EvtPsi3Sdecay Class Reference

#include <EvtPsi3Sdecay.hh>

Public Member Functions
	EvtPsi3Sdecay (double ecms, EvtParticle *parent)
	EvtPsi3Sdecay ()
virtual	~EvtPsi3Sdecay ()
int	findPoints ()
double	polint (std::vector< double > points)
bool	choseDecay ()
EvtParticle *	choseDecay (EvtParticle *par)
int	getDecay (double ecms)
double	theProb (std::vector< double > myxs, int ich)
int	findMode ()
int	getMode ()
std::vector< EvtId >	getVId (int mode)
void	PHSPDecay (EvtParticle *par)
std::vector< EvtId >	getDaugId ()
std::vector< EvtVector4R >	getDaugP4 ()
bool	AngSam (EvtVector4R parent_p4cm, EvtVector4R son_p4cm, double alpha)
void	setMode (int m)

Detailed Description

Definition at line 33 of file EvtPsi3Sdecay.hh.

Constructor & Destructor Documentation

EvtPsi3Sdecay() [1/2]

EvtPsi3Sdecay::EvtPsi3Sdecay ( double  ecms, EvtParticle *  parent  )

inline

Definition at line 36 of file EvtPsi3Sdecay.hh.

                                                  {  //for 2-body decays
  //initializer
  Ecms = ecms;
  theParent = parent;
  Ndaugs=parent->getNDaug();
  nsize = 24;
 
  _excflag=0;  
  x.clear();
  // open charm cross section, see PRD 80, 072001, xs in unit pb.
  double xx[24]={3.72968, 3.97,  3.99, 4.01,  4.015,  4.03, 4.06, 4.12, 4.14, 4.16, 4.17, 4.18, 4.2,  4.26, 4.30, 4.34, 4.38, 4.42, 4.46, 4.50, 4.54, 4.58, 4.62, 4.66 }; // 14 energy points
  double y0[24]={0.,      86,    133,  76,    10,     334,  410,  303,  177,  167,  177,  179,  180,  86,  31,    49,   65,   196,  52,   87,   166,  14,   33,   49};// 0) D0D0bar cross section
  double y1[24]={0.,      137,   90,   135,   38,     196,  480,  310,  200,  200,  182,  197,  181,  94,  108,   96,   154,  165,  171,  106,  27,   144,  36,   22}; // 1) D+D-
  double y2[24]={0.,      1140,  1370, 1660,  1920,   1600, 1115, 700,  675,  626,  636,  605,  515,  540, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 2)D0D*0bar
  double y3[24]={0.,      1140,  1370, 1660,  1920,   1600, 1115, 700,  675,  626,  636,  605,  515,  540, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 3)D0bar D*0
  double y4[24]={0.,      0,     0,    0,     213,    2000, 2290, 2550, 2443, 2566, 2363, 2173, 1830, 269, 822,   1045, 1020, 820,  398,  588,  690,  459,  360,  398};// 4)D*0 D*0bar
  double y5[24]={0.,      1115,  1375, 1650,  1851,   1650, 1085, 780,  688,  688,  642,  648,  535,  511, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 5)D*+D-
  double y6[24]={0.,      1115,  1375, 1650,  1851,   1650, 1085, 780,  688,  688,  642,  648,  535,  511, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 6)D*-D+
  double y7[24]={0.,      0,     0,    0,     0,      1400, 2390, 2280, 2556, 2479, 2357, 2145, 1564, 237, 822,   1045, 1020, 820,  398,  588,  690,  459,  360,  398};// 7)D*+D*-
  double y8[24]={0.,      102,   133,  269,   250,    174,  51,   26,   25,   15,   34,   7,    15,   47,  106,   70,   36,   10,   2,    28,   60,   60,   48,   36}; // 8)Ds+ Ds-
  double y9[24]={0.,      0,     0,    0,     0,      0,    0,    478,  684,  905,  916,  889,  812,  34,  314,   368,  318,  357,  292,  171,  66,   103,  190,  272};// 9)Ds*+ Ds-
  double y10[24]={0.,     0,     0,    0,     0,      0,    0,    478,  684,  905,  916,  889,  812,  34,  314,   368,  318,  357,  292,  171,  66,   103,  190,  272};//10)Ds*- Ds+
  double y11[24]={0.,     0,     0,    0,     0,      0,    0,    0,    0,    0,    0,    0,    0,    440, 398,   428,  310,  131,  0,    45,   126,  98,   39,   0};  //11)Ds*+ Ds*-
  double y12[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2, 53.6, 49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };//12)D*+ D- pi0 //------ DD* pi----
  double y13[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2, 53.6, 49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //13)D*- D+ pi0
  double y14[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //14)D*+ anti-D0 pi-
  double y15[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //15)D*- D0 pi+
  double y16[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //16)D+ anti-D*0 pi-
  double y17[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //17)D- D*0 pi+
  double y18[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0, 53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //18) D*+ D*- pi0 //------D*D*pi, above 4.26Gev, assumed xs as D*D pi
  double y19[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0,107.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110 };  //19) anti-D*0 D*+ pi-
  double y20[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0,107.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110 };  //20) D*0 D*- pi+
  double y21[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0, 53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //21) D*0 D*0bar pi0
  double y22[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2,  53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //22)D*0 D0bar pi0 //------ DD* pi----
  double y23[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2,  53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //23)D*bar D0  pi0
  d0d0bar.clear();
  dpdm.clear();
  d0dst0bar.clear();
  dst0dst0bar.clear();
  d0bardst0.clear();
  dstpdm.clear();
  dstmdp.clear();
  dstpdstm.clear();
  dspdsm.clear();
  dsspdsm.clear();
  dssmdsp.clear();
  dsspdssm.clear();
  xs12.clear();
  xs13.clear();
  xs14.clear();
  xs15.clear();
  xs16.clear();
  xs17.clear();
  xs18.clear();
  xs19.clear();
  xs20.clear();
  xs21.clear();
  xs22.clear();
  xs23.clear();
 
