#Define the B0B0bar mass difference Define dm 0.489e12 Define dgamma 0 Define qoverp 1 Define phaseqoverp 0 # define the values of the CKM angles (alpha=70, beta=40) Define alpha 1.365 Define beta 0.39 Define gamma 1.387 Define twoBetaPlusGamma 2.167 Define betaPlusHalfGamma 1.0835 Define minusGamma -1.387 Define minusTwoBeta -0.78 # New definitions for psiKstar modes (Lange, July 26, 2000) Define PKHplus 0.159 Define PKHzero 0.775 Define PKHminus 0.612 Define PKphHplus 1.563 Define PKphHzero 0.0 Define PKphHminus 2.712 Define Aplus 0.490 Define Azero 1.10 Define Aminus 0.4 # Define phAplus 2.5 Define phAzero 0.0 Define phAminus -0.17 ### These are for incoherent B_s and B_d mixing Define qoverp_incohMix_B_s0 1.0 Define dm_incohMix_B_s0 20.0e12 Define qoverp_incohMix_B0 1.0 Define dm_incohMix_B0 0.489e12 # # These particle aliases are used in for CP violating decays # in which the decay distributions depends on how the K* decayed. # # Alias K*L K*0 Alias K*S K*0 Alias K*BL anti-K*0 Alias K*BS anti-K*0 Alias K*0T K*0 Alias anti-K*0T anti-K*0 Alias K*BR anti-K*0 Alias K*0R K*0 Alias anti-K_0*0N anti-K_0*0 Alias K_0*0N K_0*0 # ChargeConj K*L K*BL ChargeConj K*S K*BS ChargeConj K*0T anti-K*0T ChargeConj K_0*0N anti-K_0*0N ChargeConj K*0R K*BR # #JetSet parameter modifications # # O.Long : March 30, 2000 # Change from using Peterson fragmentation to Lund fragmentation # with the default parameters (A=0.30, B=0.58) # #(Very important that there are no blank spaces in the parameter string!) # To ensure reproducibiilty, don't cache radiative cross sections: JetSetPar MSTJ(116)=2 # Number of flavor produced. 5 = udscb production JetSetPar MSTJ(104)=5 # turn on initial state radiation (was off before) JetSetPar MSTJ(107)=1 #use Lund fragmentation with default parameters JetSetPar MSTJ(11)=4 # Lund symmetric fragmentation function parameter a JetSetPar PARJ(41)=.30 # Lund symmetric fragmentation function parameter b JetSetPar PARJ(42)=.58 # Lund symmetric fragmentation function parameter a JetSetPar PARJ(43)=.50 # Lund symmetric fragmentation function parameter b JetSetPar PARJ(44)=.90 #eps_c from CLEO 8/97 JetSetPar PARJ(54)=-.040 # eps_b JetSetPar PARJ(55)=-.004 #Turn of B0-B0B mixing in JetSet: JetSetPar MSTJ(26)=0 # D* production - Lange July 19, 2002 JetSetPar PARJ(13)=0.45 # eta' # lange - change eta' production to agree better with udsc results # from charmless group JetSetPar PARJ(26)=0.15 # lange - change eta production to agree better with udsc results # from charmless group JetSetPar PARJ(25)=1.0 # P(ssbar)/P(uubar) - has a big effect on phis. Turn down to # reduce phi production in continuum. #JetSetPar PARJ(2)=0.25 JetSetPar PARJ(12)=0.2 JetSetPar PARJ(11)=0.4 #JetSetPar PARJ(1)=0.02 # control of L=1 mesons (in order: J1S0 J0S1 J1S1 J2S1 JetSetPar PARJ(14)=0.05 JetSetPar PARJ(15)=0.05 JetSetPar PARJ(16)=0.05 JetSetPar PARJ(17)=0.05 #cut-off parameter used to stop fragmentation process (was .4, CLEO uses.3) JetSetPar PARJ(33)=0.3 # ### Parameters below are a new tuning of the continuum ### fragmentation that softens the pion spectrum ### but commented out untill verified to be physically ### sound. ryd 00-02-10 ### Lund symmetric fragmentation function parameter a ##JetSetPar PARJ(41)=.40 ### Lund symmetric fragmentation function parameter b ##JetSetPar PARJ(42)=.29 ### Lund symmetric fragmentation function parameter a ##JetSetPar PARJ(43)=.60 ### Lund symmetric fragmentation function parameter b ##JetSetPar PARJ(44)=.45 ###eps_c from CLEO 8/97 ##JetSetPar PARJ(54)=-.040 ##JetSetPar PARJ(46)=0.0 ##JetSetPar PARJ(33)=0.2 ###End of new continuum tuning # #pythia stuff for standalone generation # no isr JetSetPar MSTP(11)=0 # take the qqbar energy from EvtGen JetSetPar MSTP(171)=1 JetSetPar MSTP(172)=1 # Turn on PHOTOS for all decays # Lange Aug19,2002 yesPhotos # # Decay vpho 1.000 JSCONT 0; Enddecay # # use new VSS_BMIX mixing decay model (DK,28-Oct-1999) Decay Upsilon(4S) 0.50000 B+ B- VSS; 0.49913 B0 anti-B0 VSS_BMIX dm; 0.00000 Upsilon(2S) pi+ pi- PHSP; 0.00000 Upsilon(2S) pi0 pi0 PHSP; # V-> gamma S Partial wave (L,S)=(0,0) 0.00007 gamma chi_b0(3P) HELAMP 1. 0. 1. 0.; # V-> gamma V Partial wave (L,S)=(0,1) 0.00014 gamma chi_b1(3P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma T Partial wave (L,S)=(0,1) 0.00014 gamma chi_b2(3P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; 0.00050 g g g JETSET 4; 0.00002 gamma g g JETSET 4; Enddecay # # # Decay anti-B0 # b -> c semileptonic # 0.0560 D*+ e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; 0.0210 D+ e- anti-nu_e PHOTOS ISGW2; 0.0056 D_1+ e- anti-nu_e PHOTOS ISGW2; 0.0020 D_0*+ e- anti-nu_e PHOTOS ISGW2; 0.0037 D'_1+ e- anti-nu_e PHOTOS ISGW2; 0.0037 D_2*+ e- anti-nu_e PHOTOS ISGW2; 0.0010 D*+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; 0.0020 D*0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; 0.0030 