// @(#)root/eg:$Name: $:$Id: TAttParticle.cxx,v 1.1.1.1 2000/05/16 17:00:47 rdm Exp $
// Author: Ola Nordmann 29/09/95
/*************************************************************************
* Copyright (C) 1995-2000, Rene Brun and Fons Rademakers. *
* All rights reserved. *
* *
* For the licensing terms see $ROOTSYS/LICENSE. *
* For the list of contributors see $ROOTSYS/README/CREDITS. *
*************************************************************************/
//////////////////////////////////////////////////////////////////////////
// //
// TAttParticle //
// //
// Particle definition, partly based on GEANT3 particle definition //
// //
// //
//////////////////////////////////////////////////////////////////////////
#include "TAttParticle.h"
#include "THashList.h"
#include "TMath.h"
#include "TRandom.h"
ClassImp(TAttParticle)
THashList *TAttParticle::fgList = new THashList;
//______________________________________________________________________________
TAttParticle::TAttParticle()
{
//
// Particle definition default constructor
//
//do nothing just set some dummy values
fPDGMass = 0.0;
fPDGStable = kTRUE;
fPDGDecayWidth = 0.0;
fPDGCharge = 0.0;
fParticleType = "";
fMCnumberOfPDG = 0;
fEnergyCut = 1.e-5;
fEnergyLimit = 1.e4;
fGranularity = 90;
}
//______________________________________________________________________________
TAttParticle::TAttParticle(const char *name, const char *title,
Double_t Mass, Bool_t Stable,
Double_t DecayWidth, Double_t Charge, const char *Type,
Int_t MCnumber, Int_t granularity, Double_t LowerCutOff,
Double_t HighCutOff) : TNamed(name,title)
{
//
// Particle definition normal constructor. If the particle is set to be
// stable, the decay width parameter does have no meaning and can be set to
// any value. The parameters granularity, LowerCutOff and HighCutOff are
// used for the construction of the mean free path look up tables. The
// granularity will be the number of logwise energy points for which the
// mean free path will be calculated.
//
fPDGMass = Mass;
fPDGStable = Stable;
fPDGDecayWidth = DecayWidth;
fPDGCharge = Charge;
fParticleType = Type;
fMCnumberOfPDG = MCnumber;
fEnergyCut = LowerCutOff;
fEnergyLimit = HighCutOff;
fGranularity = granularity;
fgList->Add(this);
}
//______________________________________________________________________________
TAttParticle::~TAttParticle()
{
//
// Particle destructor
//
}
//______________________________________________________________________________
Int_t TAttParticle::ConvertISAtoPDG(Int_t isaNumber)
{
//
// Converts the ISAJET Particle number into the PDG MC number
//
switch (isaNumber) {
case 1 : return 2; // UP .30000E+00 .67
case -1 : return -2; // UB .30000E+00 -.67
case 2 : return 1; // DN .30000E+00 -.33
case -2 : return -1; // DB .30000E+00 .33
case 3 : return 3; // ST .50000E+00 -.33
case -3 : return -3; // SB .50000E+00 .33
case 4 : return 4; // CH .16000E+01 .67
case -4 : return -4; // CB .16000E+01 -.67
case 5 : return 5; // BT .49000E+01 -.33
case -5 : return -5; // BB .49000E+01 .33
case 6 : return 7; // TP .30000E+02 .67
case -6 : return -7; // TB .30000E+02 -.67
case 9 : return 21; // GL 0. 0.00
case 80 : return 24; // W+ SIN2W=.23 1.00
case -80 : return -24; // W- SIN2W=.23 -1.00
case 90 : return 23; // Z0 SIN2W=.23 0.00
case 230 : return 311; // K0 .49767E+00 0.00
case -230 : return -311; // AK0 .49767E+00 0.00
case 330 : return 331; // ETAP .95760E+00 0.00
case 340 : return 0; // F- .20300E+01 -1.00
case -340 : return 0; // F+ .20300E+01 1.00
case 440 : return 441; // ETAC .29760E+01 0.00
case 111 : return 113; // RHO0 .77000E+00 0.00
case 121 : return 213; // RHO+ .77000E+00 1.00
case -121 : return -213; // RHO- .77000E+00 -1.00
case 221 : return 223; // OMEG .78260E+00 0.00
case 131 : return 323; // K*+ .88810E+00 1.00
case -131 : return -323; // K*- .88810E+00 -1.00
case 231 : return 313; // K*0 .89220E+00 0.00
case -231 : return -313; // AK*0 .89220E+00 0.00
case 331 : return 333; // PHI .10196E+01 0.00
case 141 : return -423; // AD*0 .20060E+01 0.00
case -141 : return 423; // D*0 .20060E+01 0.00
case 241 : return -413; // D*- .20086E+01 -1.00
case -241 : return 413; // D*+ .20086E+01 1.00
case 341 : return 0; // F*- .21400E+01 -1.00
case -341 : return 0; // F*+ .21400E+01 1.00
case 441 : return 443; // JPSI .30970E+01 0.00
case 1140 : return 4222; // SC++ .24300E+01 2.00
case -1140 : return -4222; // ASC-- .24300E+01 -2.00
case 1240 : return 4212; // SC+ .24300E+01 1.00
case -1240 : return -4212; // ASC- .24300E+01 -1.00
case 2140 : return 4122; // LC+ .22600E+01 1.00
case -2140 : return -4122; // ALC- .22600E+01 -1.00
case 2240 : return 4112; // SC0 .24300E+01 0.00
case -2240 : return -4112; // ASC0 .24300E+01 0.00
case 1340 : return 0; // USC. .25000E+01 1.00
case -1340 : return 0; // AUSC. .25000E+01 -1.00
case 3140 : return 0; // SUC. .24000E+01 1.00
case -3140 : return 0; // ASUC. .24000E+01 -1.00
case 2340 : return 0; // DSC. .25000E+01 0.00
case -2340 : return 0; // ADSC. .25000E+01 0.00
case 3240 : return 0; // SDC. .24000E+01 0.00
case -3240 : return 0; // ASDC. .24000E+01 0.00
case 3340 : return 0; // SSC. .26000E+01 0.00
case -3340 : return 0; // ASSC. .26000E+01 0.00
case 1440 : return 0; // UCC. .35500E+01 2.00
case -1440 : return 0; // AUCC. .35500E+01 -2.00
case 2440 : return 0; // DCC. .35500E+01 1.00
case -2440 : return 0; // ADCC. .35500E+01 -1.00
case 3440 : return 0; // SCC. .37000E+01 1.00
case -3440 : return 0; // ASCC. .37000E+01 -1.00
case 1111 : return 2224; // DL++ .12320E+01 2.00
case -1111 : return -2224; // ADL-- .12320E+01 -2.00
case 1121 : return 2214; // DL+ .12320E+01 1.00
case -1121 : return -2214; // ADL- .12320E+01 -1.00
case 1221 : return 2114; // DL0 .12320E+01 0.00