  for(int i=0;i<24;i++){
    x.push_back(xx[i]);
    d0d0bar.push_back(y0[i]);
    dpdm.push_back(y1[i]);
    d0dst0bar.push_back(y2[i]);
    d0bardst0.push_back(y3[i]);
    dst0dst0bar.push_back(y4[i]);
    dstpdm.push_back(  y5[i]);
    dstmdp.push_back(  y6[i]);
    dstpdstm.push_back(y7[i]);
    dspdsm.push_back(  y8[i]);
    dsspdsm.push_back( y9[i]);
    dssmdsp.push_back( y10[i]);
    dsspdssm.push_back( y11[i]);
    xs12.push_back( y12[i] );   
    xs13.push_back( y13[i] );   
    xs14.push_back( y14[i] );   
    xs15.push_back( y15[i] );   
    xs16.push_back( y16[i] );   
    xs17.push_back( y17[i] );   
    xs18.push_back( y18[i] );   
    xs19.push_back( y19[i] );   
    xs20.push_back( y20[i] ); 
    xs21.push_back( y21[i] );   
    xs22.push_back( y22[i] );   
    xs23.push_back( y23[i] ); 
  }
 }

EvtPsi3Sdecay() [2/2]

EvtPsi3Sdecay::EvtPsi3Sdecay ( )

inline

Definition at line 126 of file EvtPsi3Sdecay.hh.

                  {//for 2-body and 3-body decays
  //initializer
  //  Ecms = ecms;
  nsize = 24;
 
  x.clear();
  // open charm cross section, see PRD 80, 072001, xross section in pb
  double xx[24]={3.72968, 3.97,  3.99, 4.01,  4.015,  4.03, 4.06, 4.12, 4.14, 4.16, 4.17, 4.18, 4.2,  4.26, 4.30, 4.34, 4.38, 4.42, 4.46, 4.50, 4.54, 4.58, 4.62, 4.66 }; // 14 energy points
  double y0[24]={0.,      86,    133,  76,    10,     334,  410,  303,  177,  167,  177,  179,  180,  86,  31,    49,   65,   196,  52,   87,   166,  14,   33,   49};// 0) D0D0bar cross section
  double y1[24]={0.,      137,   90,   135,   38,     196,  480,  310,  200,  200,  182,  197,  181,  94,  108,   96,   154,  165,  171,  106,  27,   144,  36,   22}; // 1) D+D-
  double y2[24]={0.,      1140,  1370, 1660,  1920,   1600, 1115, 700,  675,  626,  636,  605,  515,  540, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 2)D0D*0bar
  double y3[24]={0.,      1140,  1370, 1660,  1920,   1600, 1115, 700,  675,  626,  636,  605,  515,  540, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 3)D0bar D*0
  double y4[24]={0.,      0,     0,    0,     213,    2000, 2290, 2550, 2443, 2566, 2363, 2173, 1830, 269, 822,   1045, 1020, 820,  398,  588,  690,  459,  360,  398};// 4)D*0 D*0bar
  double y5[24]={0.,      1115,  1375, 1650,  1851,   1650, 1085, 780,  688,  688,  642,  648,  535,  511, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 5)D*+D-
  double y6[24]={0.,      1115,  1375, 1650,  1851,   1650, 1085, 780,  688,  688,  642,  648,  535,  511, 748,   880,  556,  657,  477,  494,  320,  616,  575,  373};// 6)D*-D+
  double y7[24]={0.,      0,     0,    0,     0,      1400, 2390, 2280, 2556, 2479, 2357, 2145, 1564, 237, 822,   1045, 1020, 820,  398,  588,  690,  459,  360,  398};// 7)D*+D*-
  double y8[24]={0.,      102,   133,  269,   250,    174,  51,   26,   25,   15,   34,   7,    15,   47,  106,   70,   36,   10,   2,    28,   60,   60,   48,   36}; // 8)Ds+ Ds-
  double y9[24]={0.,      0,     0,    0,     0,      0,    0,    478,  684,  905,  916,  889,  812,  34,  314,   368,  318,  357,  292,  171,  66,   103,  190,  272};// 9)Ds*+ Ds-
  double y10[24]={0.,     0,     0,    0,     0,      0,    0,    478,  684,  905,  916,  889,  812,  34,  314,   368,  318,  357,  292,  171,  66,   103,  190,  272};//10)Ds*- Ds+
  double y11[24]={0.,     0,     0,    0,     0,      0,    0,    0,    0,    0,    0,    0,    0,    440, 398,   428,  310,  131,  0,    45,   126,  98,   39,   0};  //11)Ds*+ Ds*-
  double y12[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2, 53.6, 49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };//12)D*+ D- pi0 //------ DD* pi----
  double y13[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2, 53.6, 49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //13)D*- D+ pi0
  double y14[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //14)D*+ anti-D0 pi-
  double y15[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //15)D*- D0 pi+
  double y16[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //16)D+ anti-D*0 pi-
  double y17[24]={0.,     0,     0,    0,     0,      0,    24,   7.5,  68.6, 64.8, 73.3, 95.8, 122.5,106.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110};  //17)D- D*0 pi+
  double y18[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0, 53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //18) D*+ D*- pi0 //------D*D*pi, above 4.26Gev, assumed xs as D*D pi
  double y19[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0,107.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110 }; //19) anti-D*0 D*+ pi-
  double y20[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0,107.3,98,   378,  650,  564,  167,  304,  359,  381,  497,  110 }; //20) D*0 D*- pi+
  double y21[24]={0.,     0,     0,    0,     0,      0,     0,     0,     0,    0,    0,    0,     0, 53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //21) D*0 D*0bar pi0
  double y22[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2,  53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //22)D*0 D0bar pi0 //------ DD* pi----
  double y23[24]={0.,     0,     0,    0,     0,      0,    12,   3.8,  32.4, 32.4, 37,   48,   61.2,  53.6,49,   169,  325,  282,  83.5, 152,  179,  190,  248,  55 };  //23)D*bar D0  pi0
 