D+ pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; 0.0060 D0 pi+ e- anti-nu_e PHOTOS GOITY_ROBERTS; 0.0560 D*+ mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; 0.0210 D+ mu- anti-nu_mu PHOTOS ISGW2; 0.0056 D_1+ mu- anti-nu_mu PHOTOS ISGW2; 0.0020 D_0*+ mu- anti-nu_mu PHOTOS ISGW2; 0.0037 D'_1+ mu- anti-nu_mu PHOTOS ISGW2; 0.0037 D_2*+ mu- anti-nu_mu PHOTOS ISGW2; 0.0010 D*+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; 0.0020 D*0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; 0.0030 D+ pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; 0.0060 D0 pi+ mu- anti-nu_mu PHOTOS GOITY_ROBERTS; # # b -> c tau nu # 0.0160 D*+ tau- anti-nu_tau ISGW2; 0.0070 D+ tau- anti-nu_tau ISGW2; 0.0013 D_1+ tau- anti-nu_tau ISGW2; 0.0013 D_0*+ tau- anti-nu_tau ISGW2; 0.0020 D'_1+ tau- anti-nu_tau ISGW2; 0.0020 D_2*+ tau- anti-nu_tau ISGW2; # # b -> u l nu # # 03/28/01 S.Menke included inclusive B -> X_u l nu decays for m(X_u) > 1.26 GeV. # with some thresholds to gradually switch from excl. to incl. # modeling without big jumps keeping the better known excl. # Brs at their actual values and constrain the incl. Br and # weights in a way that ~40% of the total BR belongs to # the mass region > 1.5 GeV # 0.000180 pi+ e- anti-nu_e PHOTOS ISGW2; 0.000260 rho+ e- anti-nu_e PHOTOS ISGW2; 0.000165 a_1+ e- anti-nu_e PHOTOS ISGW2; 0.000102 b_1+ e- anti-nu_e PHOTOS ISGW2; 0.000014 a_0+ e- anti-nu_e PHOTOS ISGW2; 0.000014 a_2+ e- anti-nu_e PHOTOS ISGW2; 0.000000 rho(2S)+ e- anti-nu_e PHOTOS ISGW2; 0.000000 D(2S)+ e- anti-nu_e PHOTOS ISGW2; 0.000000 D*(2S)+ e- anti-nu_e PHOTOS ISGW2; 0.001365 Xu+ e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; 0.000180 pi+ mu- anti-nu_mu PHOTOS ISGW2; 0.000260 rho+ mu- anti-nu_mu PHOTOS ISGW2; 0.000165 a_1+ mu- anti-nu_mu PHOTOS ISGW2; 0.000102 b_1+ mu- anti-nu_mu PHOTOS ISGW2; 0.000014 a_0+ mu- anti-nu_mu PHOTOS ISGW2; 0.000014 a_2+ mu- anti-nu_mu PHOTOS ISGW2; 0.000000 rho(2S)+ mu- anti-nu_mu PHOTOS ISGW2; 0.000000 D(2S)+ mu- anti-nu_mu PHOTOS ISGW2; 0.000000 D*(2S)+ mu- anti-nu_mu PHOTOS ISGW2; 0.001365 Xu+ mu- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; # 0.000060 pi+ tau- anti-nu_tau ISGW2; 0.000083 rho+ tau- anti-nu_tau ISGW2; 0.000090 a_1+ tau- anti-nu_tau ISGW2; 0.000008 b_1+ tau- anti-nu_tau ISGW2; 0.000008 a_0+ tau- anti-nu_tau ISGW2; 0.000008 a_2+ tau- anti-nu_tau ISGW2; 0.000000 rho(2S)+ tau- anti-nu_tau ISGW2; 0.000000 D(2S)+ tau- anti-nu_tau ISGW2; 0.000000 D*(2S)+ tau- anti-nu_tau ISGW2; # # # b->u hadronic # Ref. [B1]: # 0.000032 D_s- pi+ PHSP; 0.000032 D_s- K+ PHSP; 0.000032 D_s*- pi+ SVS; 0.000020 D_s*- K+ SVS; # 0.000046 rho+ D_s- SVS; 0.000029 K*+ D_s- SVS; 0.000046 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000029 D_s*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # b -> s gamma # 0.000045 anti-K*0 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000135 anti-K_10 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000065 anti-K'_10 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000128 anti-K'*0 gamma HELAMP 1.0 0.0 1.0 0.0; 0.0000166 anti-K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000017 anti-K''*0 gamma HELAMP 1.0 0.0 1.0 0.0; 0.0002674 anti-Xsd gamma BTOXSGAMMA 2 ; # 0.00000057 anti-K0 e+ e- PHOTOS BTOSLLBALL; 0.0000023 anti-K*0 e+ e- PHOTOS BTOSLLBALL; 0.000004 anti-Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000057 anti-K0 mu+ mu- PHOTOS BTOSLLBALL; 0.0000019 anti-K*0 mu+ mu- PHOTOS BTOSLLBALL; 0.000004 anti-Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000013 anti-K0 tau+ tau- PHOTOS BTOSLLBALL; 0.00000019 anti-K*0 tau+ tau- PHOTOS BTOSLLBALL; 0.0000002 anti-Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; # # B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036 # # (pi0pi0 -> 2x10^-6, Jim Olsen - Mar 27, 2001) # (pipi -> 4.6x10^-6, Adrian Bevan- Sept 6, 2002) # Jim Smith reorganization and conversion to SSD_CP - Nov. 8, 2002 0.0000047 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000002 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; # pi0 rho0 is with the 3-body modes 0.000001 pi0 omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta' rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 a_00 rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 f_0 rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 f_0 omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 f_0 a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 f_0 b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; # Penguin dominated modes are sin2beta, not sin2alpha 0.000005 phi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000005 phi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000001 eta K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000001 eta K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000030 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000030 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000003 omega K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000003 omega K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; #don't allow jetset to simulate the same decay but to a K0 or anti-K0 #Lange 1/30/2003 0.0 phi K0 PHSP; 0.0 phi anti-K0 PHSP; 0.0 eta K0 PHSP; 0.0 eta anti-K0 PHSP; 0.0 eta' K0 PHSP; 0.0 eta' anti-K0 PHSP; 0.0 omega K0 PHSP; 0.0 omega anti-K0 PHSP; # phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'? 