case -1221 : return -2114; // ADL0 .12320E+01 0.00
case 2221 : return 1114; // DL- .12320E+01 -1.00
case -2221 : return -1114; // ADL+ .12320E+01 1.00
case 1131 : return 3224; // S*+ .13823E+01 1.00
case -1131 : return -3224; // AS*- .13823E+01 -1.00
case 1231 : return 3214; // S*0 .13820E+01 0.00
case -1231 : return -3214; // AS*0 .13820E+01 0.00
case 2231 : return 3114; // S*- .13875E+01 -1.00
case -2231 : return -3114; // AS*+ .13875E+01 1.00
case 1331 : return 3324; // XI*0 .15318E+01 0.00
case -1331 : return -3324; // AXI*0 .15318E+01 0.00
case 2331 : return 3314; // XI*- .15350E+01 -1.00
case -2331 : return -3314; // AXI*+ .15350E+01 1.00
case 3331 : return 3334; // OM- .16722E+01 -1.00
case -3331 : return -3334; // AOM+ .16722E+01 1.00
case 1141 : return 0; // UUC* .26300E+01 2.00
case -1141 : return 0; // AUUC* .26300E+01 -2.00
case 1241 : return 0; // UDC* .26300E+01 1.00
case -1241 : return 0; // AUDC* .26300E+01 -1.00
case 2241 : return 0; // DDC* .26300E+01 0.00
case -2241 : return 0; // ADDC* .26300E+01 0.00
case 1341 : return 0; // USC* .27000E+01 1.00
case -1341 : return 0; // AUSC* .27000E+01 -1.00
case 2341 : return 0; // DSC* .27000E+01 0.00
case -2341 : return 0; // ADSC* .27000E+01 0.00
case 3341 : return 0; // SSC* .28000E+01 0.00
case -3341 : return 0; // ASSC* .28000E+01 0.00
case 1441 : return 0; // UCC* .37500E+01 2.00
case -1441 : return 0; // AUCC* .37500E+01 -2.00
case 2441 : return 0; // DCC* .37500E+01 1.00
case -2441 : return 0; // ADCC* .37500E+01 -1.00
case 3441 : return 0; // SCC* .39000E+01 1.00
case -3441 : return 0; // ASCC* .39000E+01 -1.00
case 4441 : return 0; // CCC* .48000E+01 2.00
case -4441 : return 0; // ACCC* .48000E+01 -2.00
case 10 : return 22; // Photon
case 12 : return 11; // Electron
case -12 : return -11; // Positron
case 14 : return 13; // Muon-
case -14 : return -13; // Muon+
case 16 : return 15; // Tau-
case -16 : return -15; // Tau+
case 11 : return 12; // Neutrino e
case -11 : return -12; // Anti Neutrino e
case 13 : return 14; // Neutrino Muon
case -13 : return -14; // Anti Neutrino Muon
case 15 : return 16; // Neutrino Tau
case -15 : return -16; // Anti Neutrino Tau
case 110 : return 111; // Pion0
case 120 : return 211; // Pion+
case -120 : return -211; // Pion-
case 220 : return 221; // Eta
case 130 : return 321; // Kaon+
case -130 : return -321; // Kaon-
case -20 : return 130; // Kaon Long
case 20 : return 310; // Kaon Short
case -240 : return -411; // D+
case 240 : return 411; // D-
case -140 : return 421; // D0
case 140 : return -421; // D0 bar
case 1120 : return 2212; // Proton
case -1120 : return -2212; // Anti Proton
case 1220 : return 2112; // Neutron
case -1220 : return -2112; // Anti Neutron
case 2130 : return 3122; // Lambda
case -2130 : return -3122; // Lambda bar
case 1130 : return 3222; // Sigma+
case -1130 : return -3222; // Sigma bar -
case 1230 : return 3212; // Sigma0
case -1230 : return -3212; // Sigma bar 0
case 2230 : return 3112; // Sigma-
case -2230 : return -3112; // Sigma bar +
case 1330 : return 3322; // Xi0
case -1330 : return -3322; // Xi bar 0
case 2330 : return 3312; // Xi-
case -2330 : return -3312; // Xi bar +
default : return 0; // isajet or pdg number does not exist
}
}
//______________________________________________________________________________
void TAttParticle::DefinePDG()
{
//
// Defines particles according to the Particle Data Group
//
// For questions regarding distribution or content of the MC particle
// codes, contact
// Gary Wagman (GSWagman@LBL.BITNET, LBL::GSWagman, or GSWagman@LBL.GOV).
// (510)486-6610
//
if (!fgList->IsEmpty()) return;
new TAttParticle("down","Q001",0.005,kTRUE, .0,-0.333333333333333,"Quark", 1);
new TAttParticle("down bar","Q001",
0.005,kTRUE, .0,
0.333333333333333,"Quark", -1);
new TAttParticle("up","Q002",
0.003,kTRUE, .0,
0.666666666666666,"Quark", 2);
new TAttParticle("up bar","Q002",
0.003,kTRUE, .0,
-0.666666666666666,"Quark", -2);
new TAttParticle("strange","Q003",
0.1,kTRUE, .0,
-0.333333333333333,"Quark", 3);
new TAttParticle("strange bar","Q003",
0.1,kTRUE, .0,
0.333333333333333,"Quark", -3);
new TAttParticle("charm","Q004",
1.4,kTRUE, .0,
0.666666666666666,"Quark", 4);
new TAttParticle("charm bar","Q004",
1.4,kTRUE, .0,
-0.666666666666666,"Quark", -4);
new TAttParticle("bottom","Q005",
4.4,kTRUE, .0,
-0.333333333333333,"Quark", 5);
new TAttParticle("bottom bar","Q005",
4.4,kTRUE, .0,
0.333333333333333,"Quark", -5);
new TAttParticle("top","Q007",
173.8,kTRUE, .0,
0.666666666666666,"Quark", 6);
new TAttParticle("top bar","Q007",
173.8,kTRUE, .0,
-0.666666666666666,"Quark", -6);
new TAttParticle("gluon","G021",
.0,kTRUE, .0,
0.0,"Gauge Boson", 21);
// Entry point of the pdg table conversion
new TAttParticle("Searches0","S054",
169.0,kTRUE, .0,
0.,"Meson", 7);
new TAttParticle("e-","S003",
5.10999E-04,kTRUE, .0,
-1.,"Lepton", 11);
new TAttParticle("e+","S003",
5.10999E-04,kTRUE, .0,
1.,"Lepton", -11);
new TAttParticle("nu(e)","S001",
.0,kTRUE, .0,
0.0,"Lepton", 12);
new TAttParticle("nu(e) bar","S001",
.0,kTRUE, .0,
0.0,"Lepton", -12);
new TAttParticle("mu-","S004",
.1056583,kFALSE, 2.99591E-19,
-1.,"Lepton", 13);
new TAttParticle("mu+","S004",
.1056583,kFALSE, 2.99591E-19,
1.,"Lepton", -13);
new TAttParticle("nu(mu)","S002",
.0,kTRUE, .0,
0.0,"Lepton", 14);
new TAttParticle("nu(mu) bar","S002",
.0,kTRUE, .0,
0.0,"Lepton", -14);
new TAttParticle("tau-","S035",
1.7771,kFALSE, 2.22700E-12,
-1.,"Lepton", 15);
new TAttParticle("tau+","S035",
1.7771,kFALSE, 2.22700E-12,
1.,"Lepton", -15);
new TAttParticle("nu(tau)","S036",
.0,kTRUE, .0,
0.0,"Lepton", 16);
new TAttParticle("nu(tau) bar","S036",
.0,kTRUE, .0,
0.0,"Lepton", -16);
new TAttParticle("gamma","S000",
.0,kTRUE, .0,
0.0,"Gauge Boson", 22);
new TAttParticle("Z0","S044",