  d0d0bar.clear();
  dpdm.clear();
  d0dst0bar.clear();
  dst0dst0bar.clear();
  d0bardst0.clear();
  dstpdm.clear();
  dstmdp.clear();
  dstpdstm.clear();
  dspdsm.clear();
  dsspdsm.clear();
  dssmdsp.clear();
  dsspdssm.clear();
  xs12.clear();
  xs13.clear();
  xs14.clear();
  xs15.clear();
  xs16.clear();
  xs17.clear();
  xs18.clear();
  xs19.clear();
  xs20.clear();
  xs21.clear();
  xs22.clear();
  xs23.clear();
  for(int i=0;i<24;i++){
    x.push_back(xx[i]);
    d0d0bar.push_back(y0[i]);
    dpdm.push_back(y1[i]);
    d0dst0bar.push_back(y2[i]);
    d0bardst0.push_back(y3[i]);
    dst0dst0bar.push_back(y4[i]);
    dstpdm.push_back(  y5[i]);
    dstmdp.push_back(  y6[i]);
    dstpdstm.push_back(y7[i]);
    dspdsm.push_back(  y8[i]);
    dsspdsm.push_back( y9[i]);
    dssmdsp.push_back( y10[i]);
    dsspdssm.push_back( y11[i]);
    xs12.push_back( y12[i] );   
    xs13.push_back( y13[i] );   
    xs14.push_back( y14[i] );   
    xs15.push_back( y15[i] );   
    xs16.push_back( y16[i] );   
    xs17.push_back( y17[i] );   
    xs18.push_back( y18[i] );   
    xs19.push_back( y19[i] );   
    xs20.push_back( y20[i] );  
    xs21.push_back( y21[i] );   
    xs22.push_back( y22[i] );   
    xs23.push_back( y23[i] );    
  }
 
//---- initilize Vmode
 
  VmodeSon.clear();
  //0: D0 anti-D0
  Vson.clear();
  Vson.push_back("D0"); Vson.push_back("anti-D0"); 
  VmodeSon.push_back(Vson);
 
  //1: D+ D-
  Vson.clear();
  Vson.push_back("D+"); Vson.push_back("D-"); 
  VmodeSon.push_back(Vson);
 
  //2: D0 anti-D*0
  Vson.clear();
  Vson.push_back("D0"); Vson.push_back("anti-D*0"); 
  VmodeSon.push_back(Vson);
 
  //3: anti-D0 D*0
  Vson.clear();
  Vson.push_back("anti-D0"); Vson.push_back("D*0"); 
  VmodeSon.push_back(Vson);
 
  //4: D*0 anti-D*0
  Vson.clear();
  Vson.push_back("D*0"); Vson.push_back("anti-D*0"); 
  VmodeSon.push_back(Vson);
 
  //5: D*+ D-
  Vson.clear();
  Vson.push_back("D*+"); Vson.push_back("D-"); 
  VmodeSon.push_back(Vson);
 
  //6: D*- D+
  Vson.clear();
  Vson.push_back("D*-"); Vson.push_back("D+"); 
  VmodeSon.push_back(Vson);
 