0.000001 phi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000001 phi eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000001 phi eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; # 0.000020 anti-K*0 eta SVS; 0.000010 anti-K*0 eta' SVS; 0.000010 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000002 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; # # #2-body modes from Jim Olsen # (K_S0pi0 and K_L0pi0 -> 4x10^-6, Jim Olsen - Mar 27, 2001) # (K-pi+ -> 17.9e-6 Adrian Bevan Sept 6, 2002 - based on ICHEP02 result) # (K-K+ -> 0.3 e-6 Adrian Bevan Sept 6, 2002 - based on ICHEP02 result) 0.000018 K- pi+ PHSP; 0.0000003 K+ K- PHSP; 0.0000005 K_S0 K_S0 PHSP; 0.0000000 K_S0 K_L0 PHSP; 0.0000005 K_L0 K_L0 PHSP; 0.000010 anti-K0 pi0 PHSP; #4-body modes from Andrei Gritsan #--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi -------------------------- 0.000002 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.7 0.0 1.0 0.0; 0.000030 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 1.7 0.0 1.0 0.0; 0.000003 rho0 pi+ pi- PHSP; 0.000003 omega pi+ pi- PHSP; 0.000001 rho0 pi0 pi0 PHSP; 0.000001 omega pi0 pi0 PHSP; 0.0000005 rho0 pi0 eta PHSP; 0.0000002 rho0 eta eta PHSP; 0.0000002 rho0 pi0 eta' PHSP; 0.0000001 rho0 eta eta' PHSP; 0.0000005 omega pi0 eta PHSP; 0.0000002 omega eta eta PHSP; 0.0000002 omega pi0 eta' PHSP; 0.0000001 omega eta eta' PHSP; 0.000010 rho+ pi- pi0 PHSP; 0.000005 rho+ pi- eta PHSP; 0.000010 rho- pi+ pi0 PHSP; 0.000005 rho- pi+ eta PHSP; 0.000010 pi+ pi- pi+ pi- PHSP; 0.000010 pi+ pi- pi0 pi0 PHSP; 0.000005 pi+ pi- eta pi0 PHSP; 0.000002 pi+ pi- eta eta PHSP; 0.000002 pi+ pi- eta' pi0 PHSP; 0.000001 pi+ pi- eta' eta PHSP; 0.000010 a_1+ pi- SVS; 0.000010 a_1- pi+ SVS; ####0402270.000001 rho0 f_0 SVS; ####0402270.000001 rho0 a_00 SVS; 0.000010 rho- a_0+ SVS; 0.000002 rho+ a_0- SVS; 0.000001 f_0 pi+ pi- PHSP; 0.000001 f_0 pi0 pi0 PHSP; 0.000001 a_0- pi+ pi0 PHSP; 0.000001 a_00 pi0 pi0 PHSP; 0.000001 a_0+ pi- pi0 PHSP; #--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K ------------------- 0.000010 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000020 rho+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 pi- pi+ anti-K*0 PHSP; 0.000010 pi+ pi0 K*- PHSP; 0.000005 pi+ eta K*- PHSP; 0.000002 pi+ eta' K*- PHSP; 0.000010 rho+ K- pi0 PHSP; 0.000005 rho+ K- eta PHSP; 0.000002 rho+ K- eta' PHSP; 0.000010 rho+ anti-K0 pi- PHSP; 0.000010 rho- anti-K0 pi+ PHSP; 0.000005 rho0 anti-K0 pi0 PHSP; 0.000002 rho0 anti-K0 eta PHSP; 0.000001 rho0 anti-K0 eta' PHSP; 0.000005 rho0 K- pi+ PHSP; 0.000005 omega anti-K0 pi0 PHSP; 0.000002 omega anti-K0 eta PHSP; 0.000001 omega anti-K0 eta' PHSP; 0.000005 omega K- pi+ PHSP; 0.000010 pi+ pi0 pi- anti-K0 PHSP; 0.000005 pi+ eta pi- anti-K0 PHSP; 0.000010 pi0 pi0 pi0 anti-K0 PHSP; 0.000005 pi0 pi0 eta anti-K0 PHSP; 0.000002 pi0 eta eta anti-K0 PHSP; 0.000002 pi0 pi0 eta' anti-K0 PHSP; 0.000001 pi0 eta eta' anti-K0 PHSP; 0.000010 pi+ pi- pi+ K- PHSP; 0.000010 pi0 pi0 pi+ K- PHSP; 0.000005 pi0 eta pi+ K- PHSP; 0.000002 eta eta pi+ K- PHSP; 0.000002 pi0 eta' pi+ K- PHSP; 0.000001 eta eta' pi+ K- PHSP; 0.000010 rho0 anti-K_2*0 PHSP; 0.000020 rho+ K_2*- PHSP; 0.000010 pi- pi+ anti-K_2*0 PHSP; 0.000010 pi0 pi0 anti-K_2*0 PHSP; 0.000010 pi+ pi0 K_2*- PHSP; 0.000005 anti-K*0 f_0 SVS; 0.000005 anti-K*0 a_00 SVS; 0.000005 K*- a_0+ SVS; #--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------ 0.000001 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.0000001 phi rho0 SVV_CP alpha dm 1 1.0 0.0 1.7 0.0 1.0 0.0; 0.0000001 phi pi- pi+ PHSP; 0.000001 K+ K- rho0 PHSP; 0.000001 K0 anti-K0 rho0 PHSP; 0.000001 K+ K- omega PHSP; 0.000001 K0 anti-K0 omega PHSP; 0.000001 K+ anti-K0 rho- PHSP; 0.000001 K- K0 rho+ PHSP; 0.000001 K+ K- pi- pi+ PHSP; 0.000001 K+ K- pi0 pi0 PHSP; 0.0000005 K+ K- pi0 eta PHSP; 0.0000002 K+ K- eta eta PHSP; 0.0000002 K+ K- pi0 eta' PHSP; 0.0000001 K+ K- eta eta' PHSP; 0.000001 K0 anti-K0 pi- pi+ PHSP; 0.000001 K0 anti-K0 pi0 pi0 PHSP; 0.0000005 K0 anti-K0 pi0 eta PHSP; 0.0000002 K0 anti-K0 eta eta PHSP; 0.0000002 K0 anti-K0 pi0 eta' PHSP; 0.0000001 K0 anti-K0 eta eta' PHSP; 0.000001 K*+ K- pi0 PHSP; 0.000001 K*- K+ pi0 PHSP; 0.000001 K*0 anti-K0 pi0 PHSP; 0.000001 K0 anti-K*0 pi0 PHSP; 0.000001 K+ anti-K*0 pi- PHSP; 0.000001 K*+ anti-K0 pi- PHSP; 0.000001 K- K*0 pi+ PHSP; 0.000001 