#include <EvtBHadronic.hh>

Inheritance diagram for EvtBHadronic:

Public Member Functions
	EvtBHadronic ()

virtual	~EvtBHadronic ()

void	getName (std::string &name)

EvtDecayBase *	clone ()

void	init ()

void	decay (EvtParticle *p)

Public Member Functions inherited from EvtDecayAmp
void	makeDecay (EvtParticle *p)

void	setWeight (double weight)

void	vertex (const EvtComplex &amp)

void	vertex (int i1, const EvtComplex &amp)

void	vertex (int i1, int i2, const EvtComplex &amp)

void	vertex (int i1, int i2, int i3, const EvtComplex &amp)

void	vertex (int *i1, const EvtComplex &amp)

virtual	~EvtDecayAmp ()

Public Member Functions inherited from EvtDecayBase
virtual void	getName (std::string &name)=0

virtual void	decay (EvtParticle *p)=0

virtual void	makeDecay (EvtParticle *p)=0

virtual EvtDecayBase *	clone ()=0

virtual void	init ()

virtual void	initProbMax ()

virtual std::string	commandName ()

virtual void	command (std::string cmd)

double	getProbMax (double prob)

double	resetProbMax (double prob)

	EvtDecayBase ()

virtual	~EvtDecayBase ()

virtual bool	matchingDecay (const EvtDecayBase &other) const

EvtId	getParentId ()

double	getBranchingFraction ()

void	disableCheckQ ()

void	checkQ ()

int	getNDaug ()

EvtId *	getDaugs ()

EvtId	getDaug (int i)

int	getNArg ()

int	getPHOTOS ()

void	setPHOTOS ()

void	setVerbose ()

void	setSummary ()

double *	getArgs ()

std::string *	getArgsStr ()

double	getArg (int j)

std::string	getArgStr (int j)

std::string	getModelName ()

int	getDSum ()

int	summary ()

int	verbose ()

void	saveDecayInfo (EvtId ipar, int ndaug, EvtId *daug, int narg, std::vector< std::string > &args, std::string name, double brfr)

void	printSummary ()

void	setProbMax (double prbmx)

void	noProbMax ()

void	checkNArg (int a1, int a2=-1, int a3=-1, int a4=-1)

void	checkNDaug (int d1, int d2=-1)

void	checkSpinParent (EvtSpinType::spintype sp)

void	checkSpinDaughter (int d1, EvtSpinType::spintype sp)

virtual int	nRealDaughters ()

Additional Inherited Members
Static Public Member Functions inherited from EvtDecayBase
static void	findMasses (EvtParticle *p, int ndaugs, EvtId daugs[10], double masses[10])

static void	findMass (EvtParticle *p)

static double	findMaxMass (EvtParticle *p)

Protected Member Functions inherited from EvtDecayBase
bool	daugsDecayedByParentModel ()

Protected Attributes inherited from EvtDecayAmp
EvtAmp	_amp2

Protected Attributes inherited from EvtDecayBase
bool	_daugsDecayedByParentModel

Detailed Description

Definition at line 27 of file EvtBHadronic.hh.

Constructor & Destructor Documentation

◆ EvtBHadronic()

EvtBHadronic::EvtBHadronic ( )

inline

Definition at line 31 of file EvtBHadronic.hh.

31{}

Referenced by clone().

◆ ~EvtBHadronic()

EvtBHadronic::~EvtBHadronic ( )

virtual

Definition at line 36 of file EvtBHadronic.cc.

36{}

Member Function Documentation

◆ clone()

EvtDecayBase * EvtBHadronic::clone ( )

virtual

Implements EvtDecayBase.

Definition at line 45 of file EvtBHadronic.cc.

                                 {
 
  return new EvtBHadronic;
 
}

◆ decay()

void EvtBHadronic::decay ( EvtParticle * p )

virtual

Implements EvtDecayBase.

Definition at line 60 of file EvtBHadronic.cc.

                                       {
 
  //added by Lange Jan4,2000
  static EvtId B0=EvtPDL::getId("B0");
  static EvtId D0=EvtPDL::getId("D0");
  static EvtId DST0=EvtPDL::getId("D*0");
  static EvtId D3P10=EvtPDL::getId("D'_10");
  static EvtId D3P20=EvtPDL::getId("D_2*0");
  static EvtId D3P00=EvtPDL::getId("D_0*0");
  static EvtId D1P10=EvtPDL::getId("D_10");
 
  static EvtISGW2FF ffmodel;
 
  p->initializePhaseSpace(getNDaug(),getDaugs());
 
 
  EvtVector4R p4[MAX_DAUG];
  double m;
 
  m = p->mass();
 
 
  int i,j;
 
  for ( i=0; i<getNDaug(); i++) {
    p4[i]=p->getDaug(i)->getP4();
  }
 
  int bcurrent,wcurrent;
  int nbcurrent=0;
  int nwcurrent=0;
 
  bcurrent=(int)getArg(0);
  wcurrent=(int)getArg(1);
 
