0 = 4.;
  const Double_t xn  = 3.6;
  Double_t x=*px;
  //
  Double_t pass1 = 1.+(x/pt0)*(x/pt0);
  return x/TMath::Power(pass1,xn);
}
//                     y-distribution
Double_t AliGenMUONlib::YBeauty( Double_t *px, Double_t *)
{
    Double_t *dummy=0;
    return YJpsi(px,dummy);
}

Int_t AliGenMUONlib::IpBeauty()
{  
    Float_t random[2];
    Int_t ip;
    gMC->Rndm(random,2);
    if (random[0] < 0.5) {
	ip=511;
    } else if (random[0] < 0.75) {
	ip=521;
    } else if (random[0] < 0.90) {
	ip=531;
    } else {
	ip=5122;
    }
    if (random[1] < 0.5) {ip=-ip;}
    
    return ip;
}

typedef Double_t (*GenFunc) (Double_t*,  Double_t*);
GenFunc AliGenMUONlib::GetPt(Param_t param)
{
    GenFunc func;
    switch (param) 
    {
    case phi_p:
	func=PtPhi;
	break;
    case jpsi_p:
	func=PtJpsi;
	break;
    case upsilon_p:
	func=PtUpsilon;
	break;
    case charm_p:
	func=PtCharm;
	break;
    case beauty_p:
	func=PtBeauty;
	break;
    case pion_p:
	func=PtPion;
	break;
    case kaon_p:
	func=PtKaon;
	break;
    default:
        func=0;
        printf("<AliGenMUONlib::GetPt> unknown parametrisation\n");
    }
    return func;
}

GenFunc AliGenMUONlib::GetY(Param_t param)
{
    GenFunc func;
    switch (param) 
    {
    case phi_p:
	func=YPhi;
	break;
    case jpsi_p:
	func=YJpsi;
	break;
    case upsilon_p:
	func=YUpsilon;
	break;
    case charm_p:
	func=YCharm;
	break;
    case beauty_p:
	func=YBeauty;
	break;
    case pion_p:
	func=YPion;
	break;
    case kaon_p:
	func=YKaon;
	break;
    default:
        func=0;
        printf("<AliGenMUONlib::GetY> unknown parametrisation\n");
    }
    return func;
}
typedef Int_t (*GenFuncIp) ();
GenFuncIp AliGenMUONlib::GetIp(Param_t param)
{
    GenFuncIp func;
    switch (param) 
    {
    case phi_p:
	func=IpPhi;
	break;
    case jpsi_p:
	func=IpJpsi;
	break;
    case upsilon_p:
	func=IpUpsilon;
	break;
    case charm_p:
	func=IpCharm;
	break;
    case beauty_p:
	func=IpBeauty;
	break;
    case pion_p:
	func=IpPion;
	break;
    case kaon_p:
	func=IpKaon;
	break;
    default:
        func=0;
        printf("<AliGenMUONlib::GetIp> unknown parametrisation\n");
    }
    return func;
}
Commit	Line	Data
fe4da5cc	1	#include "AliGenMUONlib.h"
	2	#include "AliRun.h"
	3	ClassImp(AliGenMUONlib)
	4	//
	5	// Pions
	6	Double_t AliGenMUONlib::PtPion(Double_t px, Double_t )
	7	{
	8	//
	9	// PT-PARAMETERIZATION CDF, PRL 61(88) 1819
	10	// POWER LAW FOR PT > 500 MEV
	11	// MT SCALING BELOW (T=160 MEV)
	12	//
	13	const Double_t p0 = 1.3;
	14	const Double_t xn = 8.28;
	15	const Double_t xlim=0.5;
	16	const Double_t t=0.160;
	17	const Double_t xmpi=0.139;
	18	const Double_t b=1.;
	19	Double_t y, y1, xmpi2, ynorm, a;
	20	Double_t x=*px;
	21	//
	22	y1=TMath::Power(p0/(p0+xlim),xn);
	23	xmpi2=xmpi*xmpi;
	24	ynorm=b(TMath::Exp(-sqrt(xlimxlim+xmpi2)/t));
	25	a=ynorm/y1;
	26	if (x > xlim)
	27	y=a*TMath::Power(p0/(p0+x),xn);
	28	else