  //7: D*+ D*-
  Vson.clear();
  Vson.push_back("D*+"); Vson.push_back("D*-"); 
  VmodeSon.push_back(Vson);
 
  //8: D_s+ D_s-
  Vson.clear();
  Vson.push_back("D_s+"); Vson.push_back("D_s-"); 
  VmodeSon.push_back(Vson);
 
  //9: D_s*+ D_s-
  Vson.clear();
  Vson.push_back("D_s*+"); Vson.push_back("D_s-"); 
  VmodeSon.push_back(Vson);
 
  //10: D_s*- D_s+
  Vson.clear();
  Vson.push_back("D_s*-"); Vson.push_back("D_s+"); 
  VmodeSon.push_back(Vson);
 
  //11: D_s*+ D_s*-
  Vson.clear();
  Vson.push_back("D_s*+"); Vson.push_back("D_s*-"); 
  VmodeSon.push_back(Vson);
 
  //12: D*+ D- pi0
  Vson.clear();
  Vson.push_back("D*+"); Vson.push_back("D-");Vson.push_back("pi0"); 
  VmodeSon.push_back(Vson);
 
  //13: D*- D+ pi0
  Vson.clear();
  Vson.push_back("D*-"); Vson.push_back("D+");Vson.push_back("pi0"); 
  VmodeSon.push_back(Vson);
 
  //14: D*+ anti-D0 pi-
  Vson.clear();
  Vson.push_back("D*+"); Vson.push_back("anti-D0");Vson.push_back("pi-"); 
  VmodeSon.push_back(Vson);
 
  //15: D*- D0 pi+
  Vson.clear();
  Vson.push_back("D*-"); Vson.push_back("D0");Vson.push_back("pi+"); 
  VmodeSon.push_back(Vson);
 
  //16: D+ anti-D*0 pi-
  Vson.clear();
  Vson.push_back("D+"); Vson.push_back("anti-D*0");Vson.push_back("pi-"); 
  VmodeSon.push_back(Vson);
 
  //17: D- D*0 pi+
  Vson.clear();
  Vson.push_back("D-"); Vson.push_back("D*0");Vson.push_back("pi+"); 
  VmodeSon.push_back(Vson);
 
  //18: D*+ D*- pi0
  Vson.clear();
  Vson.push_back("D*+"); Vson.push_back("D*-");Vson.push_back("pi0"); 
  VmodeSon.push_back(Vson);
 
  //19: anti-D*0 D*+ pi-
  Vson.clear();
  Vson.push_back("anti-D*0"); Vson.push_back("D*+");Vson.push_back("pi-"); 
  VmodeSon.push_back(Vson);
 
  //20: D*0 D*- pi+
  Vson.clear();
  Vson.push_back("D*0"); Vson.push_back("D*-");Vson.push_back("pi+"); 
  VmodeSon.push_back(Vson);
 
  //21: D*0 D*0bar pi0
  Vson.clear();
  Vson.push_back("D*0"); Vson.push_back("anti-D*0");Vson.push_back("pi0"); 
  VmodeSon.push_back(Vson);
 
  //22: D0bar D*0 pi0
  Vson.clear();
  Vson.push_back("anti-D0"); Vson.push_back("D*0");Vson.push_back("pi0"); 
  VmodeSon.push_back(Vson);
 
  //23: D*0bar D0 pi0
  Vson.clear();
  Vson.push_back("anti-D*0"); Vson.push_back("D0");Vson.push_back("pi0"); 
  VmodeSon.push_back(Vson);
 
 }

~EvtPsi3Sdecay()

virtual EvtPsi3Sdecay::~EvtPsi3Sdecay ( )

inlinevirtual

Definition at line 337 of file EvtPsi3Sdecay.hh.

{}

Member Function Documentation

AngSam()

bool EvtPsi3Sdecay::AngSam	(	EvtVector4R	parent_p4cm,
		EvtVector4R	son_p4cm,
		double	alpha
	)

Definition at line 412 of file EvtPsi3Sdecay.cc.

                                                                                   {
  EvtHelSys angles(parent_p4cm,son_p4cm);  
  double theta=angles.getHelAng(1);
  //double phi  =angles.getHelAng(2);
  //double gamma=0;
  double costheta=cos(theta);  //using helicity angles in parent system
  double max_alpha;
  if(alpha>=0) {max_alpha = 1+alpha;}else
    {max_alpha=1;}
  double ags = (1+alpha*costheta*costheta)/max_alpha;
  double rand=EvtRandom::Flat(0.0, 1.0);
  if(rand <=ags) {return true;}
  else {return false;}
}

Referenced by PHSPDecay().

choseDecay() [1/2]

bool EvtPsi3Sdecay::choseDecay

(

)

Definition at line 127 of file EvtPsi3Sdecay.cc.