91.18699,kFALSE, 2.49,
0.0,"Gauge Boson", 23);
new TAttParticle("W+","S043",
80.41,kFALSE, 2.06,
+1.,"Gauge Boson", 24);
new TAttParticle("W-","S043",
80.41,kFALSE, 2.06,
-1.,"Gauge Boson", -24);
new TAttParticle("pi0","S009",
.1349764,kFALSE, 7.80000E-09,
0.0,"Meson", 111);
new TAttParticle("rho(770)0","M009",
.7699,kFALSE, .1511999,
0.0,"Meson", 113);
new TAttParticle("a(2)(1320)0","M012",
1.3181,kFALSE, .107,
0.0,"Meson", 115);
new TAttParticle("rho(3)(1690)0","M015",
1.691,kFALSE, .160,
0.0,"Meson", 117);
new TAttParticle("K(L)0","S013",
.4976719,kFALSE, 1.27400E-17,
0.0,"Meson", 130);
new TAttParticle("pi+","S008",
.1395699,kFALSE, 2.52860E-17,
1.,"Meson", 211);
new TAttParticle("pi-","S008",
.1395699,kFALSE, 2.52860E-17,
-1.,"Meson", -211);
new TAttParticle("rho(770)+","M009",
.7699,kFALSE, .1507,
1.,"Meson", 213);
new TAttParticle("rho(770)-","M009",
.7699,kFALSE, .1507,
-1.,"Meson", -213);
new TAttParticle("a(2)(1320)+","M012",
1.3181,kFALSE, .107,
1.,"Meson", 215);
new TAttParticle("a(2)(1320)-","M012",
1.3181,kFALSE, .107,
-1.,"Meson", -215);
new TAttParticle("rho(3)(1690)+","M015",
1.691,kFALSE, .160,
1.,"Meson", 217);
new TAttParticle("rho(3)(1690)-","M015",
1.691,kFALSE, .160,
-1.,"Meson", -217);
new TAttParticle("eta0","S014",
.54730,kFALSE, 1.20000E-06,
0.0,"Meson", 221);
new TAttParticle("omega(782)0","M001",
.78194,kFALSE, 8.43000E-03,
0.0,"Meson", 223);
new TAttParticle("f(2)(1270)0","M005",
1.275,kFALSE, .1855,
0.0,"Meson", 225);
new TAttParticle("omega(3)(1670)0","M045",
1.667,kFALSE, .168,
0.0,"Meson", 227);
new TAttParticle("f(4)(2050)0","M016",
2.044,kFALSE, .208,
0.0,"Meson", 229);
new TAttParticle("K(S)0","S012",
.497672,kFALSE, 7.37400E-15,
0.0,"Meson", 310);
new TAttParticle("K0","S011",
.497672,kFALSE, .0,
0.0,"Meson", 311);
new TAttParticle("K0 bar","S011",
.497672,kFALSE, .0,
0.0,"Meson", -311);
new TAttParticle("K*(892)0","M018",
.89610,kFALSE, 5.05000E-02,
0.0,"Meson", 313);
new TAttParticle("K*(892)0 bar","M018",
.89610,kFALSE, 5.05000E-02,
0.0,"Meson", -313);
new TAttParticle("K(2)*(1430)0","M022",
1.4324,kFALSE, .1089999,
0.0,"Meson", 315);
new TAttParticle("K(2)*(1430)0 bar","M022",
1.4324,kFALSE, .1089999,
0.0,"Meson", -315);
new TAttParticle("K(3)*(1780)0","M060",
1.776,kFALSE, .159,
0.0,"Meson", 317);
new TAttParticle("K(3)*(1780)0 bar","M060",
1.776,kFALSE, .159,
0.0,"Meson", -317);
new TAttParticle("K(4)*(2045)0","M035",
2.045,kFALSE, .198,
0.0,"Meson", 319);
new TAttParticle("K(4)*(2045)0 bar","M035",
2.045,kFALSE, .198,
0.0,"Meson", -319);
new TAttParticle("K+","S010",
.493677,kFALSE, 5.32100E-17,
1.,"Meson", 321);
new TAttParticle("K-","S010",
.493677,kFALSE, 5.32100E-17,
-1.,"Meson", -321);
new TAttParticle("K*(892)+","M018",
.8915899,kFALSE, 5.08000E-02,
1.,"Meson", 323);
new TAttParticle("K*(892)-","M018",
.8915899,kFALSE, 5.08000E-02,
-1.,"Meson", -323);
new TAttParticle("K(2)*(1430)+","M022",
1.4256,kFALSE, 9.85000E-02,
1.,"Meson", 325);
new TAttParticle("K(2)*(1430)-","M022",
1.4256,kFALSE, 9.85000E-02,
-1.,"Meson", -325);
new TAttParticle("K(3)*(1780)+","M060",
1.776,kFALSE, .159,
1.,"Meson", 327);
new TAttParticle("K(3)*(1780)-","M060",
1.776,kFALSE, .159,
-1.,"Meson", -327);
new TAttParticle("K(4)*(2045)+","M035",
2.045,kFALSE, .198,
1.,"Meson", 329);
new TAttParticle("K(4)*(2045)-","M035",
2.045,kFALSE, .198,
-1.,"Meson", -329);
new TAttParticle("eta'(958)0","M002",
.95778,kFALSE, 2.03000E-04,
0.0,"Meson", 331);
new TAttParticle("phi(1020)0","M004",
1.01941,kFALSE, 4.43000E-03,
0.0,"Meson", 333);
new TAttParticle("f(2)'(1525)0","M013",
1.525,kFALSE, 7.60000E-02,
0.0,"Meson", 335);
new TAttParticle("phi(3)(1850)0","M054",
1.854,kFALSE, 8.70000E-02,
0.0,"Meson", 337);
new TAttParticle("D+","S031",
1.8693,kFALSE, 6.23000E-13,
1.,"Meson", 411);
new TAttParticle("D-","S031",
1.8693,kFALSE, 6.23000E-13,
-1.,"Meson", -411);
new TAttParticle("D*(2010)+","M062",
2.01,kTRUE, .0,
1.,"Meson", 413);
new TAttParticle("D*(2010)-","M062",
2.01,kTRUE, .0,
-1.,"Meson", -413);
new TAttParticle("D(2)*(2460)+","M150",
2.4589,kFALSE, 2.30000E-02,
1.,"Meson", 415);
new TAttParticle("D(2)*(2460)-","M150",
2.4589,kFALSE, 2.30000E-02,
-1.,"Meson", -415);
new TAttParticle("D0","S032",
1.8646,kFALSE, 1.58600E-12,
0.0,"Meson", 421);
new TAttParticle("D*(2007)0","M061",
2.0067,kTRUE, .0,
0.0,"Meson", 423);
new TAttParticle("D(2)*(2460)0","M119",
2.4589,kFALSE, 2.30000E-02,
0.0,"Meson", 425);
new TAttParticle("D(s)+","S034",
1.9685,kFALSE, 1.41000E-12,
1.,"Meson", 431);
new TAttParticle("D(s)-","S034",
1.9685,kFALSE, 1.41000E-12,
-1.,"Meson", -431);
new TAttParticle("D(s)*+","S074",
2.1124,kTRUE, .0,
1.,"Meson", 433);
new TAttParticle("D(s)*-","S074",
2.1124,kTRUE, .0,
-1.,"Meson", -433);
new TAttParticle("eta(c)(1S)0","M026",
2.9798,kFALSE, 1.32000E-02,
0.0,"Meson", 441);
new TAttParticle("J/psi(1S)0","M070",
3.09688,kFALSE, 8.70000E-05,
0.0,"Meson", 443);
new TAttParticle("chi(c2)(1P)0","M057",
3.55617,kFALSE, 2.00000E-03,
0.0,"Meson", 445);
new TAttParticle("B0","S049",
5.2792,kFALSE, 4.39000E-13,
0.0,"Meson", 511);
new TAttParticle("B*0","S085",
5.3249,kTRUE, .0,
0.0,"Meson", 513);
new TAttParticle("B+","S049",
5.2789,kFALSE, 4.28000E-13,
1.,"Meson", 521);
new TAttParticle("B-","S049",
5.2789,kFALSE, 4.28000E-13,
-1.,"Meson", -521);
new TAttParticle("B*+","S085",
5.3249,kTRUE, .0,
1.,"Meson", 523);
new TAttParticle("B*-","S085",
5.3249,kTRUE, .0,
-1.,"Meson", -523);
new TAttParticle("B(s)0","S086",
5.3693,kFALSE, 4.90000E-13,
0.0,"Meson", 531);
new TAttParticle("chi(b0)(1P)0","M076",
9.8598,kTRUE, .0,
0.0,"Meson", 551);
new TAttParticle("Upsilon(1S)0","M049",
9.46037,kFALSE, 5.25000E-05,
0.0,"Meson", 553);
new TAttParticle("chi(b2)(1P)0","M078",
9.9132,kTRUE, .0,
0.0,"Meson", 555);