K*- K0 pi+ PHSP; #--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K ----------------------- 0.000011 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 phi K- pi+ PHSP; 0.000010 phi anti-K0 pi0 PHSP; 0.000005 phi anti-K0 eta PHSP; 0.000010 K- K+ anti-K*0 PHSP; 0.000010 K- K*+ anti-K0 PHSP; 0.000010 K*- K+ anti-K0 PHSP; 0.000010 K+ K- K- pi+ PHSP; 0.000010 K+ K- anti-K0 pi0 PHSP; 0.000005 K+ K- anti-K0 eta PHSP; 0.000010 K0 anti-K0 anti-K0 pi0 PHSP; 0.000005 K0 anti-K0 anti-K0 eta PHSP; 0.000010 phi anti-K_2*0 PHSP; 0.000010 K- K+ anti-K_2*0 PHSP; 0.000010 K- K_2*+ anti-K0 PHSP; 0.000010 K_2*- K+ anti-K0 PHSP; 0.000002 phi anti-K'_10 PHSP; 0.000002 K- K+ anti-K'_10 PHSP; #--- 4-body phi-phi, phi-K-K, K-K-K-K -------------------------------- 0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.0000001 phi K+ K- PHSP; 0.0000001 phi K0 anti-K0 PHSP; 0.0000001 K+ K- K+ K- PHSP; 0.0000001 K0 anti-K0 K+ K- PHSP; 0.0000001 K0 anti-K0 K0 anti-K0 PHSP; # # 3-body by John Back (jback@slac.stanford.edu) - Oct 15, 2002 # JGS intersperses modes with pi0->eta,eta' # anti-B0 modes # Model generates rho(770), rho(1450) and rho(1700) resonances # with interference (uses CKM angle alpha) 0.000022 pi- pi+ pi0 BTO3PI_CP dm alpha; # Put in with 0 BR to keep JETSET from generating these (see BTO3PI_CP above) 0.000000 pi0 rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000000 rho- pi+ SVS; 0.000000 rho+ pi- SVS; 0.000000 rho(2S)- pi+ SVS; 0.000000 rho(2S)+ pi- SVS; 0.000000 rho(3S)- pi+ SVS; 0.000000 rho(3S)+ pi- SVS; # # rho0 3-body modes 0.0000025 rho0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.0000025 rho0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; # # rho+ 3-body modes 0.000015 rho+ K- SVS; # # rho(1450) 3-body modes 0.0000005 rho(2S)0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.0000005 rho(2S)0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; # # # f0,a0(980) 3-body modes 0.000005 f_0 anti-K0 PHSP; 0.000003 a_00 anti-K0 PHSP; 0.000003 a_0+ K- PHSP; 0.000005 a_0+ pi- PHSP; 0.000001 a_0- pi+ PHSP; # # phi 3-body modes ####040227 0.000002 phi pi0 SVS; ####0402270.000005 phi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; ####0402270.000005 phi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; # # K*0(892) 3-body modes 0.000015 anti-K*0 pi0 SVS; 0.000003 anti-K*0 K0 SVS; # # K*0(1430) 3-body modes 0.000002 anti-K_2*0 pi0 STS; 0.000003 anti-K_2*0 K0 STS; # # K*-(892) 3-body modes 0.000040 K*- pi+ SVS; 0.000002 K*- K+ SVS; # # K*-(1430) 3-body modes 0.000070 K_2*- pi+ STS; 0.000002 K_2*- K+ STS; # # # Non-resonant 3-body left-overs # Most modes are set at 1e-6 # # pi-pi+pi0: high mass + f0(400-1200) = (1+1)e-6 ####0402270.000002 pi- pi+ pi0 PHSP; 0.000001 pi- pi+ eta PHSP; 0.000001 pi- pi+ eta' PHSP; # # pi- pi+ anti-K0 0.000001 pi- pi+ anti-K0 PHSP; # # K- pi+ pi0 0.000001 K- pi+ pi0 PHSP; 0.000001 K- pi+ eta PHSP; 0.000001 K- pi+ eta' PHSP; # # pi- K+ K0. # Both B0 and B0bar can decay to these => 0.5e-6 each 0.0000005 pi- K+ anti-K0 PHSP; 0.0000005 pi+ K- K0 PHSP; # # K- K+ anti-K0 0.000001 K- K+ anti-K0 PHSP; # # K- K+ pi0 0.000001 K- K+ pi0 PHSP; 0.000001 K- K+ eta PHSP; 0.000001 K- K+ eta' PHSP; # # pi0 anti-K0 K0 0.000002 anti-K0 K0 pi0 PHSP; 0.000001 anti-K0 K0 eta PHSP; 0.000001 anti-K0 K0 eta' PHSP; # # pi0 pi0 anti-K0 0.000002 anti-K0 pi0 pi0 PHSP; 0.000001 anti-K0 pi0 eta PHSP; 0.000001 anti-K0 pi0 eta' PHSP; 0.000001 anti-K0 eta eta PHSP; 0.000001 anti-K0 eta eta' PHSP; # # anti-K0 K0 anti-K0 0.000005 anti-K0 K0 anti-K0 PHSP; # # pi0 pi0 pi0 0.000001 pi0 pi0 pi0 PHSP; 0.000001 pi0 pi0 eta PHSP; 0.000001 pi0 pi0 eta' PHSP; 0.000001 pi0 eta eta PHSP; 0.000001 pi0 eta eta' PHSP; # ### end of John Back changes # # B -> cc= s # # Charmonium states - updated from Lange's recommendations (august 23,2000) # Based on new BABAR results I'm making the following changes (Lange, March 13, 2001 # J/psi K0 was 10, now 9 x 10^-4 # J/psi pi0 was 2.5, now 2.0 x 10^-4 # J/psi Kstar was 15, now 13 # Fix chic1 KS CP eigenstate # adding J/psi rho and omega - for lack of better thing will use the Kstar helicity amplitudes. # Psi2sKs 30 ->31 # chic1 Kstar: 12 ->6 0.00045 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.00045 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000217 J/psi K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.000217 J/psi K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; 0.000866 J/psi anti-K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; 0.000020 J/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000030 J/psi rho0 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.000030 J/psi omega SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0002 J/psi K- pi+ PHSP; 0.0001 J/psi anti-K0 pi0 PHSP; #rl0.0007 J/psi anti-K0 pi+ pi- PHSP; #rl0.00035 J/psi anti-K0 pi0 pi0 PHSP; #rl0.00035 J/psi K- pi+ pi0 PHSP; 0.0015 