                               { //determing accept or reject a generated decay
 
   // findPoints();
 double d0d0bar_xs=polint(d0d0bar);
 double dpdm_xs   = polint(dpdm);
 double d0dst0bar_xs = polint(d0dst0bar);
 double d0bardst0_xs = polint(d0bardst0);
 
 double dst0dst0bar_xs = polint(dst0dst0bar);
 double dstpdm_xs = polint(dstpdm);
 
 double dstmdp_xs = polint(dstmdp);
 double dstpdstm_xs = polint(dstpdstm);
 
 double dspdsm_xs = polint(dspdsm);
 
 double dsspdsm_xs = polint(dsspdsm);
 double dssmdsp_xs = polint(dssmdsp);
 
 double dsspdssm_xs = polint(dsspdssm);
 //--- DDpi modes
 double _xs12    = polint(xs12);
 double _xs13    = polint(xs13);
 double _xs14    = polint(xs14);
 double _xs15    = polint(xs15);
 double _xs16    = polint(xs16);
 double _xs17    = polint(xs17);
 double _xs18    = polint(xs18);
 double _xs19    = polint(xs19);
 double _xs20    = polint(xs20);
 double _xs21    = polint(xs21);
 double _xs22    = polint(xs22);
 double _xs23    = polint(xs23);
 
 int ich = findMode();
 // std::cout<<"calculated XS "<< d0d0bar_xs<<" "<<dpdm_xs<<" "<<d0dst0bar_xs<<" "<<d0bardst0_xs<< " "<<dst0dst0bar_xs<<" "<<dstpdm_xs<< " "<<dstmdp_xs<<" "<<dstpdstm_xs<<" "<<dspdsm_xs<<std::endl;
 
 double xmtotal=0;
 for(int i=0;i<Vid.size();i++){
   xmtotal += EvtPDL::getMinMass(Vid[i]);
 } 
 double mparent= theParent->getP4().mass();
 // std::cout<<"mparent= "<<mparent<<", xmtotal= "<<xmtotal<<endl;
 if (mparent<xmtotal){return false;}
 
 
 std::vector<double> myxs; myxs.clear();
 myxs.push_back(d0d0bar_xs);  //0
 myxs.push_back(dpdm_xs);
 myxs.push_back(d0dst0bar_xs); //2
 myxs.push_back(d0bardst0_xs);
 myxs.push_back(dst0dst0bar_xs); //4
 myxs.push_back(dstpdm_xs);
 myxs.push_back(dstmdp_xs);     //6
 myxs.push_back(dstpdstm_xs);
 myxs.push_back(dspdsm_xs);   //8
 myxs.push_back(dsspdsm_xs);
 myxs.push_back(dssmdsp_xs);   //10
 myxs.push_back(dsspdssm_xs);  //11
 
 myxs.push_back(_xs12);         //12        
 myxs.push_back(_xs13);         //13        
 myxs.push_back(_xs14);         //14        
 myxs.push_back(_xs15);         //15        
 myxs.push_back(_xs16);         //16        
 myxs.push_back(_xs17);         //17        
 myxs.push_back(_xs18);         //18        
 myxs.push_back(_xs19);         //19        
 myxs.push_back(_xs20);         //20
 myxs.push_back(_xs21);         //18        
 myxs.push_back(_xs22);         //19        
 myxs.push_back(_xs23);         //20
 
 double Prop0,Prop1;
 if(ich==0){ Prop0=0;} else
   {
     Prop0 = theProb(myxs,ich-1);
   }
 Prop1 = theProb(myxs,ich);
 
 double pm= EvtRandom::Flat(0.,1);
 bool flag = false;
 if( Prop0 < pm && pm<= Prop1 ) flag = true;
 
 //--- debuging
 
 if(flag) {
 // std::cout<<"findMode= "<<ich<<std::endl;
 // for(int i=0;i<myxs.size();i++){ std::cout<<"channel "<<i<<" myxs:  "<<myxs[i]<<std::endl;}
 //std::cout<<"prop0,prop1= "<<Prop0<<" "<<Prop1<<std::endl;
 }
 
 //-------------
 
 return flag;
}

choseDecay() [2/2]

EvtParticle * EvtPsi3Sdecay::choseDecay

(

EvtParticle *

par

)

Definition at line 225 of file EvtPsi3Sdecay.cc.

                                                       { //decay par
  double  xm = par->mass();
  int themode = getDecay(xm);
  std::vector< EvtId > theid = getVId(themode);
  int ndaugjs = theid.size();
  EvtId  myId[3];
  for(int i=0;i<ndaugjs;i++){myId[i]=theid[i];}
  par->makeDaughters(ndaugjs,myId);
 
  for(int i=0;i<par->getNDaug();i++){
    EvtParticle* di=par->getDaug(i);
    double xmi=EvtPDL::getMinMass(di->getId());
    di->setMass(xmi);
   }
  par->initializePhaseSpace(ndaugjs,myId);
  _themode = themode;
  return par;
}

findMode()

int EvtPsi3Sdecay::findMode

(

)

Definition at line 73 of file EvtPsi3Sdecay.cc.