new TAttParticle("Delta(1620)-","B082",
1.62,kFALSE, .15,
-1.,"Baryon", 1112);
new TAttParticle("Delta(1620)+ bar","B082",
1.62,kFALSE, .15,
+1.,"Baryon", -1112);
new TAttParticle("Delta(1232)-","B033",
1.232,kFALSE, .1199999,
-1.,"Baryon", 1114);
new TAttParticle("Delta(1232)+ bar","B033",
1.232,kFALSE, .1199999,
+1.,"Baryon", -1114);
new TAttParticle("Delta(1905)-","B011",
1.905,kFALSE, .3499999,
-1.,"Baryon", 1116);
new TAttParticle("Delta(1905)+ bar","B011",
1.905,kFALSE, .3499999,
+1.,"Baryon", -1116);
new TAttParticle("Delta(1950)-","B083",
1.95,kFALSE, .3,
-1.,"Baryon", 1118);
new TAttParticle("Delta(1950)+ bar","B083",
1.95,kFALSE, .3,
+1.,"Baryon", -1118);
new TAttParticle("Delta(1620)0","B082",
1.62,kFALSE, .15,
0.0,"Baryon", 1212);
new TAttParticle("Delta(1620)0 bar","B082",
1.62,kFALSE, .15,
0.0,"Baryon", -1212);
new TAttParticle("N(1520)0","B062",
1.52,kFALSE, .1199999,
0.0,"Baryon", 1214);
new TAttParticle("N(1520)0 bar","B062",
1.52,kFALSE, .1199999,
0.0,"Baryon", -1214);
new TAttParticle("Delta(1905)0","B011",
1.905,kFALSE, .3499999,
0.0,"Baryon", 1216);
new TAttParticle("Delta(1905)0 bar","B011",
1.905,kFALSE, .3499999,
0.0,"Baryon", -1216);
new TAttParticle("N(2190)0","B071",
2.19,kFALSE, .4499999,
0.0,"Baryon", 1218);
new TAttParticle("N(2190)0 bar","B071",
2.19,kFALSE, .4499999,
0.0,"Baryon", -1218);
new TAttParticle("n","S017",
.9395656,kFALSE, 7.42100E-28,
0.0,"Baryon", 2112);
new TAttParticle("n bar","S017",
.9395656,kFALSE, 7.42100E-28,
0.0,"Baryon", -2112);
new TAttParticle("Delta(1232)0","B033",
1.232,kFALSE, .1199999,
0.0,"Baryon", 2114);
new TAttParticle("Delta(1232)0 bar","B033",
1.232,kFALSE, .1199999,
0.0,"Baryon", -2114);
new TAttParticle("N(1675)0","B064",
1.675,kFALSE, .15,
0.0,"Baryon", 2116);
new TAttParticle("N(1675)0 bar","B064",
1.675,kFALSE, .15,
0.0,"Baryon", -2116);
new TAttParticle("Delta(1950)0","B083",
1.95,kFALSE, .3,
0.0,"Baryon", 2118);
new TAttParticle("Delta(1950)0 bar","B083",
1.95,kFALSE, .3,
0.0,"Baryon", -2118);
new TAttParticle("Delta(1620)+","B082",
1.62,kFALSE, .15,
+1.,"Baryon", 2122);
new TAttParticle("Delta(1620)- bar","B082",
1.62,kFALSE, .15,
-1.,"Baryon", -2122);
new TAttParticle("N(1520)+","B062",
1.52,kFALSE, .1199999,
+1.,"Baryon", 2124);
new TAttParticle("N(1520)- bar","B062",
1.52,kFALSE, .1199999,
-1.,"Baryon", -2124);
new TAttParticle("Delta(1905)+","B011",
1.905,kFALSE, .3499999,
+1.,"Baryon", 2126);
new TAttParticle("Delta(1905)- bar","B011",
1.905,kFALSE, .3499999,
-1.,"Baryon", -2126);
new TAttParticle("N(2190)+","B071",
2.19,kFALSE, .4499999,
+1.,"Baryon", 2128);
new TAttParticle("N(2190)- bar","B071",
2.19,kFALSE, .4499999,
-1.,"Baryon", -2128);
new TAttParticle("p","S016",
.9382722,kTRUE, .0,
+1.,"Baryon", 2212);
new TAttParticle("p bar","S016",
.9382722,kTRUE, .0,
-1.,"Baryon", -2212);
new TAttParticle("Delta(1232)+","B033",
1.232,kFALSE, .1199999,
+1.,"Baryon", 2214);
new TAttParticle("Delta(1232)- bar","B033",
1.232,kFALSE, .1199999,
-1.,"Baryon", -2214);
new TAttParticle("N(1675)+","B064",
1.675,kFALSE, .15,
+1.,"Baryon", 2216);
new TAttParticle("N(1675)- bar","B064",
1.675,kFALSE, .15,
-1.,"Baryon", -2216);
new TAttParticle("Delta(1950)+","B083",
1.95,kFALSE, .3,
+1.,"Baryon", 2218);
new TAttParticle("Delta(1950)- bar","B083",
1.95,kFALSE, .3,
-1.,"Baryon", -2218);
new TAttParticle("Delta(1620)++","B082",
1.62,kFALSE, .15,
+2.,"Baryon", 2222);
new TAttParticle("Delta(1620)-- bar","B082",
1.62,kFALSE, .15,
-2.,"Baryon", -2222);
new TAttParticle("Delta(1232)++","B033",
1.232,kFALSE, .1199999,
+2.,"Baryon", 2224);
new TAttParticle("Delta(1232)-- bar","B033",
1.232,kFALSE, .1199999,
-2.,"Baryon", -2224);
new TAttParticle("Delta(1905)++","B011",
1.905,kFALSE, .3499999,
+2.,"Baryon", 2226);
new TAttParticle("Delta(1905)-- bar","B011",
1.905,kFALSE, .3499999,
-2.,"Baryon", -2226);
new TAttParticle("Delta(1950)++","B083",
1.95,kFALSE, .3,
+2.,"Baryon", 2228);
new TAttParticle("Delta(1950)-- bar","B083",
1.95,kFALSE, .3,
-2.,"Baryon", -2228);
new TAttParticle("Sigma-","S020",
1.19744,kFALSE, 4.45000E-15,
-1.,"Baryon", 3112);
new TAttParticle("Sigma+ bar","S020",
1.19744,kFALSE, 4.45000E-15,
+1.,"Baryon", -3112);
new TAttParticle("Sigma(1385)-","B043",
1.3872,kFALSE, 3.94000E-02,
-1.,"Baryon", 3114);
new TAttParticle("Sigma(1385)+ bar","B043",
1.3872,kFALSE, 3.94000E-02,
+1.,"Baryon", -3114);
new TAttParticle("Sigma(1775)-","B045",
1.775,kFALSE, .1199999,
-1.,"Baryon", 3116);
new TAttParticle("Sigma(1775)+ bar","B045",
1.775,kFALSE, .1199999,
+1.,"Baryon", -3116);
new TAttParticle("Sigma(2030)-","B047",
2.03,kFALSE, .18,
-1.,"Baryon", 3118);
new TAttParticle("Sigma(2030)+ bar","B047",
2.03,kFALSE, .18,
+1.,"Baryon", -3118);
new TAttParticle("Lambda0","S018",
1.11568,kFALSE, 2.50100E-15,
0.0,"Baryon", 3122);
new TAttParticle("Lambda0 bar","S018",
1.11568,kFALSE, 2.50100E-15,
0.0,"Baryon", -3122);
new TAttParticle("Lambda(1520)0","B038",
1.5195,kFALSE, 1.56000E-02,
0.0,"Baryon", 3124);
new TAttParticle("Lambda(1520)0 bar","B038",
1.5195,kFALSE, 1.56000E-02,
0.0,"Baryon", -3124);
new TAttParticle("Lambda(1820)0","B039",
1.82,kFALSE, 8.00000E-02,
0.0,"Baryon", 3126);
new TAttParticle("Lambda(1820)0 bar","B039",
1.82,kFALSE, 8.00000E-02,
0.0,"Baryon", -3126);
new TAttParticle("Lambda(2100)0","B041",
2.1,kFALSE, .2,
0.0,"Baryon", 3128);
new TAttParticle("Lambda(2100)0 bar","B041",
2.1,kFALSE, .2,
0.0,"Baryon", -3128);
new TAttParticle("Sigma0","S021",
1.19255,kFALSE, 8.90000E-06,
0.0,"Baryon", 3212);
new TAttParticle("Sigma0 bar","S021",
1.19255,kFALSE, 8.90000E-06,
0.0,"Baryon", -3212);
new TAttParticle("Sigma(1385)0","B043",
1.3837,kFALSE, 3.60000E-02,
0.0,"Baryon", 3214);
new TAttParticle("Sigma(1385)0 bar","B043",
1.3837,kFALSE, 3.60000E-02,
0.0,"Baryon", -3214);