  EvtVector4C jb[5],jw[5];
  EvtTensor4C g,tds;
 
  EvtVector4R p4b;
  p4b.set(p->mass(),0.0,0.0,0.0);
 
  EvtVector4R q;
  double q2;
 
  EvtComplex ep_meson_bb[5];
  double f,gf,ap,am;
  double fp,fm;
  double hf,kf,bp,bm;
  EvtVector4R pp,pm;
  EvtVector4C ep_meson_b[5];
 
  switch (bcurrent) {
  
  // D0
  case 1:
    q=p4b-p4[0];
    q2=q*q;
    nbcurrent=1;
    ffmodel.getscalarff(B0,D0,EvtPDL::getMeanMass(D0),
            EvtPDL::getMeanMass(getDaugs()[1]),&fp,&fm);
    jb[0]=EvtVector4C(fp*(p4b+p4[0])-fm*q);
    break;
    // D*
  case 2:
    q=p4b-p4[0];
    q2=q*q;
    nbcurrent=3;
    ffmodel.getvectorff(B0,DST0,EvtPDL::getMeanMass(DST0),q2,&f,&gf,&ap,&am);
 
    g.setdiag(1.0,-1.0,-1.0,-1.0);
    tds = -f*g 
      -ap*(directProd(p4b,p4b)+directProd(p4b,p4[0]))
      -gf*EvtComplex(0.0,1.0)*dual(directProd(p4[0]+p4b,p4b-p4[0]))
      -am*((directProd(p4b,p4b)-directProd(p4b,p4[0])));
    jb[0]=tds.cont1(p->getDaug(0)->epsParent(0).conj());
    jb[1]=tds.cont1(p->getDaug(0)->epsParent(1).conj());
    jb[2]=tds.cont1(p->getDaug(0)->epsParent(2).conj());
    break;
    // D1
  case 3:
    q=p4b-p4[0];
    q2=q*q;
    nbcurrent=3;
    ffmodel.getvectorff(B0,D3P10,EvtPDL::getMeanMass(D3P10),q2,&f,&gf,&ap,&am);
 
    g.setdiag(1.0,-1.0,-1.0,-1.0);
    tds = -f*g 
      -ap*(directProd(p4b,p4b)+directProd(p4b,p4[0]))
      -gf*EvtComplex(0.0,1.0)*dual(directProd(p4[0]+p4b,p4b-p4[0]))
      -am*((directProd(p4b,p4b)-directProd(p4b,p4[0])));
    jb[0]=tds.cont1(p->getDaug(0)->epsParent(0).conj());
    jb[1]=tds.cont1(p->getDaug(0)->epsParent(1).conj());
    jb[2]=tds.cont1(p->getDaug(0)->epsParent(2).conj());
 
    break;
    // D2*
  case 4:
    q=p4b-p4[0];
    q2=q*q;
    nbcurrent=5;
    ffmodel.gettensorff(B0,D3P20,EvtPDL::getMeanMass(D3P20),q2,&hf,&kf,&bp,&bm);
    g.setdiag(1.0,-1.0,-1.0,-1.0);
    
    ep_meson_b[0] = ((p->getDaug(0)->epsTensorParent(0)).cont2(p4b)).conj();
    ep_meson_b[1] = ((p->getDaug(0)->epsTensorParent(1)).cont2(p4b)).conj();
    ep_meson_b[2] = ((p->getDaug(0)->epsTensorParent(2)).cont2(p4b)).conj();
    ep_meson_b[3] = ((p->getDaug(0)->epsTensorParent(3)).cont2(p4b)).conj();
    ep_meson_b[4] = ((p->getDaug(0)->epsTensorParent(4)).cont2(p4b)).conj();
  
    pp=p4b+p4[0];
    pm=p4b-p4[0];
    
    ep_meson_bb[0]=ep_meson_b[0]*(p4b);
    ep_meson_bb[1]=ep_meson_b[1]*(p4b);
    ep_meson_bb[2]=ep_meson_b[2]*(p4b);
    ep_meson_bb[3]=ep_meson_b[3]*(p4b);
    ep_meson_bb[4]=ep_meson_b[4]*(p4b);
    
    jb[0]=EvtComplex(0.0,(1.0)*hf)*dual(directProd(pp,pm)).cont2(ep_meson_b[0])
       -kf*ep_meson_b[0]
       -bp*ep_meson_bb[0]*pp-bm*ep_meson_bb[0]*pm;
     
    jb[1]=EvtComplex(0.0,(1.0)*hf)*dual(directProd(pp,pm)).cont2(ep_meson_b[1])
       -kf*ep_meson_b[1]
       -bp*ep_meson_bb[1]*pp-bm*ep_meson_bb[1]*pm;
    