	29	y=bTMath::Exp(-sqrt(xx+xmpi2)/t);
	30	return y*x;
	31	}
753690b0	32	//
	33	// y-distribution
	34	//
	35	Double_t AliGenMUONlib::YPion( Double_t py, Double_t )
	36	{
	37	const Double_t a = 7000.;
	38	const Double_t dy = 4.;
	39
	40	Double_t y=TMath::Abs(*py);
	41	//
	42	Double_t ex = yy/(2dy*dy);
	43	return a*TMath::Exp(-ex);
	44	}
	45	// particle composition
	46	//
	47	Int_t AliGenMUONlib::IpPion()
	48	{
753690b0	49	Float_t random[1];
cfce8870	50	gMC->Rndm(random,1);
753690b0	51	if (random[0] < 0.5) {
	52	return 211;
	53	} else {
	54	return -211;
	55	}
	56	}
fe4da5cc	57
	58	//____________________________________________________________
	59	//
	60	// Mt-scaling
	61
	62	Double_t AliGenMUONlib::PtScal(Double_t pt, Int_t np)
	63	{
	64	// SCALING EN MASSE PAR RAPPORT A PTPI
	65	// MASS PI,K,ETA,RHO,OMEGA,ETA',PHI
	66	const Double_t hm[10] = {.13957,.493,.5488,.769,.7826,.958,1.02,0,0,0};
	67	// VALUE MESON/PI AT 5 GEV
	68	const Double_t fmax[10]={1.,0.3,0.55,1.0,1.0,1.0,1.0,0,0,0};
	69	np--;
	70	Double_t f5=TMath::Power(((sqrt(100.018215)+2.)/(sqrt(100.+hm[np]*hm[np])+2.0)),12.3);
	71	Double_t fmax2=f5/fmax[np];
	72	// PIONS
	73	Double_t ptpion=100.PtPion(&pt, (Double_t) 0);
	74	Double_t fmtscal=TMath::Power(((sqrt(pt*pt+0.018215)+2.)/
	75	(sqrt(ptpt+hm[np]hm[np])+2.0)),12.3)/ fmax2;
	76	return fmtscal*ptpion;
	77	}
	78	//
753690b0	79	// kaon
	80	//
	81	// pt-distribution
	82	//____________________________________________________________
	83	Double_t AliGenMUONlib::PtKaon( Double_t px, Double_t )
	84	{
	85	return PtScal(*px,2);
	86	}
	87
	88	// y-distribution
fe4da5cc	89	//____________________________________________________________
753690b0	90	Double_t AliGenMUONlib::YKaon( Double_t py, Double_t )
fe4da5cc	91	{
753690b0	92	const Double_t a = 1000.;
	93	const Double_t dy = 4.;
	94
	95
fe4da5cc	96	Double_t y=TMath::Abs(*py);
fe4da5cc	97	//
753690b0	98	Double_t ex = yy/(2dy*dy);
	99	return a*TMath::Exp(-ex);
	100	}
	101
	102	// particle composition
	103	//
	104	Int_t AliGenMUONlib::IpKaon()
	105	{
753690b0	106	Float_t random[1];
cfce8870	107	gMC->Rndm(random,1);
753690b0	108	if (random[0] < 0.5) {
	109	return 321;
	110	} else {
	111	return -321;
	112	}
fe4da5cc	113	}
753690b0	114
fe4da5cc	115	// J/Psi
	116	//
	117	//
	118	// pt-distribution
	119	//____________________________________________________________
	120	Double_t AliGenMUONlib::PtJpsi( Double_t px, Double_t )
	121	{
	122	const Double_t pt0 = 4.;
	123	const Double_t xn = 3.6;
	124	Double_t x=*px;
	125	//
	126	Double_t pass1 = 1.+(x/pt0)*(x/pt0);
	127	return x/TMath::Power(pass1,xn);
	128	}
	129	//
	130	// y-distribution
	131	//____________________________________________________________
	132	Double_t AliGenMUONlib::YJpsi(Double_t py, Double_t )
	133	{
	134	const Double_t y0 = 4.;
	135	const Double_t b=1.;
	136	Double_t yj;
	137	Double_t y=TMath::Abs(*py);
	138	//
	139	if (y < y0)
	140	yj=b;
	141	else