J/psi anti-K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.0001 J/psi anti-K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.0005 J/psi anti-K_2*0 PHSP; 0.00009 J/psi phi anti-K0 PHSP; # 0.00031 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.00031 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.00015 psi(2S) K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.00015 psi(2S) K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0006 psi(2S) anti-K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; 0.0004 psi(2S) K- pi+ PHSP; 0.0002 psi(2S) anti-K0 pi0 PHSP; 0.0002 psi(2S) anti-K0 pi+ pi- PHSP; 0.0001 psi(2S) anti-K0 pi0 pi0 PHSP; 0.0001 psi(2S) K- pi+ pi0 PHSP; 0.0004 psi(2S) anti-K_10 PHSP; # 0.0004 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0004 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0003 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0003 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0006 anti-K*0T eta_c SVS; 0.0002 eta_c K- pi+ PHSP; 0.0001 eta_c anti-K0 pi0 PHSP; 0.0002 eta_c anti-K0 pi+ pi- PHSP; 0.0001 eta_c anti-K0 pi0 pi0 PHSP; 0.0001 eta_c K- pi+ pi0 PHSP; # 0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0002 anti-K*0T chi_c0 SVS; 0.0002 chi_c0 K- pi+ PHSP; 0.0001 chi_c0 anti-K0 pi0 PHSP; 0.0002 chi_c0 anti-K0 pi+ pi- PHSP; 0.0001 chi_c0 anti-K0 pi0 pi0 PHSP; 0.0001 chi_c0 K- pi+ pi0 PHSP; # 0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0001 K*S chi_c1 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0001 K*L chi_c1 SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0004 chi_c1 anti-K*0T SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; 0.0004 chi_c1 K- pi+ PHSP; 0.0002 chi_c1 anti-K0 pi0 PHSP; 0.0004 chi_c1 anti-K0 pi+ pi- PHSP; 0.0002 chi_c1 anti-K0 pi0 pi0 PHSP; 0.0002 chi_c1 K- pi+ pi0 PHSP; # 0.0001 chi_c2 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0001 chi_c2 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000075 K*S chi_c2 PHSP; 0.000075 K*L chi_c2 PHSP; 0.0003 chi_c2 anti-K*0T PHSP; 0.0002 chi_c2 K- pi+ PHSP; 0.0001 chi_c2 anti-K0 pi0 PHSP; 0.0002 chi_c2 anti-K0 pi+ pi- PHSP; 0.0001 chi_c2 anti-K0 pi0 pi0 PHSP; 0.0001 chi_c2 K- pi+ pi0 PHSP; # # b-> c (dc=) # 0.00027 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; # See Ref [B1] for the next 3: 0.000335 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000335 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.00083 D*+ D*- SVV_CP beta dm 1 0.56 0.0 0.96 0.0 0.47 0.0; # # b -> c (sc=) --> D Ds X Sum = 10% # 0.0074 D+ D_s- PHSP; 0.0103 D*+ D_s- SVS; 0.0074 D_s*- D+ SVS; 0.0197 D*+ D_s*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; 0.0010 D'_1+ D_s- SVS; 0.0020 D'_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0020 D_1+ D_s- SVS; 0.0040 D_1+ D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0070 D_2*+ D_s- STS; 0.0140 D_2*+ D_s*- PHSP; # 0.0030 D_s- D+ pi0 PHSP; 0.0060 D_s- D0 pi+ PHSP; 0.0030 D_s*- D+ pi0 PHSP; 0.0060 D_s*- D0 pi+ PHSP; 0.0050 D_s- D+ pi+ pi- PHSP; 0.0037 D_s- D+ pi0 pi0 PHSP; 0.0037 D_s- D0 pi+ pi0 PHSP; 0.0050 D_s*- D+ pi+ pi- PHSP; 0.0037 D_s*- D+ pi0 pi0 PHSP; 0.0037 D_s*- D0 pi+ pi0 PHSP; # # b -> c (sc=) --> D D= K X Sum = 8% # Update: Ref. [B1] # 0.0017 D+ anti-D0 K- PHSP; 0.0014 D+ D- anti-K0 PHSP; 0.0025 D+ anti-D0 K*- PHSP; 0.0025 D+ D- anti-K*0 PHSP; # 0.0031 D*+ anti-D0 K- PHSP; 0.0033 D*+ D- anti-K0 PHSP; 0.0046 D+ anti-D*0 K- PHSP; 0.0048 D+ D*- anti-K0 PHSP; # 0.0025 D*+ anti-D0 K*- PHSP; 0.0025 D*+ D- anti-K*0 PHSP; 0.0025 D+ anti-D*0 K*- PHSP; 0.0025 D+ D*- anti-K*0 PHSP; # 0.0118 D*+ anti-D*0 K- PHSP; 0.0088 D*+ D*- anti-K0 PHSP; 0.0050 D*+ anti-D*0 K*- PHSP; 0.0050 D*+ D*- anti-K*0 PHSP; #Add color suppressed modes as recommended by Jean-Pierre Lees #Lange September 5, 2000 0.0005 D0 anti-D0 anti-K0 PHSP; 0.0005 D0 anti-D0 anti-K*0 PHSP; 0.0010 D0 anti-D*0 anti-K0 PHSP; 0.0005 D0 anti-D*0 anti-K*0 PHSP; 0.0010 D*0 anti-D0 anti-K0 PHSP; 0.0005 D*0 anti-D0 anti-K*0 PHSP; 0.0011 D*0 anti-D*0 anti-K0 PHSP; 0.0010 D*0 anti-D*0 anti-K*0 PHSP; # # # B -> D(*) X Exclusive modes # 0.0027 D*+ pi- SVS; 0.0030 D+ pi- PHSP; 0.0082 rho- D+ SVS; # # D* rho HELAMP parameters taken from ICHEP 98-852. 