new TAttParticle("Sigma(1775)0","B045",
1.775,kFALSE, .1199999,
0.0,"Baryon", 3216);
new TAttParticle("Sigma(1775)0 bar","B045",
1.775,kFALSE, .1199999,
0.0,"Baryon", -3216);
new TAttParticle("Sigma(2030)0","B047",
2.03,kFALSE, .18,
0.0,"Baryon", 3218);
new TAttParticle("Sigma(2030)0 bar","B047",
2.03,kFALSE, .18,
0.0,"Baryon", -3218);
new TAttParticle("Sigma+","S019",
1.18937,kFALSE, 8.24000E-15,
+1.,"Baryon", 3222);
new TAttParticle("Sigma- bar","S019",
1.18937,kFALSE, 8.24000E-15,
-1.,"Baryon", -3222);
new TAttParticle("Sigma(1385)+","B043",
1.3828,kFALSE, 3.58000E-02,
+1.,"Baryon", 3224);
new TAttParticle("Sigma(1385)- bar","B043",
1.3828,kFALSE, 3.58000E-02,
-1.,"Baryon", -3224);
new TAttParticle("Sigma(1775)+","B045",
1.775,kFALSE, .1199999,
+1.,"Baryon", 3226);
new TAttParticle("Sigma(1775)- bar","B045",
1.775,kFALSE, .1199999,
-1.,"Baryon", -3226);
new TAttParticle("Sigma(2030)+","B047",
2.03,kFALSE, .18,
+1.,"Baryon", 3228);
new TAttParticle("Sigma(2030)- bar","B047",
2.03,kFALSE, .18,
-1.,"Baryon", -3228);
new TAttParticle("Xi-","S022",
1.32132,kFALSE, 4.02000E-15,
-1.,"Baryon", 3312);
new TAttParticle("Xi+ bar","S022",
1.32132,kFALSE, 4.02000E-15,
+1.,"Baryon", -3312);
new TAttParticle("Xi(1530)-","B049",
1.535,kFALSE, 9.90000E-03,
-1.,"Baryon", 3314);
new TAttParticle("Xi(1530)+ bar","B049",
1.535,kFALSE, 9.90000E-03,
+1.,"Baryon", -3314);
new TAttParticle("Xi0","S023",
1.3149,kFALSE, 2.27000E-15,
0.0,"Baryon", 3322);
new TAttParticle("Xi0 bar","S023",
1.3149,kFALSE, 2.27000E-15,
0.0,"Baryon", -3322);
new TAttParticle("Xi(1530)0","B049",
1.5318,kFALSE, 9.10000E-03,
0.0,"Baryon", 3324);
new TAttParticle("Xi(1530)0 bar","B049",
1.5318,kFALSE, 9.10000E-03,
0.0,"Baryon", -3324);
new TAttParticle("Omega-","S024",
1.67245,kFALSE, 8.01000E-15,
-1.,"Baryon", 3334);
new TAttParticle("Omega+ bar","S024",
1.67245,kFALSE, 8.01000E-15,
+1.,"Baryon", -3334);
new TAttParticle("Sigma(c)(2455)0","B104",
2.4524,kTRUE, .0,
0.0,"Baryon", 4112);
new TAttParticle("Sigma(c)(2455)0 bar","B104",
2.4524,kTRUE, .0,
0.0,"Baryon", -4112);
new TAttParticle("Lambda(c)+","S033",
2.2849,kFALSE, 3.29000E-12,
+1.,"Baryon", 4122);
new TAttParticle("Lambda(c)- bar","S033",
2.2849,kFALSE, 3.29000E-12,
-1.,"Baryon", -4122);
new TAttParticle("Sigma(c)(2455)+","B104",
2.4538,kTRUE, .0,
+1.,"Baryon", 4212);
new TAttParticle("Sigma(c)(2455)- bar","B104",
2.4538,kTRUE, .0,
-1.,"Baryon", -4212);
new TAttParticle("Sigma(c)(2455)++","B104",
2.4531,kTRUE, .0,
+2.,"Baryon", 4222);
new TAttParticle("Sigma(c)(2455)-- bar","B104",
2.4531,kTRUE, .0,
-2.,"Baryon", -4222);
new TAttParticle("Xi(c)0","S048",
2.4703,kFALSE, 6.70000E-12,
0.0,"Baryon", 4312);
new TAttParticle("Xi(c)0 bar","S048",
2.4703,kFALSE, 6.70000E-12,
0.0,"Baryon", -4312);
new TAttParticle("Xi(c)+","S045",
2.4651,kFALSE, 1.86000E-12,
+1.,"Baryon", 4322);
new TAttParticle("Xi(c)- bar","S045",
2.4651,kFALSE, 1.86000E-12,
-1.,"Baryon", -4322);
new TAttParticle("Lambda(b)0","S040",
5.64,kFALSE, 6.20000E-13,
0.0,"Baryon", 5122);
new TAttParticle("Lambda(b)0 bar","S040",
5.64,kFALSE, 6.20000E-13,
0.0,"Baryon", -5122);
new TAttParticle("a(0)(980)0","M036",
.9824,kTRUE, .0,
0.0,"Meson", 10111);
new TAttParticle("b(1)(1235)0","M011",
1.231,kFALSE, .142,
0.0,"Meson", 10113);
new TAttParticle("pi(2)(1670)0","M034",
1.67,kFALSE, .2399999,
0.0,"Meson", 10115);
new TAttParticle("a(0)(980)+","M036",
.9834,kTRUE, .0,
1.,"Meson", 10211);
new TAttParticle("a(0)(980)-","M036",
.9834,kTRUE, .0,
-1.,"Meson", -10211);
new TAttParticle("b(1)(1235)+","M011",
1.2295,kFALSE, .142,
1.,"Meson", 10213);
new TAttParticle("b(1)(1235)-","M011",
1.2295,kFALSE, .142,
-1.,"Meson", -10213);
new TAttParticle("pi(2)(1670)+","M034",
1.67,kFALSE, .2399999,
1.,"Meson", 10215);
new TAttParticle("pi(2)(1670)-","M034",
1.67,kFALSE, .2399999,
-1.,"Meson", -10215);
new TAttParticle("f(0)(980)0","M003",
.98,kTRUE, .0,
0.0,"Meson", 10221);
new TAttParticle("h(1)(1170)0","M030",
1.17,kFALSE, .36,
0.0,"Meson", 10223);
new TAttParticle("K(0)*(1430)0","M019",
1.429,kFALSE, .287,
0.0,"Meson", 10311);
new TAttParticle("K(0)*(1430)0 bar","M019",
1.429,kFALSE, .287,
0.0,"Meson", -10311);
new TAttParticle("K(1)(1270)0","M028",
1.272,kFALSE, 9.00000E-02,
0.0,"Meson", 10313);
new TAttParticle("K(1)(1270)0 bar","M028",
1.272,kFALSE, 9.00000E-02,
0.0,"Meson", -10313);
new TAttParticle("K(2)(1770)0","M023",
1.773,kFALSE, .186,
0.0,"Meson", 10315);
new TAttParticle("K(2)(1770)0 bar","M023",
1.773,kFALSE, .186,
0.0,"Meson", -10315);
new TAttParticle("K(0)*(1430)+","M019",
1.429,kFALSE, .287,
1.,"Meson", 10321);
new TAttParticle("K(0)*(1430)-","M019",
1.429,kFALSE, .287,
-1.,"Meson", -10321);
new TAttParticle("K(1)(1270)+","M028",
1.272,kFALSE, 9.00000E-02,
1.,"Meson", 10323);
new TAttParticle("K(1)(1270)-","M028",
1.272,kFALSE, 9.00000E-02,
-1.,"Meson", -10323);
new TAttParticle("K(2)(1770)+","M023",
1.773,kFALSE, .186,
1.,"Meson", 10325);
new TAttParticle("K(2)(1770)-","M023",
1.773,kFALSE, .186,
-1.,"Meson", -10325);
new TAttParticle("phi(1680)0","M067",
1.68,kFALSE, .15,
0.0,"Meson", 10333);
new TAttParticle("D(1)(2420)0","M097",
2.4228,kFALSE, 1.80000E-02,
0.0,"Meson", 10423);
new TAttParticle("D(s1)(2536)+","M121",
2.53535,kTRUE, .0,
1.,"Meson", 10433);
new TAttParticle("D(s1)(2536)-","M121",
2.53535,kTRUE, .0,
-1.,"Meson", -10433);
new TAttParticle("chi(c0)(1P)0","M056",
3.4151,kFALSE, 1.40000E-02,
0.0,"Meson", 10441);
new TAttParticle("chi(c1)(1P)0","M055",
3.51053,kFALSE, 8.80000E-04,
0.0,"Meson", 10443);
new TAttParticle("chi(b0)(2P)0","M079",
10.23209,kTRUE, .0,
0.0,"Meson", 10551);
new TAttParticle("chi(b1)(1P)0","M077",
9.8919,kTRUE, .0,
0.0,"Meson", 10553);
new TAttParticle("chi(b2)(2P)0","M081",
10.2685,kTRUE, .0,
0.0,"Meson", 10555);
new TAttParticle("Delta(1900)-","B030",