	142	yj=bTMath::Exp(-(y-y0)(y-y0)/2);
	143	return yj;
	144	}
	145	// particle composition
	146	//
	147	Int_t AliGenMUONlib::IpJpsi()
	148	{
	149	return 443;
	150	}
	151
	152	// Upsilon
	153	//
	154	//
	155	// pt-distribution
	156	//____________________________________________________________
	157	Double_t AliGenMUONlib::PtUpsilon( Double_t px, Double_t )
	158	{
	159	const Double_t pt0 = 5.3;
	160	const Double_t xn = 2.5;
	161	Double_t x=*px;
	162	//
	163	Double_t pass1 = 1.+(x/pt0)*(x/pt0);
	164	return x/TMath::Power(pass1,xn);
	165	}
	166	//
	167	// y-distribution
	168	//
	169	//____________________________________________________________
	170	Double_t AliGenMUONlib::YUpsilon(Double_t py, Double_t )
	171	{
	172	const Double_t y0 = 3.;
	173	const Double_t b=1.;
	174	Double_t yu;
	175	Double_t y=TMath::Abs(*py);
	176	//
	177	if (y < y0)
	178	yu=b;
179	else
180	yu=bTMath::Exp(-(y-y0)(y-y0)/2);
181	return yu;
182	}
183	// particle composition
184	//
185	Int_t AliGenMUONlib::IpUpsilon()
186	{
187	return 553;
188	}
189
190	//
191	// Phi
192	//
193	//
194	// pt-distribution (by scaling of pion distribution)
195	//____________________________________________________________
196	Double_t AliGenMUONlib::PtPhi( Double_t px, Double_t )
197	{
198	return PtScal(*px,7);
199	}
200	// y-distribution
201	Double_t AliGenMUONlib::YPhi( Double_t px, Double_t )
202	{
ccdc344b	203	Double_t *dummy=0;
fe4da5cc	204	return YJpsi(px,dummy);
	205	}
	206	// particle composition
	207	//
	208	Int_t AliGenMUONlib::IpPhi()
	209	{
	210	return 41;
	211	}
	212
	213	//
	214	// Charm
	215	//
	216	//
	217	// pt-distribution
	218	//____________________________________________________________
	219	Double_t AliGenMUONlib::PtCharm( Double_t px, Double_t )
	220	{
	221	const Double_t pt0 = 4.08;
	222	const Double_t xn = 9.40;
	223	Double_t x=*px;
	224	//
	225	Double_t pass1 = 1.+(x/pt0)*(x/pt0);
	226	return x/TMath::Power(pass1,xn);
	227	}
	228	// y-distribution
	229	Double_t AliGenMUONlib::YCharm( Double_t px, Double_t )
	230	{
ccdc344b	231	Double_t *dummy=0;
fe4da5cc	232	return YJpsi(px,dummy);
	233	}
	234
	235	Int_t AliGenMUONlib::IpCharm()
	236	{
fe4da5cc	237	Float_t random[2];
	238	Int_t ip;
	239	// 411,421,431,4122
cfce8870	240	gMC->Rndm(random,2);
fe4da5cc	241	if (random[0] < 0.5) {
	242	ip=411;
	243	} else if (random[0] < 0.75) {
	244	ip=421;
	245	} else if (random[0] < 0.90) {
	246	ip=431;
	247	} else {
	248	ip=4122;
	249	}
	250	if (random[1] < 0.5) {ip=-ip;}
	251
	252	return ip;
	253	}
	254
	255
	256	//
	257	// Beauty
	258	//
	259	//
	260	// pt-distribution
	261	//____________________________________________________________
	262	Double_t AliGenMUONlib::PtBeauty( Double_t px, Double_t )
	263	{
	264	const Double_t pt0 = 4.;
	265	const Double_t xn = 3.6;
	266	Double_t x=*px;
	267	//
	268	Double_t pass1 = 1.+(x/pt0)*(x/pt0);
	269	return x/TMath::Power(pass1,xn);
	270	}
	271	// y-distribution