0.0068 rho- D*+ SVV_HELAMP 0.152 1.47 0.936 0 0.317 0.19; 0.0010 D+ pi- pi0 PHSP; 0.0070 D*+ pi- pi0 PHSP; 0.0010 D0 pi+ pi- PHSP; 0.0010 D*0 pi+ pi- PHSP; 0.0005 D*0 pi0 pi0 PHSP; # # D a1 updated Ref. [B1] 0.00834 a_1- D+ SVS; 0.0011 D+ rho0 pi- PHSP; 0.0011 D+ rho- pi0 PHSP; 0.0022 D+ pi+ pi- pi- PHSP; 0.0010 D+ pi0 pi- pi0 PHSP; 0.0010 D0 pi+ pi- pi0 PHSP; 0.0001 D0 pi0 pi0 pi0 PHSP; # # SVV_HELAMP for D* a1 taken from factorization. Recommandation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: # updated Ref. [B1] # 0.0120 D*+ a_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; # 0.0010 D*+ rho0 pi- PHSP; 0.0010 D*+ rho- pi0 PHSP; 0.0000 D*+ pi+ pi- pi- PHSP; 0.0010 D*+ pi0 pi- pi0 PHSP; 0.0010 D*0 pi+ pi- pi0 PHSP; 0.0001 D*0 pi0 pi0 pi0 PHSP; # # B->D** pi and D** rho, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html # 0.0006 D_1+ pi- SVS; 0.0009 D'_1+ pi- SVS; 0.0009 D_2*+ pi- STS; 0.0004 D_1+ rho- PHSP; 0.0013 D'_1+ rho- PHSP; 0.0022 D_2*+ rho- PHSP; # # # B->DK, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: # update: Ref. [B1]: # 0.00017 D*+ K- SVS; 0.00020 D+ K- PHSP; 0.00038 D*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; 0.00037 K*- D+ SVS; # # # Color-suppressed modes. Br's are expectations from # Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set # equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-, # with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html: # update: See Ref [B1]: # 0.00029 D0 pi0 PHSP; 0.00024 D*0 pi0 SVS; # 0.00025 rho0 D0 SVS; 0.00025 D*0 rho0 SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; # 0.00024 D0 eta PHSP; 0.00024 D*0 eta SVS; # 0.00024 D0 eta' PHSP; 0.00024 D*0 eta' SVS; # 0.00025 omega D0 SVS; 0.00025 D*0 omega SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; # # # Lam_c X / Sigma_c X 6.0 % # 0.01000 cd_0 anti-ud_0 JETSET 23; 0.03000 cd_1 anti-ud_1 JETSET 23; # # Xi_c X 2.5% # 0.00600 cs_0 anti-ud_0 JETSET 23; 0.01800 cs_1 anti-ud_1 JETSET 23; # # 0.22771 anti-u d c anti-d JETSET 48; 0.04600 anti-u d c anti-d JETSET 25; 0.02100 anti-u s c anti-d JETSET 23; 0.01800 anti-u c d anti-d JETSET 48; 0.00090 anti-u c s anti-d JETSET 48; #lange - try to crank up the psi production.... 0.07400 anti-c s c anti-d JETSET 13; 0.00600 anti-c d c anti-d JETSET 13; 0.00300 anti-u d u anti-d JETSET 48; 0.00400 anti-c s u anti-d JETSET 48; # JGS 11/5/02 This and similar a few lines above have been divided by two # to solve a double-counting problem for this channel 0.00205 anti-u u d anti-d JETSET 48; 0.00070 anti-d d d anti-d JETSET 48; 0.00090 anti-s s d anti-d JETSET 48; 0.00220 anti-u u s anti-d JETSET 48; 0.00180 anti-d d s anti-d JETSET 48; 0.00150 anti-s s s anti-d JETSET 48; 0.00500 s g anti-d JETSET 33; Enddecay # # Decay B0 # b -> c semileptonic # =10.4% total non-D and D* = 3.4% (changing to 2.7) 0.0560 D*- e+ nu_e PHOTOS HQET 0.92 1.18 0.72; 0.0210 D- e+ nu_e PHOTOS ISGW2; 0.0056 D_1- e+ nu_e PHOTOS ISGW2; 0.0020 D_0*- e+ nu_e PHOTOS ISGW2; 0.0037 D'_1- e+ nu_e PHOTOS ISGW2; 0.0037 D_2*- e+ nu_e PHOTOS ISGW2; 0.0010 D*- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; 0.0020 anti-D*0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; 0.0030 D- pi0 e+ nu_e PHOTOS GOITY_ROBERTS; 0.0060 anti-D0 pi- e+ nu_e PHOTOS GOITY_ROBERTS; 0.0560 D*- mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; 0.0210 D- mu+ nu_mu PHOTOS ISGW2; 0.0056 D_1- mu+ nu_mu PHOTOS ISGW2; 0.0020 D_0*- mu+ nu_mu PHOTOS ISGW2; 0.0037 D'_1- mu+ nu_mu PHOTOS ISGW2; 0.0037 D_2*- mu+ nu_mu PHOTOS ISGW2; 0.0010 D*- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; 0.0020 anti-D*0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; 0.0030 D- pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; 0.0060 anti-D0 pi- mu+ nu_mu PHOTOS GOITY_ROBERTS; # # b -> c tau nu # 0.0160 D*- tau+ nu_tau ISGW2; 0.0070 D- tau+ nu_tau ISGW2; 0.0013 D_1- tau+ nu_tau ISGW2; 0.0013 D_0*- tau+ nu_tau ISGW2; 0.0020 D'_1- tau+ nu_tau ISGW2; 0.0020 D_2*- tau+ nu_tau ISGW2; # # b -> u l nu # 0.000180 pi- e+ nu_e PHOTOS ISGW2; 0.000260 rho- e+ nu_e PHOTOS ISGW2; 0.000165 a_1- e+ nu_e PHOTOS ISGW2; 0.000102 b_1- e+ nu_e PHOTOS ISGW2; 0.000014 a_0- e+ nu_e PHOTOS ISGW2; 0.000014 a_2- e+ nu_e PHOTOS ISGW2; 0.000000 rho(2S)- e+ nu_e PHOTOS ISGW2; 0.000000 D(2S)- e+ nu_e PHOTOS ISGW2; 0.000000 D*(2S)- e+ nu_e PHOTOS ISGW2; 0.001365 Xu- e+ nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; 0.000180 pi- mu+ nu_mu PHOTOS ISGW2; 0.000260 rho- mu+ nu_mu PHOTOS ISGW2; 0.000165 a_1- mu+ nu_mu PHOTOS ISGW2; 0.000102 b_1- mu+ nu_mu PHOTOS ISGW2; 0.000014 a_0- mu+ nu_mu PHOTOS ISGW2; 0.000014 a_2- mu+ nu_mu PHOTOS ISGW2; 0.000000 rho(2S)- mu+ nu_mu PHOTOS ISGW2; 0.000000 D(2S)- mu+ nu_mu PHOTOS ISGW2; 0.000000 D*(2S)- mu+ nu_mu PHOTOS ISGW2; 0.001365 Xu- mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.55 1.20 0.61 1.26 0.85 1.34 1.08 1.41 1.21 1.48 1.30 1.55 1.30 1.61 1.33 1.67 1.36 1.73 1.39 1.79 1.33 1.84 1.42 1.90 1.39 1.95 1.39 2.00 1.37 2.50 1.30 3.00 0.74 3.50 0.99 4.00 1.09 4.50 1.00; # 0.000060 pi- tau+ nu_tau ISGW2; 0.000083 rho- tau+ nu_tau ISGW2; 0.000090 a_1- tau+ nu_tau ISGW2; 0.000008 b_1- tau+ nu_tau ISGW2; 0.000008 a_0- tau+ nu_tau ISGW2; 0.000008 a_2- tau+ nu_tau ISGW2; 0.000000 rho(2S)- tau+ nu_tau ISGW2; 0.000000 D(2S)- tau+ nu_tau ISGW2; 0.000000 D*(2S)- tau+ nu_tau ISGW2; # # # b->u hadronic # Ref. [B1]: # 0.000032 D_s+ pi- PHSP; 0.000032 D_s+ K- PHSP; 0.000032 D_s*+ pi- SVS; 0.000020 D_s*+ K- SVS; # 0.000046 rho- D_s+ SVS; 0.000029 K*- D_s+ SVS; 0.000046 