                           {
  // mode index: 0) D0D0bar, 1)D+D-; 2)D0D*0bar , 3)D0bar D*0, 4)D*0 D*0 bar, 5)D*+D-  6)D*-D+  7)D*+ D*- 8) Ds+ Ds-
  // more modes: 9) D_s^*+  D_s^-  ;10) D_s^*-  D_s^+;        11) D_s^*+  D_s^*- 
 
    std::string son0,son1,son2;
    Vson.clear();
    Vid.clear();
    for(int i=0;i<Ndaugs;i++){
      std::string nson=EvtPDL::name(theParent->getDaug(i)->getId());
      if(nson!="gammaFSR" && nson!="gamma"){ Vson.push_back(nson);Vid.push_back(theParent->getDaug(i)->getId());}
    }
    int nh=Vson.size();
    //debugging
 
  if(nh == 2){
    //  std::cout<<"final states: "<<Vson[0]<<" "<<Vson[1]<<std::endl;
    son0 = Vson[0];son1 = Vson[1];
   if(son0 == "D0"      && son1 == "anti-D0"  || son1 == "D0"      && son0 == "anti-D0")  {return 0;} else
   if(son0 == "D+"      && son1 == "D-"       || son1 == "D+"      && son0 == "D-"     )  {return 1;} else
   if(son0 == "D0"      && son1 == "anti-D*0" || son1 == "D0"      && son0 == "anti-D*0") {return 2;} else
   if(son0 == "anti-D0" && son1 == "D*0"      || son1 == "anti-D0" && son0 == "D*0")      {return 3;} else
   if(son0 == "D*0"     && son1 == "anti-D*0" || son1 == "D*0"     && son0 == "anti-D*0") {return 4;} else
   if(son0 == "D*+"     && son1 == "D-"       || son1 == "D*+"     && son0 == "D-")       {return 5;} else
   if(son0 == "D*-"     && son1 == "D+"       || son1 == "D*-"     && son0 == "D+")       {return 6;} else
   if(son0 == "D*+"     && son1 == "D*-"      || son1 == "D*+"     && son0 == "D*-")      {return 7;} else
   if(son0 == "D_s+"    && son1 == "D_s-"     || son1 == "D_s+"    && son0 == "D_s-")     {return 8;} else
   if(son0 == "D_s*+"   && son1 == "D_s-"     || son1 == "D_s*+"   && son0 == "D_s-")     {return 9;} else
   if(son0 == "D_s*-"   && son1 == "D_s+"     || son1 == "D_s*-"   && son0 == "D_s+")     {return 10;}else
   if(son0 == "D_s*+"   && son1 == "D_s*-"    || son1 == "D_s*+"   && son0 == "D_s*-")    {return 11;}  
  } else if(nh == 3){
    son0 = Vson[0];son1 = Vson[1];son2 = Vson[2];
   if(son0 == "D*+"     && son1 == "D-"       && son2 == "pi0"  )  {return 12;} else
   if(son0 == "D*-"     && son1 == "D+"       && son2 == "pi0"  )  {return 13;} else
   if(son0 == "D*+"     && son1 == "anti-D0"  && son2 == "pi-"  )  {return 14;} else
   if(son0 == "D*-"     && son1 == "D0"       && son2 == "pi+"  )  {return 15;} else
   if(son0 == "D+"      && son1 == "anti-D*0" && son2 == "pi-"  )  {return 16;} else
   if(son0 == "D-"      && son1 == "D*0"      && son2 == "pi+"  )  {return 17;} else
   if(son0 == "D*+"     && son1 == "D*-"      && son2 == "pi0"  )  {return 18;} else
   if(son0 == "anti-D*0" &&son1 == "D*+"      && son2 == "pi-"  )  {return 19;} else
   if(son0 == "D*0"     && son1 == "D*-"      && son2 == "pi+"  )  {return 20;} else
   if(son0 == "D*0"     && son1 == "anti-D*0" && son2 == "pi0"  )  {return 21;} else
   if(son0 == "D0"      && son1 == "anti-D*0" && son2 == "pi0"  )  {return 22;} else
   if(son0 == "anti-D0" && son1 == "D*0"      && son2 == "pi0"  )  {return 23;} 
  }else{
    std::cout<<"Not open charm decay"<<std::endl;
    for(int j=0;j<nh;j++){
      std::cout<<"final states, J= "<<j<<" "<<Vson[j]<<std::endl;
    }
    ::abort();
  }
 
}

Referenced by choseDecay().

findPoints()

int EvtPsi3Sdecay::findPoints

(

)

Definition at line 32 of file EvtPsi3Sdecay.cc.

                                {
    if(Ecms < x[0] ){theLocation =0;} else
      if(Ecms >=x[nsize-1]) {theLocation = nsize-1;} else{
    for (int i=0;i<nsize-1;i++){
      if( x[i] <= Ecms  && x[i+1] > Ecms) {theLocation=i;} 
    }
      }
    return theLocation;
}

Referenced by polint().

getDaugId()

std::vector< EvtId > EvtPsi3Sdecay::getDaugId ( )

inline

Definition at line 351 of file EvtPsi3Sdecay.hh.

{return Vid;}

Referenced by EvtOpenCharm::decay().

getDaugP4()

std::vector< EvtVector4R > EvtPsi3Sdecay::getDaugP4 ( )

inline

Definition at line 352 of file EvtPsi3Sdecay.hh.