	272	Double_t AliGenMUONlib::YBeauty( Double_t px, Double_t )
	273	{
ccdc344b	274	Double_t *dummy=0;
fe4da5cc	275	return YJpsi(px,dummy);
	276	}
	277
	278	Int_t AliGenMUONlib::IpBeauty()
	279	{
fe4da5cc	280	Float_t random[2];
fe4da5cc	281	Int_t ip;
cfce8870	282	gMC->Rndm(random,2);
fe4da5cc	283	if (random[0] < 0.5) {
	284	ip=511;
	285	} else if (random[0] < 0.75) {
	286	ip=521;
	287	} else if (random[0] < 0.90) {
	288	ip=531;
	289	} else {
	290	ip=5122;
	291	}
	292	if (random[1] < 0.5) {ip=-ip;}
	293
	294	return ip;
	295	}
	296
	297	typedef Double_t (GenFunc) (Double_t, Double_t*);
753690b0	298	GenFunc AliGenMUONlib::GetPt(Param_t param)
fe4da5cc	299	{
fe4da5cc	300	GenFunc func;
753690b0	301	switch (param)
fe4da5cc	302	{
753690b0	303	case phi_p:
fe4da5cc	304	func=PtPhi;
fe4da5cc	305	break;
753690b0	306	case jpsi_p:
fe4da5cc	307	func=PtJpsi;
fe4da5cc	308	break;
753690b0	309	case upsilon_p:
fe4da5cc	310	func=PtUpsilon;
fe4da5cc	311	break;
753690b0	312	case charm_p:
fe4da5cc	313	func=PtCharm;
fe4da5cc	314	break;
753690b0	315	case beauty_p:
fe4da5cc	316	func=PtBeauty;
fe4da5cc	317	break;
753690b0	318	case pion_p:
	319	func=PtPion;
	320	break;
	321	case kaon_p:
	322	func=PtKaon;
	323	break;
119b35c7	324	default:
	325	func=0;
	326	printf("<AliGenMUONlib::GetPt> unknown parametrisation\n");
fe4da5cc	327	}
	328	return func;
	329	}
	330
753690b0	331	GenFunc AliGenMUONlib::GetY(Param_t param)
fe4da5cc	332	{
fe4da5cc	333	GenFunc func;
753690b0	334	switch (param)
fe4da5cc	335	{
753690b0	336	case phi_p:
fe4da5cc	337	func=YPhi;
fe4da5cc	338	break;
753690b0	339	case jpsi_p:
fe4da5cc	340	func=YJpsi;
fe4da5cc	341	break;
753690b0	342	case upsilon_p:
fe4da5cc	343	func=YUpsilon;
fe4da5cc	344	break;
753690b0	345	case charm_p:
fe4da5cc	346	func=YCharm;
fe4da5cc	347	break;
753690b0	348	case beauty_p:
fe4da5cc	349	func=YBeauty;
fe4da5cc	350	break;
753690b0	351	case pion_p:
	352	func=YPion;
	353	break;
	354	case kaon_p:
	355	func=YKaon;
	356	break;
119b35c7	357	default:
	358	func=0;
	359	printf("<AliGenMUONlib::GetY> unknown parametrisation\n");
fe4da5cc	360	}
	361	return func;
	362	}
	363	typedef Int_t (*GenFuncIp) ();
753690b0	364	GenFuncIp AliGenMUONlib::GetIp(Param_t param)
fe4da5cc	365	{
fe4da5cc	366	GenFuncIp func;
753690b0	367	switch (param)
fe4da5cc	368	{
753690b0	369	case phi_p:
fe4da5cc	370	func=IpPhi;
fe4da5cc	371	break;
753690b0	372	case jpsi_p:
fe4da5cc	373	func=IpJpsi;
fe4da5cc	374	break;
753690b0	375	case upsilon_p:
fe4da5cc	376	func=IpUpsilon;
fe4da5cc	377	break;
753690b0	378	case charm_p:
fe4da5cc	379	func=IpCharm;
fe4da5cc	380	break;
753690b0	381	case beauty_p:
fe4da5cc	382	func=IpBeauty;
fe4da5cc	383	break;
753690b0	384	case pion_p:
	385	func=IpPion;
	386	break;
	387	case kaon_p:
	388	func=IpKaon;
	389	break;
119b35c7	390	default:
	391	func=0;
	392	printf("<AliGenMUONlib::GetIp> unknown parametrisation\n");
fe4da5cc	393	}
	394	return func;
	395	}
	396
	397
753690b0	398
753690b0	399