d6/d97/EvtJ2BB3_8cc_source.html

//--------------------------------------------------------------------------

//

// Environment:

//      This software is part of models developed at BES collaboration

//      based on the EvtGen framework.  If you use all or part

//      of it, please give an appropriate acknowledgement.

//

// Copyright Information: See EvtGen/BesCopyright

//      Copyright (A) 2006      Ping Rong-Gang, Pang Cai-Ying@IHEP

//

// Module: EvtJ2BB3.cc

//

// Description: Routine to decay J/psi-> B_8 bar B_10 with using the

//              GVDM approach.(see J.-G. Korner Z.Physik C-Particles

//              and Fields 33,529-535(1987))

//

// Modification history:

//

//    Pang C.-Y., Ping R.-G.    Mar, 2007       Module created

//

//------------------------------------------------------------------------


#include "EvtGenBase/EvtPatches.hh"

#include <stdlib.h>

#include "EvtGenBase/EvtParticle.hh"

#include "EvtGenBase/EvtGenKine.hh"

#include "EvtGenBase/EvtPDL.hh"

#include "EvtGenBase/EvtVector4C.hh"

#include "EvtGenBase/EvtVector4R.hh"

#include "EvtGenBase/EvtTensor4C.hh"

#include "EvtGenBase/EvtReport.hh"

#include "EvtGenBase/EvtHelSys.hh"

#include "EvtJ2BB3.hh"

#include "EvtGenBase/EvtdFunctionSingle.hh"

#include "EvtGenBase/EvtRaritaSchwinger.hh"

#include "EvtGenBase/EvtRaritaSchwingerParticle.hh"


#include <string>


using std::endl;

using std::cout;

EvtJ2BB3::~EvtJ2BB3() {}


void EvtJ2BB3::getName(std::string& model_name){


  model_name="J2BB3";


}


EvtDecayBase* EvtJ2BB3::clone(){


  return new EvtJ2BB3;


}


void EvtJ2BB3::init(){

// checkNArg(1);

 checkNDaug(2);

 checkSpinParent(EvtSpinType::VECTOR);

 checkSpinDaughter(0,EvtSpinType::DIRAC);

 checkSpinDaughter(1,EvtSpinType::RARITASCHWINGER);

 }


/*

void EvtJ2BB3::initProbMax() {


  //Hard coded... should not be hard to calculate...

 //setProbMax(10000.0);  //the ProbMax value must have noticed.

   setProbMax(100.0);

}

*/


void EvtJ2BB3::decay( EvtParticle *p){

 loop:

  p->initializePhaseSpace(getNDaug(),getDaugs());


  EvtParticle *v,*s1;

  EvtVector4R pv,ps,ppr;


  v =p->getDaug(0);

  s1=p->getDaug(1);

  pv=v->getP4();

  ps=s1->getP4();

  ppr=p->getP4();

//  Put phase space results into the daughters.

  EvtHelSys angles(ppr,pv); //using helicity sys. angles

  double theta =angles.getHelAng(1);

  double phi  =angles.getHelAng(2);

  double gamma=0;


  double m_b0 = EvtPDL::getMass(getDaug(0));  //the mass of daughter1 is large than daughter0.

  double m_b1 = EvtPDL::getMass(getDaug(1));


  double m_M = EvtPDL::getMass(getParentId());

  double M2=pow(m_M,2.0);double b2_p=pow((m_b0+m_b1),2.0);

  double b2_m=pow((m_b1-m_b0),2.0);


  if(M2-b2_p<=0)  goto loop;


  double P_c=sqrt((M2-b2_p)*(M2-b2_m)/(4.0*M2));

  double Q=M2-b2_p;

  double F1=-0.54/(m_b0*b2_p);

  double F2=-0.54*(m_b1-m_b0)/(m_b0*(m_b0+m_b1));

  double F3=-0.89/m_b0;

  double H1,H0,Hm1;


//OK. We have all  tested these parameters.


  if(getNArg()>0)

    { alpha=getArg(0);

      H0=1.0;H1=sqrt((1+alpha)/(1-alpha));Hm1=H1;