1.9,kFALSE, .2,
-1.,"Baryon", 11112);
new TAttParticle("Delta(1900)+ bar","B030",
1.9,kFALSE, .2,
+1.,"Baryon", -11112);
new TAttParticle("Delta(1700)-","B010",
1.7,kFALSE, .3,
-1.,"Baryon", 11114);
new TAttParticle("Delta(1700)+ bar","B010",
1.7,kFALSE, .3,
+1.,"Baryon", -11114);
new TAttParticle("Delta(1930)-","B013",
1.93,kFALSE, .3499999,
-1.,"Baryon", 11116);
new TAttParticle("Delta(1930)+ bar","B013",
1.93,kFALSE, .3499999,
+1.,"Baryon", -11116);
new TAttParticle("Delta(1900)0","B030",
1.9,kFALSE, .2,
0.0,"Baryon", 11212);
new TAttParticle("Delta(1900)0 bar","B030",
1.9,kFALSE, .2,
0.0,"Baryon", -11212);
new TAttParticle("Delta(1930)0","B013",
1.93,kFALSE, .3499999,
0.0,"Baryon", 11216);
new TAttParticle("Delta(1930)0 bar","B013",
1.93,kFALSE, .3499999,
0.0,"Baryon", -11216);
new TAttParticle("N(1440)0","B061",
1.44,kFALSE, .3499999,
0.0,"Baryon", 12112);
new TAttParticle("N(1440)0 bar","B061",
1.44,kFALSE, .3499999,
0.0,"Baryon", -12112);
new TAttParticle("Delta(1700)0","B010",
1.7,kFALSE, .3,
0.0,"Baryon", 12114);
new TAttParticle("Delta(1700)0 bar","B010",
1.7,kFALSE, .3,
0.0,"Baryon", -12114);
new TAttParticle("N(1680)0","B065",
1.68,kFALSE, .1299999,
0.0,"Baryon", 12116);
new TAttParticle("N(1680)0 bar","B065",
1.68,kFALSE, .1299999,
0.0,"Baryon", -12116);
new TAttParticle("Delta(1900)+","B030",
1.9,kFALSE, .2,
+1.,"Baryon", 12122);
new TAttParticle("Delta(1900)- bar","B030",
1.9,kFALSE, .2,
-1.,"Baryon", -12122);
new TAttParticle("Delta(1930)+","B013",
1.93,kFALSE, .3499999,
+1.,"Baryon", 12126);
new TAttParticle("Delta(1930)- bar","B013",
1.93,kFALSE, .3499999,
-1.,"Baryon", -12126);
new TAttParticle("N(1440)+","B061",
1.44,kFALSE, .3499999,
+1.,"Baryon", 12212);
new TAttParticle("N(1440)- bar","B061",
1.44,kFALSE, .3499999,
-1.,"Baryon", -12212);
new TAttParticle("Delta(1700)+","B010",
1.7,kFALSE, .3,
+1.,"Baryon", 12214);
new TAttParticle("Delta(1700)- bar","B010",
1.7,kFALSE, .3,
-1.,"Baryon", -12214);
new TAttParticle("N(1680)+","B065",
1.68,kFALSE, .1299999,
+1.,"Baryon", 12216);
new TAttParticle("N(1680)- bar","B065",
1.68,kFALSE, .1299999,
-1.,"Baryon", -12216);
new TAttParticle("Delta(1900)++","B030",
1.9,kFALSE, .2,
+2.,"Baryon", 12222);
new TAttParticle("Delta(1900)-- bar","B030",
1.9,kFALSE, .2,
-2.,"Baryon", -12222);
new TAttParticle("Delta(1700)++","B010",
1.7,kFALSE, .3,
+2.,"Baryon", 12224);
new TAttParticle("Delta(1700)-- bar","B010",
1.7,kFALSE, .3,
-2.,"Baryon", -12224);
new TAttParticle("Delta(1930)++","B013",
1.93,kFALSE, .3499999,
+2.,"Baryon", 12226);
new TAttParticle("Delta(1930)-- bar","B013",
1.93,kFALSE, .3499999,
-2.,"Baryon", -12226);
new TAttParticle("Sigma(1660)-","B079",
1.66,kFALSE, .1,
-1.,"Baryon", 13112);
new TAttParticle("Sigma(1660)+ bar","B079",
1.66,kFALSE, .1,
+1.,"Baryon", -13112);
new TAttParticle("Sigma(1670)-","B051",
1.67,kFALSE, 6.00000E-02,
-1.,"Baryon", 13114);
new TAttParticle("Sigma(1670)+ bar","B051",
1.67,kFALSE, 6.00000E-02,
+1.,"Baryon", -13114);
new TAttParticle("Sigma(1915)-","B046",
1.915,kFALSE, .1199999,
-1.,"Baryon", 13116);
new TAttParticle("Sigma(1915)+ bar","B046",
1.915,kFALSE, .1199999,
+1.,"Baryon", -13116);
new TAttParticle("Lambda(1405)0","B037",
1.407,kFALSE, 5.00000E-02,
0.0,"Baryon", 13122);
new TAttParticle("Lambda(1405)0 bar","B037",
1.407,kFALSE, 5.00000E-02,
0.0,"Baryon", -13122);
new TAttParticle("Lambda(1690)0","B055",
1.69,kFALSE, 6.00000E-02,
0.0,"Baryon", 13124);
new TAttParticle("Lambda(1690)0 bar","B055",
1.69,kFALSE, 6.00000E-02,
0.0,"Baryon", -13124);
new TAttParticle("Lambda(1830)0","B056",
1.83,kFALSE, 9.50000E-02,
0.0,"Baryon", 13126);
new TAttParticle("Lambda(1830)0 bar","B056",
1.83,kFALSE, 9.50000E-02,
0.0,"Baryon", -13126);
new TAttParticle("Sigma(1660)0","B079",
1.66,kFALSE, .1,
0.0,"Baryon", 13212);
new TAttParticle("Sigma(1660)0 bar","B079",
1.66,kFALSE, .1,
0.0,"Baryon", -13212);
new TAttParticle("Sigma(1670)0","B051",
1.67,kFALSE, 6.00000E-02,
0.0,"Baryon", 13214);
new TAttParticle("Sigma(1670)0 bar","B051",
1.67,kFALSE, 6.00000E-02,
0.0,"Baryon", -13214);
new TAttParticle("Sigma(1915)0","B046",
1.915,kFALSE, .1199999,
0.0,"Baryon", 13216);
new TAttParticle("Sigma(1915)0 bar","B046",
1.915,kFALSE, .1199999,
0.0,"Baryon", -13216);
new TAttParticle("Sigma(1660)+","B079",
1.66,kFALSE, .1,
+1.,"Baryon", 13222);
new TAttParticle("Sigma(1660)- bar","B079",
1.66,kFALSE, .1,
-1.,"Baryon", -13222);
new TAttParticle("Sigma(1670)+","B051",
1.67,kFALSE, 6.00000E-02,
+1.,"Baryon", 13224);
new TAttParticle("Sigma(1670)- bar","B051",
1.67,kFALSE, 6.00000E-02,
-1.,"Baryon", -13224);
new TAttParticle("Sigma(1915)+","B046",
1.915,kFALSE, .1199999,
+1.,"Baryon", 13226);
new TAttParticle("Sigma(1915)- bar","B046",
1.915,kFALSE, .1199999,
-1.,"Baryon", -13226);
new TAttParticle("Xi(1820)-","B050",
1.823,kFALSE, 2.40000E-02,
-1.,"Baryon", 13314);
new TAttParticle("Xi(1820)+ bar","B050",
1.823,kFALSE, 2.40000E-02,
+1.,"Baryon", -13314);
new TAttParticle("Xi(1820)0","B050",
1.823,kFALSE, 2.40000E-02,
0.0,"Baryon", 13324);
new TAttParticle("Xi(1820)0 bar","B050",
1.823,kFALSE, 2.40000E-02,
0.0,"Baryon", -13324);
new TAttParticle("pi(1300)0","M058",
1.3,kTRUE, .4,
0.0,"Meson", 20111);
new TAttParticle("a(1)(1260)0","M010",
1.23,kTRUE, .4,
0.0,"Meson", 20113);
new TAttParticle("pi(1300)+","M058",
1.3,kTRUE, .4,
1.,"Meson", 20211);
new TAttParticle("pi(1300)-","M058",
1.3,kTRUE, .4,
-1.,"Meson", -20211);
new TAttParticle("a(1)(1260)+","M010",
1.23,kTRUE, .4,
1.,"Meson", 20213);
new TAttParticle("a(1)(1260)-","M010",
1.23,kTRUE, .4,
-1.,"Meson", -20213);
new TAttParticle("eta(1295)0","M037",
1.297,kFALSE, 5.30000E-02,
0.0,"Meson", 20221);
new TAttParticle("f(1)(1285)0","M008",
1.282,kFALSE, 2.40000E-02,
0.0,"Meson", 20223);
new TAttParticle("f(2)(2010)0","M106",