{return v_p4;}

Referenced by EvtOpenCharm::decay().

getDecay()

int EvtPsi3Sdecay::getDecay

(

double

ecms

)

Definition at line 307 of file EvtPsi3Sdecay.cc.

                                       { //pick up a decay by the accept-reject sampling method
   if(ecms<3.97 || ecms >4.66){std::cout<<"EvtPsi3Sdecay::getDecay: You need to set the CMS energy between 3.97~4.66 GeV, but you have ecms= "<<ecms<< " GeV.The lower end can be set at KKMC"<<std::endl; }
   if(_excflag ==1) return _themode;
   Ecms = ecms;
   // findPoints();
 double d0d0bar_xs=polint(d0d0bar);
 double dpdm_xs   = polint(dpdm);
 double d0dst0bar_xs = polint(d0dst0bar);
 double d0bardst0_xs = polint(d0bardst0);
 
 double dst0dst0bar_xs = polint(dst0dst0bar);
 double dstpdm_xs = polint(dstpdm);
 
 double dstmdp_xs = polint(dstmdp);
 double dstpdstm_xs = polint(dstpdstm);
 
 double dspdsm_xs = polint(dspdsm);
 
 double dsspdsm_xs = polint(dsspdsm);
 double dssmdsp_xs = polint(dssmdsp);
 
 double dsspdssm_xs = polint(dsspdssm);
 
 double _xs12    = polint(xs12);
 double _xs13    = polint(xs13);
 double _xs14    = polint(xs14);
 double _xs15    = polint(xs15);
 double _xs16    = polint(xs16);
 double _xs17    = polint(xs17);
 double _xs18    = polint(xs18);
 double _xs19    = polint(xs19);
 double _xs20    = polint(xs20);
 double _xs21    = polint(xs21);
 double _xs22    = polint(xs22);
 double _xs23    = polint(xs23);
 
 
 std::vector<double> myxs; myxs.clear();
 myxs.push_back(d0d0bar_xs);    //0 
 myxs.push_back(dpdm_xs);       //1
 myxs.push_back(d0dst0bar_xs);  //2
 myxs.push_back(d0bardst0_xs);  //3
 myxs.push_back(dst0dst0bar_xs);//4
 myxs.push_back(dstpdm_xs);     //5
 myxs.push_back(dstmdp_xs);     //6
 myxs.push_back(dstpdstm_xs);   //7
 myxs.push_back(dspdsm_xs);     //8
 myxs.push_back(dsspdsm_xs);    //9
 myxs.push_back(dssmdsp_xs);    //10
 myxs.push_back(dsspdssm_xs);   //11
 myxs.push_back(_xs12);         //12        
 myxs.push_back(_xs13);         //13        
 myxs.push_back(_xs14);         //14        
 myxs.push_back(_xs15);         //15        
 myxs.push_back(_xs16);         //16        
 myxs.push_back(_xs17);         //17        
 myxs.push_back(_xs18);         //18        
 myxs.push_back(_xs19);         //19        
 myxs.push_back(_xs20);         //20   
 myxs.push_back(_xs21);         //21        
 myxs.push_back(_xs22);         //22        
 myxs.push_back(_xs23);         //23       
 
 int niter = 0;
 loop:
 int ich = (int)24*EvtRandom::Flat(0.,1);//sampling modes over 24 channel
 
 niter++;
 if(niter>1000) {std::cout<<"EvtPsi3Sdecay:getDecay() do loops over 1000 times at Ecm= "<<ecms<<std::endl;abort();}
 
 double xmtotal=0;
 std::vector<EvtId> theVid;
 theVid.clear();
 theVid = getVId(ich);
 for(int i=0;i<theVid.size();i++){
   xmtotal += EvtPDL::getMinMass(theVid[i]);
 } 
 if(Ecms < xmtotal ) {goto loop;}
 
 double Prop0,Prop1;
 if(ich==0){ Prop0=0;} else
   {
     Prop0 = theProb(myxs,ich-1);
   }
 Prop1 = theProb(myxs,ich);
 
 double pm= EvtRandom::Flat(0.,1);
 
 if( Prop0 < pm && pm<= Prop1 ) {return ich;}
 else {goto loop;}
 
}

Referenced by choseDecay(), and PHSPDecay().

getMode()

int EvtPsi3Sdecay::getMode ( )

inline

Definition at line 346 of file EvtPsi3Sdecay.hh.

{return _themode;};

Referenced by EvtOpenCharm::decay().

getVId()

std::vector< EvtId > EvtPsi3Sdecay::getVId

(

int

mode

)

Definition at line 401 of file EvtPsi3Sdecay.cc.

                                              {
  std::vector<EvtId> theVid;
  theVid.clear();
  for(int i=0;i<VmodeSon[mode].size();i++){
    EvtId theId = EvtPDL::getId(VmodeSon[mode][i]);
    theVid.push_back(theId);
  }
  return theVid;
}

Referenced by choseDecay(), getDecay(), and PHSPDecay().