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000029 D_s*+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # b -> s gamma # 0.000045 K*0 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000135 K_10 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000065 K'_10 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000128 K'*0 gamma HELAMP 1.0 0.0 1.0 0.0; 0.0000166 K_2*0 gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000017 K''*0 gamma HELAMP 1.0 0.0 1.0 0.0; 0.0002674 Xsd gamma BTOXSGAMMA 2 ; # 0.00000057 K0 e+ e- PHOTOS BTOSLLBALL; 0.0000023 K*0 e+ e- PHOTOS BTOSLLBALL; 0.000004 Xsd e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000057 K0 mu+ mu- PHOTOS BTOSLLBALL; 0.0000019 K*0 mu+ mu- PHOTOS BTOSLLBALL; 0.000004 Xsd mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000013 K0 tau+ tau- PHOTOS BTOSLLBALL; 0.00000019 K*0 tau+ tau- PHOTOS BTOSLLBALL; 0.0000002 Xsd tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; # # B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036 # (pi0pi0 -> 2x10^-6, Jim Olsen - Mar 27, 2001) # Jim Smith reorganization and conversion to SSD_CP - Nov. 8, 2002 # 0.0000047 pi+ pi- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000002 pi0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 pi0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; # pi0 rho0 is with the 3-body modes 0.000001 pi0 omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 pi0 b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta' eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta' f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 eta' rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 eta' b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 a_00 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 a_00 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 a_00 rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 a_00 b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 f_0 f_0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; 0.000001 f_0 rho0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 f_0 omega SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 f_0 a_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000001 f_0 b_10 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; # Penguin dominated modes are sin2beta, not sin2alpha 0.000005 phi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000005 phi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000001 eta K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000001 eta K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000030 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000030 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000003 omega K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000003 omega K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; #don't allow jetset to simulate the same decay but to a K0 or anti-K0 #Lange 1/30/2003 0.0 phi K0 PHSP; 0.0 phi anti-K0 PHSP; 0.0 eta K0 PHSP; 0.0 eta anti-K0 PHSP; 0.0 eta' K0 PHSP; 0.0 eta' anti-K0 PHSP; 0.0 omega K0 PHSP; 0.0 omega anti-K0 PHSP; # phipi0 has no simple Pengiun or tree so who knows - ditto phieta/eta'? 0.000001 phi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000001 phi eta SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000001 phi eta' SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; # 0.000025 K*0 eta SVS; # Following modes need cleanup 0.000010 K*0 omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 omega omega SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000002 omega rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; # #2-body modes from Jim Olsen # (K_S0 pi0 and K_L0 pi0 -> 4x10^-6, Jim Olsen - Mar 27, 2001) 0.000018 K+ pi- PHSP; 0.0000003 K+ K- PHSP; 0.0000005 K_S0 K_S0 PHSP; 0.0000000 K_S0 K_L0 PHSP; 0.0000005 K_L0 K_L0 PHSP; 0.000010 K0 pi0 PHSP; #4-body modes from Andrei Gritsan #--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi -------------------------- 0.000002 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.7 0.0 1.0 0.0; 0.000030 rho+ rho- SVV_CP alpha dm 1 1.0 0.0 1.7 0.0 1.0 0.0; 0.000003 rho0 pi+ pi- PHSP; 0.000003 omega pi+ pi- PHSP; 0.000001 rho0 pi0 pi0 PHSP; 0.000001 omega pi0 pi0 PHSP; 0.0000005 rho0 pi0 eta PHSP; 0.0000002 rho0 eta eta PHSP; 0.0000002 rho0 pi0 eta' PHSP; 0.0000001 rho0 eta eta' PHSP; 0.0000005 omega pi0 eta PHSP; 0.0000002 omega eta eta PHSP; 0.0000002 omega pi0 eta' PHSP; 0.0000001 omega eta eta' PHSP; 0.000010 rho+ pi- pi0 PHSP; 0.000005 rho+ pi- eta PHSP; 0.000010 rho- pi+ pi0 PHSP; 0.000005 rho- pi+ eta PHSP; 0.000010 pi+ pi- pi+ pi- PHSP; 0.000010 pi+ pi- pi0 pi0 PHSP; 0.000005 pi+ pi- eta pi0 PHSP; 0.000002 pi+ pi- eta eta PHSP; 0.000002 pi+ pi- eta' pi0 PHSP; 0.000001 pi+ pi- eta' eta PHSP; 0.000010 a_1+ pi- SVS; 0.000010 a_1- pi+ SVS; #0402270.000001 rho0 f_0 SVS; #04022700.000001 