2.01,kFALSE, .2,
0.0,"Meson", 20225);
new TAttParticle("K(1)(1400)0","M064",
1.402,kFALSE, .1739999,
0.0,"Meson", 20313);
new TAttParticle("K(1)(1400)0 bar","M064",
1.402,kFALSE, .1739999,
0.0,"Meson", -20313);
new TAttParticle("K(2)(1820)0","M146",
1.816,kFALSE, .2759999,
0.0,"Meson", 20315);
new TAttParticle("K(2)(1820)0 bar","M146",
1.816,kFALSE, .2759999,
0.0,"Meson", -20315);
new TAttParticle("K(1)(1400)+","M064",
1.402,kFALSE, .1739999,
1.,"Meson", 20323);
new TAttParticle("K(1)(1400)-","M064",
1.402,kFALSE, .1739999,
-1.,"Meson", -20323);
new TAttParticle("K(2)(1820)+","M146",
1.816,kFALSE, .2759999,
1.,"Meson", 20325);
new TAttParticle("K(2)(1820)-","M146",
1.816,kFALSE, .2759999,
-1.,"Meson", -20325);
new TAttParticle("psi(2S)0","M071",
3.686,kFALSE, 2.77000E-04,
0.0,"Meson", 20443);
new TAttParticle("Upsilon(2S)0","M052",
10.0233,kFALSE, 4.40000E-05,
0.0,"Meson", 20553);
new TAttParticle("Delta(1910)-","B012",
1.91,kFALSE, .25,
-1.,"Baryon", 21112);
new TAttParticle("Delta(1910)+ bar","B012",
1.91,kFALSE, .25,
+1.,"Baryon", -21112);
new TAttParticle("Delta(1920)-","B117",
1.92,kFALSE, .2,
-1.,"Baryon", 21114);
new TAttParticle("Delta(1920)+ bar","B117",
1.92,kFALSE, .2,
+1.,"Baryon", -21114);
new TAttParticle("Delta(1910)0","B012",
1.91,kFALSE, .25,
0.0,"Baryon", 21212);
new TAttParticle("Delta(1910)0 bar","B012",
1.91,kFALSE, .25,
0.0,"Baryon", -21212);
new TAttParticle("N(1700)0","B018",
1.7,kFALSE, .1,
0.0,"Baryon", 21214);
new TAttParticle("N(1700)0 bar","B018",
1.7,kFALSE, .1,
0.0,"Baryon", -21214);
new TAttParticle("N(1535)0","B063",
1.535,kFALSE, .15,
0.0,"Baryon", 22112);
new TAttParticle("N(1535)0 bar","B063",
1.535,kFALSE, .15,
0.0,"Baryon", -22112);
new TAttParticle("Delta(1920)0","B117",
1.92,kFALSE, .2,
0.0,"Baryon", 22114);
new TAttParticle("Delta(1920)0 bar","B117",
1.92,kFALSE, .2,
0.0,"Baryon", -22114);
new TAttParticle("Delta(1910)+","B012",
1.91,kFALSE, .25,
+1.,"Baryon", 22122);
new TAttParticle("Delta(1910)- bar","B012",
1.91,kFALSE, .25,
-1.,"Baryon", -22122);
new TAttParticle("N(1700)+","B018",
1.7,kFALSE, .1,
+1.,"Baryon", 22124);
new TAttParticle("N(1700)- bar","B018",
1.7,kFALSE, .1,
-1.,"Baryon", -22124);
new TAttParticle("N(1535)+","B063",
1.535,kFALSE, .15,
+1.,"Baryon", 22212);
new TAttParticle("N(1535)- bar","B063",
1.535,kFALSE, .15,
-1.,"Baryon", -22212);
new TAttParticle("Delta(1920)+","B117",
1.92,kFALSE, .2,
+1.,"Baryon", 22214);
new TAttParticle("Delta(1920)- bar","B117",
1.92,kFALSE, .2,
-1.,"Baryon", -22214);
new TAttParticle("Delta(1910)++","B012",
1.91,kFALSE, .25,
+2.,"Baryon", 22222);
new TAttParticle("Delta(1910)-- bar","B012",
1.91,kFALSE, .25,
-2.,"Baryon", -22222);
new TAttParticle("Delta(1920)++","B117",
1.92,kFALSE, .2,
+2.,"Baryon", 22224);
new TAttParticle("Delta(1920)-- bar","B117",
1.92,kFALSE, .2,
-2.,"Baryon", -22224);
new TAttParticle("Sigma(1750)-","B057",
1.75,kFALSE, 9.00000E-02,
-1.,"Baryon", 23112);
new TAttParticle("Sigma(1750)+ bar","B057",
1.75,kFALSE, 9.00000E-02,
+1.,"Baryon", -23112);
new TAttParticle("Sigma(1940)-","B098",
1.94,kFALSE, .2199999,
-1.,"Baryon", 23114);
new TAttParticle("Sigma(1940)+ bar","B098",
1.94,kFALSE, .2199999,
+1.,"Baryon", -23114);
new TAttParticle("Lambda(1600)0","B101",
1.6,kFALSE, .15,
0.0,"Baryon", 23122);
new TAttParticle("Lambda(1600)0 bar","B101",
1.6,kFALSE, .15,
0.0,"Baryon", -23122);
new TAttParticle("Lambda(1890)0","B060",
1.89,kFALSE, .1,
0.0,"Baryon", 23124);
new TAttParticle("Lambda(1890)0 bar","B060",
1.89,kFALSE, .1,
0.0,"Baryon", -23124);
new TAttParticle("Lambda(2110)0","B035",
2.11,kFALSE, .2,
0.0,"Baryon", 23126);
new TAttParticle("Lambda(2110)0 bar","B035",
2.11,kFALSE, .2,
0.0,"Baryon", -23126);
new TAttParticle("Sigma(1750)0","B057",
1.75,kFALSE, 9.00000E-02,
0.0,"Baryon", 23212);
new TAttParticle("Sigma(1750)0 bar","B057",
1.75,kFALSE, 9.00000E-02,
0.0,"Baryon", -23212);
new TAttParticle("Sigma(1940)0","B098",
1.94,kFALSE, .2199999,
0.0,"Baryon", 23214);
new TAttParticle("Sigma(1940)0 bar","B098",
1.94,kFALSE, .2199999,
0.0,"Baryon", -23214);
new TAttParticle("Sigma(1750)+","B057",
1.75,kFALSE, 9.00000E-02,
+1.,"Baryon", 23222);
new TAttParticle("Sigma(1750)- bar","B057",
1.75,kFALSE, 9.00000E-02,
-1.,"Baryon", -23222);
new TAttParticle("Sigma(1940)+","B098",
1.94,kFALSE, .2199999,
+1.,"Baryon", 23224);
new TAttParticle("Sigma(1940)- bar","B098",
1.94,kFALSE, .2199999,
-1.,"Baryon", -23224);
new TAttParticle("rho(1700)0","M065",
1.7,kFALSE, .24,
0.0,"Meson", 30113);
new TAttParticle("rho(1700)+","M065",
1.7,kFALSE, .24,
1.,"Meson", 30213);
new TAttParticle("rho(1700)-","M065",
1.7,kFALSE, .24,
-1.,"Meson", -30213);
new TAttParticle("f(1)(1420)0","M006",
1.4268,kFALSE, 5.20000E-02,
0.0,"Meson", 30223);
new TAttParticle("f(2)(2300)0","M107",
2.297,kFALSE, .15,
0.0,"Meson", 30225);
new TAttParticle("K*(1410)0","M094",
1.412,kFALSE, .2269999,
0.0,"Meson", 30313);
new TAttParticle("K*(1410)0 bar","M094",
1.412,kFALSE, .2269999,
0.0,"Meson", -30313);
new TAttParticle("K*(1410)+","M094",
1.412,kFALSE, .2269999,
1.,"Meson", 30323);
new TAttParticle("K*(1410)-","M094",
1.412,kFALSE, .2269999,
-1.,"Meson", -30323);
new TAttParticle("psi(3770)0","M053",
3.7699,kFALSE, 2.36000E-02,
0.0,"Meson", 30443);
new TAttParticle("Upsilon(3S)0","M048",
10.35529,kFALSE, 2.63000E-05,
0.0,"Meson", 30553);
new TAttParticle("Delta(1600)-","B019",
1.6,kFALSE, .3499999,
-1.,"Baryon", 31114);
new TAttParticle("Delta(1600)+ bar","B019",
1.6,kFALSE, .3499999,
+1.,"Baryon", -31114);
new TAttParticle("N(1720)0","B015",
1.72,kFALSE, .15,
0.0,"Baryon", 31214);
new TAttParticle("N(1720)0 bar","B015",
1.72,kFALSE, .15,
0.0,"Baryon", -31214);
new TAttParticle("N(1650)0","B066",
1.65,kFALSE, .15,
0.0,"Baryon", 32112);