    jb[2]=EvtComplex(0.0,(1.0)*hf)*dual(directProd(pp,pm)).cont2(ep_meson_b[2])
       -kf*ep_meson_b[2]
       -bp*ep_meson_bb[2]*pp-bm*ep_meson_bb[2]*pm;
    
    jb[3]=EvtComplex(0.0,(1.0)*hf)*dual(directProd(pp,pm)).cont2(ep_meson_b[3])
       -kf*ep_meson_b[3]
       -bp*ep_meson_bb[3]*pp-bm*ep_meson_bb[3]*pm;
    
    jb[4]=EvtComplex(0.0,(1.0)*hf)*dual(directProd(pp,pm)).cont2(ep_meson_b[4])
       -kf*ep_meson_b[4]
       -bp*ep_meson_bb[4]*pp-bm*ep_meson_bb[4]*pm;
    break;
    // D_0*
  case 5:
    q=p4b-p4[0];
    q2=q*q;
    double f,gf,ap,am;
    nbcurrent=3;
    ffmodel.getvectorff(B0,D1P10,EvtPDL::getMeanMass(D1P10),q2,&f,&gf,&ap,&am);
    g.setdiag(1.0,-1.0,-1.0,-1.0);
    tds = -f*g 
      -ap*(directProd(p4b,p4b)+directProd(p4b,p4[0]))
      +gf*EvtComplex(0.0,1.0)*dual(directProd(p4[0]+p4b,p4b-p4[0]))
      -am*((directProd(p4b,p4b)-directProd(p4b,p4[0])));
    jb[0]=tds.cont1(p->getDaug(0)->epsParent(0).conj());
    jb[1]=tds.cont1(p->getDaug(0)->epsParent(1).conj());
    jb[2]=tds.cont1(p->getDaug(0)->epsParent(2).conj());
    break;
    // D_1
  case 6:
    q=p4b-p4[0];
    q2=q*q;
    nbcurrent=1;
    ffmodel.getscalarff(B0,D3P00,EvtPDL::getMeanMass(D3P00),q2,&fp,&fm);
    jb[0]=fp*(p4b+p4[0])+fm*q;
    break;
  default:
    report(ERROR,"EvtGen")<<"In EvtBHadronic, unknown hadronic current."<<endl;
    
  }  
 
  double norm;
 
  switch (wcurrent) {
 
 
  case 1: case 3: case 4:
    nwcurrent=1;
    jw[0]=p4[getNDaug()-1];
    break;
 
  case 2: case 5: case 6:
    nwcurrent=3;
    norm=1.0/sqrt(p4[1].get(0)*p4[1].get(0)/p4[1].mass2()-1.0);
    jw[0]=norm*p->getDaug(getNDaug()-1)->epsParent(0);
    jw[1]=norm*p->getDaug(getNDaug()-1)->epsParent(1);
    jw[2]=norm*p->getDaug(getNDaug()-1)->epsParent(2);
    break;
 
 
  default:
    report(ERROR,"EvtGen")<<"In EvtBHadronic, unknown W current."<<endl;
 
  }  
 
  if (nbcurrent==1&&nwcurrent==1){
    vertex(jb[0]*jw[0]);
    return;
  }
 
  if (nbcurrent==1){
    //report(INFO,"EvtGen") << "Amplitudes:";
    //EvtComplex a=0.0;
    for(j=0;j<nwcurrent;j++){
      //report(INFO,"EvtGen") << jb[0]*jw[j] << " ";
      //a+=(jb[0]*jw[j]*jb[0]*jw[j]);
      vertex(j,jb[0]*jw[j]);
    }
    //report(INFO,"EvtGen") << " prob:"<<a<<" mass:"<<p4[1].mass()<< endl;
    return;
  }
 
  if (nwcurrent==1){
    for(j=0;j<nbcurrent;j++){
      vertex(j,jb[j]*jw[0]);
    }
    return;
  }
 
  for(j=0;j<nbcurrent;j++){
    for(i=0;i<nwcurrent;i++){
      vertex(j,i,jb[j]*jw[i]);
    }
  }
  return;
 
}

◆ getName()

void EvtBHadronic::getName ( std::string & name )

virtual

Implements EvtDecayBase.

Definition at line 38 of file EvtBHadronic.cc.

                                               {
 
  model_name="BHADRONIC";    
 
}

◆ init()

void EvtBHadronic::init ( )

virtual

Reimplemented from EvtDecayBase.

Definition at line 52 of file EvtBHadronic.cc.

                       {
 
  // check that there are 2 argument
  checkNArg(2);
 
}

The documentation for this class was generated from the following files:

Public Member Functions

Additional Inherited Members

Detailed Description

Constructor & Destructor Documentation

◆ EvtBHadronic()

◆ ~EvtBHadronic()

Member Function Documentation

◆ clone()

◆ decay()

◆ getName()

◆ init()