PHSPDecay()

void EvtPsi3Sdecay::PHSPDecay

(

EvtParticle *

par

)

Definition at line 247 of file EvtPsi3Sdecay.cc.

                                              {//decay par
  v_p4.clear();Vid.clear();
  double  xm = par->mass();
  EvtVector4R p_ini(xm,0,0,0);
  EvtParticle* mypar= EvtParticleFactory::particleFactory(par->getId(),p_ini);
 
  int themode = getDecay(xm);
  std::vector< EvtId > theid = getVId(themode);
  int ndaugjs = theid.size();
  EvtId  myId[3];
  for(int i=0;i<ndaugjs;i++){myId[i]=theid[i];}
  mypar->makeDaughters(ndaugjs,myId);
 
  for(int i=0;i<mypar->getNDaug();i++){
    EvtParticle* di=mypar->getDaug(i);
    double xmi=EvtPDL::getMinMass(di->getId());
    di->setMass(xmi);
   }
 loop:
   mypar->initializePhaseSpace(ndaugjs,myId);
  
  //-- here to do amgular distribution sampling
   bool pp = (themode == 0||themode == 1 ||themode ==6);  //V->PP mode, alpha = -1
   bool vp = (themode >=2 && themode <=5 || themode >=7 && themode <=9 ); // V->VP mode, alpha = 1
   bool flag1 = false;
   double alpha;
   if(pp){alpha=-1;}else if(vp){alpha=1;} else {alpha=0;}
   EvtVector4R pp4=par->getP4();
   EvtVector4R sp4=mypar->getDaug(1)->getP4();
   flag1=AngSam(pp4,sp4,alpha);
   if(alpha != 0 && !flag1 ) goto loop;
  //--
   _themode = themode;
  for(int i=0;i<mypar->getNDaug();i++){
    EvtParticle* di=mypar->getDaug(i);
    v_p4.push_back( di->getP4() );
    Vid.push_back(myId[i]);
    // std::cout<<"Vid "<<EvtPDL::name(Vid[i])<<" p4: "<<v_p4[i]<<std::endl;
   }
  
 
  /*********** same function can be realized 
  double mass[3];
  EvtVector4R p4[30];
  for(int i=0;i<ndaugjs;i++){mass[i]=mypar->getDaug(i)->mass();}
  EvtGenKine::PhaseSpace(ndaugjs,mass,p4,xm);
  _themode = themode;
  for(int i=0;i<mypar->getNDaug();i++){
    v_p4.push_back( p4[i] );
    Vid.push_back(myId[i]);
    // std::cout<<"Vid "<<EvtPDL::name(Vid[i])<<" p4: "<<v_p4[i]<<std::endl;
   }
  *************/
  mypar->deleteTree();
  return;
}

Referenced by EvtOpenCharm::decay().

polint()

double EvtPsi3Sdecay::polint

(

std::vector< double >

points

)

Definition at line 42 of file EvtPsi3Sdecay.cc.

                                                  {
 
  theLocation = findPoints();
  double xs;
  if(theLocation==nsize-1){xs = vy[nsize-1];} else{
   xs = (vy[theLocation +1 ]- vy[theLocation]) / (x[theLocation+1]-x[theLocation])*(Ecms - x[theLocation])+vy[theLocation];
  }
  if(xs <0 ) xs = 0;
  //  for(int i=0;i<vy.size();i++){ std::cout<<"channel "<<i<<" xsection:  "<<vy[i]<<std::endl;}
  // std::cout<<"Ecms, theLocation= "<<Ecms<<" "<<theLocation<<" xs= "<<xs<<std::endl; 
  return xs;
 }

Referenced by choseDecay(), and getDecay().

setMode()

void EvtPsi3Sdecay::setMode ( int  m )

inline

Definition at line 354 of file EvtPsi3Sdecay.hh.

                     {
    if(m<0 || m>24) {std::cout<<"EvtPsi3Decay::setMode: bad mode"<<std::endl;abort();}
    _themode = m;_excflag=1;}

Referenced by EvtOpenCharm::decay().

theProb()

double EvtPsi3Sdecay::theProb	(	std::vector< double >	myxs,
		int	ich
	)

Definition at line 55 of file EvtPsi3Sdecay.cc.

                                                           {
  int Nchannels=myxs.size();
  //---debuging
  // std::cout<<"Nchannel= "<<Nchannels<<endl;
  
  std::vector <double> thexs;
  thexs.clear();
  double sumxs=0;
  for(int j=0;j<Nchannels;j++){
    sumxs += myxs[j];  
    thexs.push_back(sumxs);
    //----debugging
    // std::cout<<"thexs["<<j<<"]= "<<myxs[j]<<std::endl;
  }
  if(sumxs == 0) {std::cout<<"EvtPsi3Sdecay::theProb, denominator is 0"<<std::endl;::abort();}
  return thexs[ich] / sumxs ;  
}

Referenced by choseDecay(), and getDecay().

---

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

• EvtPsi3Sdecay.hh
• EvtPsi3Sdecay.cc