new TAttParticle("N(1650)0 bar","B066",
1.65,kFALSE, .15,
0.0,"Baryon", -32112);
new TAttParticle("Delta(1600)0","B019",
1.6,kFALSE, .3499999,
0.0,"Baryon", 32114);
new TAttParticle("Delta(1600)0 bar","B019",
1.6,kFALSE, .3499999,
0.0,"Baryon", -32114);
new TAttParticle("N(1720)+","B015",
1.72,kFALSE, .15,
+1.,"Baryon", 32124);
new TAttParticle("N(1720)- bar","B015",
1.72,kFALSE, .15,
-1.,"Baryon", -32124);
new TAttParticle("N(1650)+","B066",
1.65,kFALSE, .15,
+1.,"Baryon", 32212);
new TAttParticle("N(1650)- bar","B066",
1.65,kFALSE, .15,
-1.,"Baryon", -32212);
new TAttParticle("Delta(1600)+","B019",
1.6,kFALSE, .3499999,
+1.,"Baryon", 32214);
new TAttParticle("Delta(1600)- bar","B019",
1.6,kFALSE, .3499999,
-1.,"Baryon", -32214);
new TAttParticle("Delta(1600)++","B019",
1.6,kFALSE, .3499999,
+2.,"Baryon", 32224);
new TAttParticle("Delta(1600)-- bar","B019",
1.6,kFALSE, .3499999,
-2.,"Baryon", -32224);
new TAttParticle("Lambda(1670)0","B040",
1.67,kFALSE, 3.50000E-02,
0.0,"Baryon", 33122);
new TAttParticle("Lambda(1670)0 bar","B040",
1.67,kFALSE, 3.50000E-02,
0.0,"Baryon", -33122);
new TAttParticle("rho(1450)0","M105",
1.465,kFALSE, .31,
0.0,"Meson", 40113);
new TAttParticle("rho(1450)+","M105",
1.465,kFALSE, .31,
1.,"Meson", 40213);
new TAttParticle("rho(1450)-","M105",
1.465,kFALSE, .31,
-1.,"Meson", -40213);
new TAttParticle("eta(1440)0","M027",
1.42,kFALSE, 6.00000E-02,
0.0,"Meson", 40221);
new TAttParticle("f(1)(1510)0","M084",
1.512,kFALSE, 3.50000E-02,
0.0,"Meson", 40223);
new TAttParticle("f(2)(2340)0","M108",
2.34,kFALSE, .3199999,
0.0,"Meson", 40225);
new TAttParticle("K*(1680)0","M095",
1.714,kFALSE, .3199999,
0.0,"Meson", 40313);
new TAttParticle("K*(1680)0 bar","M095",
1.714,kFALSE, .3199999,
0.0,"Meson", -40313);
new TAttParticle("K*(1680)+","M095",
1.714,kFALSE, .3199999,
1.,"Meson", 40323);
new TAttParticle("K*(1680)-","M095",
1.714,kFALSE, .3199999,
-1.,"Meson", -40323);
new TAttParticle("psi(4040)0","M072",
4.04,kFALSE, 5.20000E-02,
0.0,"Meson", 40443);
new TAttParticle("Upsilon(4S)0","M047",
10.57999,kFALSE, 2.38000E-02,
0.0,"Meson", 40553);
new TAttParticle("N(1710)0","B014",
1.71,kFALSE, .1,
0.0,"Baryon", 42112);
new TAttParticle("N(1710)0 bar","B014",
1.71,kFALSE, .1,
0.0,"Baryon", -42112);
new TAttParticle("N(1710)+","B014",
1.71,kFALSE, .1,
+1.,"Baryon", 42212);
new TAttParticle("N(1710)- bar","B014",
1.71,kFALSE, .1,
-1.,"Baryon", -42212);
new TAttParticle("Lambda(1800)0","B036",
1.8,kFALSE, .3,
0.0,"Baryon", 43122);
new TAttParticle("Lambda(1800)0 bar","B036",
1.8,kFALSE, .3,
0.0,"Baryon", -43122);
new TAttParticle("f(0)(1590)0","M096",
1.581,kFALSE, .18,
0.0,"Meson", 50221);
new TAttParticle("omega(1420)0","M125",
1.419,kFALSE, .17,
0.0,"Meson", 50223);
new TAttParticle("psi(4160)0","M025",
4.159,kFALSE, 7.80000E-02,
0.0,"Meson", 50443);
new TAttParticle("Upsilon(10860)0","M092",
10.86499,kFALSE, .1099999,
0.0,"Meson", 50553);
new TAttParticle("Lambda(1810)0","B077",
1.81,kFALSE, .15,
0.0,"Baryon", 53122);
new TAttParticle("Lambda(1810)0 bar","B077",
1.81,kFALSE, .15,
0.0,"Baryon", -53122);
new TAttParticle("f(J)(1710)0","M068",
1.709,kFALSE, .14,
0.0,"Meson", 60221);
new TAttParticle("omega(1600)0","M126",
1.662,kFALSE, .28,
0.0,"Meson", 60223);
new TAttParticle("psi(4415)0","M073",
4.415,kFALSE, 4.30000E-02,
0.0,"Meson", 60443);
new TAttParticle("Upsilon(11020)0","M093",
11.019,kFALSE, 7.90000E-02,
0.0,"Meson", 60553);
new TAttParticle("chi(b1)(2P)0","M080",
10.2552,kTRUE, .0,
0.0,"Meson", 70553);
// End of the entry point of the pdg table conversion
new TAttParticle("Rootino","",
0.0,kTRUE,
1.e38,0.0,"Artificial",0);
}
//______________________________________________________________________________
TAttParticle* TAttParticle::GetParticle(const char *name)
{
//
// Get a pointer to the particle object according to the name given
//
TAttParticle *def = (TAttParticle *)fgList->FindObject(name);
if (!def) {
fgList->Error("GetParticle","No match for %s exists !",name);
}
return def;
}
//______________________________________________________________________________
TAttParticle* TAttParticle::GetParticle(Int_t mcnumber)
{
//
// Get a pointer to the particle object according to the MC code number
//
TIter next(fgList);
TAttParticle *par;
while ((par = (TAttParticle *)next())) {
if (par->GetMCNumber() == mcnumber) return par;
}
fgList->Error("GetParticle","No match for %d exists !",mcnumber);
return 0;
}
//______________________________________________________________________________
void TAttParticle::Print(Option_t *)
{
//
// Print the entire information of this kind of particle
//
Printf("");
Printf("Particle: %-15s ",
this->GetName());
if (!fPDGStable) {
Printf("Mass: %8f DecayWidth: %8f Charge : %8f",
fPDGMass, fPDGDecayWidth, fPDGCharge);
}
else {
Printf("Mass: %8f DecayWidth: Stable Charge : %8f",
fPDGMass, fPDGCharge);
}
Printf("");
}
//______________________________________________________________________________
Double_t TAttParticle::SampleMass()
{
//
// Samples a mass according to the Breit-Wigner resonance distribution
//
if ( fPDGStable || fPDGDecayWidth == 0.0 )
return fPDGMass;
else {
return (fPDGMass+
0.5*fPDGDecayWidth*
TMath::Tan((2.0*gRandom->Rndm()-1.0)*TMath::Pi()*0.5));
}
}
//______________________________________________________________________________
Double_t TAttParticle::SampleMass(Double_t widthcut)
{
//
// Samples a mass in the interval:
//
// fPDGMass-widthcut*fPDGDecayWidtht - fPDGMass+widthcut*fPDGDecayWidth
//
// according to the Breit-Wigner resonance distribution
//
if ( fPDGStable || fPDGDecayWidth == 0.0 )
return fPDGMass;
else {
return (fPDGMass+
0.5*fPDGDecayWidth*
TMath::Tan((2.0*gRandom->Rndm(0)-1.0)*TMath::ATan(2.0*widthcut)));
}
}
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