    }

   else{

         H1=-1.15*P_c*m_M*(-M2*Q*F1-Q*F2+(M2-m_b0*(m_b0+m_b1))*F3)/(sqrt(Q)*m_b1);

         H0=-0.82*P_c*M2*(-(m_b1-m_b0)*Q*F1/m_b1-Q*F2/(m_b1*(m_b1-m_b0))+2.0*F3)/sqrt(Q);

         Hm1=2*P_c*m_M*(m_b0+m_b1)*F3/sqrt(Q);

         alpha=(H1*H1+Hm1*Hm1-2*H0*H0)/(H1*H1+Hm1*Hm1+2*H0*H0);

        }

//cout<<"------alpha="<<alpha<<";H0="<<H0<<";H1="<<H1<<";Hm1="<<Hm1<<endl;


// J/psi helicity =1 corresponding index=0

 vertex(0,0,0,Djmn(1, 1, 0,phi,theta,gamma)*H0);

 vertex(0,0,1,Djmn(1, 1,-1,phi,theta,gamma)*Hm1);

 vertex(0,0,2,0.0);

 vertex(0,0,3,Djmn(1, 1, 1,phi,theta,gamma)*H1);

 vertex(0,1,0,Djmn(1, 1,-1,phi,theta,gamma)*H1);

 vertex(0,1,1,0.0);

 vertex(0,1,2,Djmn(1, 1, 1,phi,theta,gamma)*Hm1);

 vertex(0,1,3,Djmn(1, 1, 0,phi,theta,gamma)*H0);

// J/psi helicity =-1 corresponding index=1

 vertex(1,0,0,Djmn(1,-1, 0,phi,theta,gamma)*H0);

 vertex(1,0,1,Djmn(1,-1,-1,phi,theta,gamma)*Hm1);

 vertex(1,0,2,0.0);

 vertex(1,0,3,Djmn(1,-1, 1,phi,theta,gamma)*H1);

 vertex(1,1,0,Djmn(1,-1,-1,phi,theta,gamma)*H1);

 vertex(1,1,1,0.0);

 vertex(1,1,2,Djmn(1,-1, 1,phi,theta,gamma)*Hm1);

 vertex(1,1,3,Djmn(1,-1, 0,phi,theta,gamma)*H0);


// J/psi helicity =0 corresponding index=2

 vertex(2,0,0,Djmn(1, 0, 0,phi,theta,gamma)*H0);

 vertex(2,0,1,Djmn(1, 0,-1,phi,theta,gamma)*Hm1);

 vertex(2,0,2,0.0);

 vertex(2,0,3,Djmn(1, 0, 1,phi,theta,gamma)*H1);

 vertex(2,1,0,Djmn(1, 0,-1,phi,theta,gamma)*H1);

 vertex(2,1,1,0.0);

 vertex(2,1,2,Djmn(1, 0, 1,phi,theta,gamma)*Hm1);

 vertex(2,1,3,Djmn(1, 0, 0,phi,theta,gamma)*H0);


  return ;


}


EvtGenKine.hh

Djmn
EvtComplex Djmn(int j, int m, int n, double phi, double theta, double gamma)
Definition EvtHelSys.cc:151

EvtHelSys.hh

EvtJ2BB3.hh

EvtPDL.hh

EvtParticle.hh

EvtPatches.hh

EvtRaritaSchwingerParticle.hh

EvtRaritaSchwinger.hh

EvtReport.hh

EvtTensor4C.hh

EvtVector4C.hh

EvtVector4R.hh

EvtdFunctionSingle.hh

m_b1
*********DOUBLE PRECISION m_pi INTEGER m_lenwt !max no of aux weights INTEGER m_phmax !maximum photon multiplicity ISR FSR *DOUBLE COMPLEX m_Pauli4 DOUBLE COMPLEX m_AmpBorn DOUBLE COMPLEX m_AmpBoxy DOUBLE COMPLEX m_AmpBorn1 DOUBLE COMPLEX m_AmpBorn2 DOUBLE COMPLEX m_AmpExpo2p DOUBLE COMPLEX m_Rmat DOUBLE COMPLEX m_BoxGZut !DOUBLE COMPLEX m_F1finPair2 !DOUBLE PRECISION m_Vcut DOUBLE PRECISION m_Alfinv DOUBLE PRECISION m_Lorin1 DOUBLE PRECISION m_Lorin2 DOUBLE PRECISION m_b1
Definition GPS.h:30

v
**********Class see also m_nmax DOUBLE PRECISION m_amel DOUBLE PRECISION m_x2 DOUBLE PRECISION m_alfinv DOUBLE PRECISION m_Xenph INTEGER m_KeyWtm INTEGER m_idyfs DOUBLE PRECISION m_zini DOUBLE PRECISION m_q2 DOUBLE PRECISION m_Wt_KF DOUBLE PRECISION m_WtCut INTEGER m_KFfin *COMMON c_KarLud $ !Input CMS energy[GeV] $ !CMS energy after beam spread beam strahlung[GeV] $ !Beam energy spread[GeV] $ !z boost due to beam spread $ !electron beam mass *ff pair spectrum $ !minimum v
Definition KarLud.h:35

EvtDecayAmp::vertex
void vertex(const EvtComplex &amp)
Definition EvtDecayAmp.hh:37

EvtDecayBase
Definition EvtDecayBase.hh:33

EvtDecayBase::checkSpinDaughter
void checkSpinDaughter(int d1, EvtSpinType::spintype sp)
Definition EvtDecayBase.cc:533

EvtDecayBase::checkSpinParent
void checkSpinParent(EvtSpinType::spintype sp)
Definition EvtDecayBase.cc:520

EvtDecayBase::getArg
double getArg(int j)
Definition EvtDecayBase.cc:564

EvtDecayBase::getParentId
EvtId getParentId()
Definition EvtDecayBase.hh:60

EvtDecayBase::getNDaug
int getNDaug()
Definition EvtDecayBase.hh:64

EvtDecayBase::getNArg
int getNArg()
Definition EvtDecayBase.hh:67

EvtDecayBase::checkNDaug
void checkNDaug(int d1, int d2=-1)
Definition EvtDecayBase.cc:504

EvtDecayBase::getDaugs
EvtId * getDaugs()
Definition EvtDecayBase.hh:65

EvtDecayBase::getDaug
EvtId getDaug(int i)
Definition EvtDecayBase.hh:66

EvtHelSys
Definition EvtHelSys.hh:44

EvtHelSys::getHelAng
double getHelAng(int i)
Definition EvtHelSys.cc:54

EvtJ2BB3::clone
EvtDecayBase * clone()
Definition EvtJ2BB3.cc:51

EvtJ2BB3::decay
void decay(EvtParticle *p)
Definition EvtJ2BB3.cc:74

EvtJ2BB3::~EvtJ2BB3
virtual ~EvtJ2BB3()
Definition EvtJ2BB3.cc:42

EvtJ2BB3::EvtJ2BB3
EvtJ2BB3()
Definition EvtJ2BB3.hh:36

EvtJ2BB3::init
void init()
Definition EvtJ2BB3.cc:57

EvtJ2BB3::getName
void getName(std::string &name)
Definition EvtJ2BB3.cc:44

EvtJ2BB3::alpha
double alpha
Definition EvtJ2BB3.hh:47

EvtPDL::getMass
static double getMass(EvtId i)
Definition EvtPDL.hh:46

EvtParticle
Definition EvtParticle.hh:42

EvtParticle::getP4
const EvtVector4R & getP4() const
Definition EvtParticle.cc:121

EvtParticle::getDaug
EvtParticle * getDaug(int i)
Definition EvtParticle.cc:85

EvtParticle::initializePhaseSpace
double initializePhaseSpace(int numdaughter, EvtId *daughters, double poleSize=-1., int whichTwo1=0, int whichTwo2=1)
Definition EvtParticle.cc:1069

EvtSpinType::RARITASCHWINGER
@ RARITASCHWINGER
Definition EvtSpinType.hh:32

EvtSpinType::DIRAC
@ DIRAC
Definition EvtSpinType.hh:31

EvtSpinType::VECTOR
@ VECTOR
Definition EvtSpinType.hh:31

EvtVector4R
Definition EvtVector4R.hh:29