rho0 a_00 SVS; 0.000002 rho- a_0+ SVS; 0.000010 rho+ a_0- SVS; 0.000001 f_0 pi+ pi- PHSP; 0.000001 f_0 pi0 pi0 PHSP; 0.000001 a_0- pi+ pi0 PHSP; 0.000001 a_00 pi0 pi0 PHSP; 0.000001 a_0+ pi- pi0 PHSP; #--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K ------------------- 0.000010 rho0 K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000020 rho- K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 pi- pi+ K*0 PHSP; 0.000010 pi- pi0 K*+ PHSP; 0.000005 pi- eta K*+ PHSP; 0.000002 pi- eta' K*+ PHSP; 0.000010 rho- K+ pi0 PHSP; 0.000005 rho- K+ eta PHSP; 0.000002 rho- K+ eta' PHSP; 0.000010 rho- K0 pi+ PHSP; 0.000010 rho+ K0 pi- PHSP; 0.000005 rho0 K0 pi0 PHSP; 0.000002 rho0 K0 eta PHSP; 0.000001 rho0 K0 eta' PHSP; 0.000010 rho0 K+ pi- PHSP; 0.000005 omega K0 pi0 PHSP; 0.000002 omega K0 eta PHSP; 0.000001 omega K0 eta' PHSP; 0.000005 omega K+ pi- PHSP; 0.000010 pi+ pi0 pi- K0 PHSP; 0.000005 pi+ eta pi- K0 PHSP; 0.000010 pi0 pi0 pi0 K0 PHSP; 0.000005 pi0 pi0 eta K0 PHSP; 0.000002 pi0 eta eta K0 PHSP; 0.000002 pi0 pi0 eta' K0 PHSP; 0.000001 pi0 eta eta' K0 PHSP; 0.000010 pi+ pi- pi- K+ PHSP; 0.000010 pi0 pi0 pi- K+ PHSP; 0.000005 pi0 eta pi- K+ PHSP; 0.000002 eta eta pi- K+ PHSP; 0.000002 pi0 eta' pi- K+ PHSP; 0.000001 eta eta' pi- K+ PHSP; 0.000010 rho0 K_2*0 PHSP; 0.000020 rho- K_2*+ PHSP; 0.000010 pi- pi+ K_2*0 PHSP; 0.000010 pi0 pi0 K_2*0 PHSP; 0.000010 pi- pi0 K_2*+ PHSP; 0.000005 K*0 f_0 SVS; 0.000005 K*0 a_00 SVS; 0.000005 K*+ a_0- SVS; #--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------ 0.000001 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 K*+ K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.0000001 phi rho0 SVV_CP alpha dm 1 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 K+ K- rho0 PHSP; 0.000001 K0 anti-K0 rho0 PHSP; 0.000001 K+ K- omega PHSP; 0.000001 K0 anti-K0 omega PHSP; 0.000001 K+ anti-K0 rho- PHSP; 0.000001 K- K0 rho+ PHSP; 0.0000001 phi pi- pi+ PHSP; 0.000001 K+ K- pi- pi+ PHSP; 0.000001 K+ K- pi0 pi0 PHSP; 0.0000005 K+ K- pi0 eta PHSP; 0.0000002 K+ K- eta eta PHSP; 0.0000002 K+ K- pi0 eta' PHSP; 0.0000001 K+ K- eta eta' PHSP; 0.000001 K0 anti-K0 pi- pi+ PHSP; 0.000001 K0 anti-K0 pi0 pi0 PHSP; 0.0000005 K0 anti-K0 pi0 eta PHSP; 0.0000002 K0 anti-K0 eta eta PHSP; 0.0000002 K0 anti-K0 pi0 eta' PHSP; 0.0000001 K0 anti-K0 eta eta' PHSP; 0.000001 K*+ K- pi0 PHSP; 0.000001 K*- K+ pi0 PHSP; 0.000001 K*0 anti-K0 pi0 PHSP; 0.000001 K0 anti-K*0 pi0 PHSP; 0.000001 K+ anti-K*0 pi- PHSP; 0.000001 K*+ anti-K0 pi- PHSP; 0.000001 K- K*0 pi+ PHSP; 0.000001 K*- K0 pi+ PHSP; #--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K ----------------------- 0.000011 phi K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 phi K+ pi- PHSP; 0.000010 phi K0 pi0 PHSP; 0.000007 phi K0 eta PHSP; 0.000010 K- K+ K*0 PHSP; 0.000010 K- K*+ K0 PHSP; 0.000010 K*- K+ K0 PHSP; 0.000010 K+ K- K+ pi- PHSP; 0.000010 K+ K- K0 pi0 PHSP; 0.000005 K+ K- K0 eta PHSP; 0.000010 K0 anti-K0 K0 pi0 PHSP; 0.000005 K0 anti-K0 K0 eta PHSP; 0.000010 phi K_2*0 PHSP; 0.000010 K- K+ K_2*0 PHSP; 0.000010 K- K_2*+ K0 PHSP; 0.000010 K_2*- K+ K0 PHSP; 0.000002 phi K'_10 PHSP; 0.000002 K- K+ K'_10 PHSP; #--- 4-body phi-phi, phi-K-K, K-K-K-K -------------------------------- 0.0000001 phi phi SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.0000001 phi K+ K- PHSP; 0.0000001 phi K0 anti-K0 PHSP; 0.0000001 K+ K- K+ K- PHSP; 0.0000001 K0 anti-K0 K+ K- PHSP; 0.0000001 K0 anti-K0 K0 anti-K0 PHSP; # # 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002 # JGS intersperses modes with pi0->eta,eta' # B0 modes # Model generates rho(770), rho(1450) and rho(1700) resonances # with interference (uses CKM angle alpha) 0.000022 pi- pi+ pi0 BTO3PI_CP dm alpha; # Put in with 0 BR to keep JETSET from generating these (see BTO3PI_CP above) 0.000000 rho0 pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.000000 rho+ pi- SVS; 0.000000 rho- pi+ SVS; 0.000000 rho(2S)+ pi- SVS; 0.000000 rho(2S)- pi+ SVS; 0.000000 rho(3S)+ pi- SVS; 0.000000 rho(3S)- pi+ SVS; # # rho0 3-body modes 0.0000025 rho0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.0000025 rho0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; # # rho- 3-body modes 0.000015 rho- K+ SVS; # # rho(1450) 3-body modes 0.0000005 rho(2S)0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma -1.0 minusGamma; 0.0000005 rho(2S)0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 gamma 1.0 minusGamma; # # # f0,a0(980) 3-body modes 0.000005 f_0 K0 PHSP; 0.000003 a_00 K0 PHSP; 0.000003 a_0- K+ PHSP; 0.000001 a_0+ pi- PHSP; 0.000005 a_0- pi+ PHSP; # # phi 3-body modes #0402270.000002 phi pi0 SVS; #0402270.000005 phi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; #0402270.000005 phi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; # # K*0(892) 3-body modes 0.000015 K*0 pi0 SVS; 0.000003 K*0 anti-K0 SVS; # # K*0(1430) 3-body modes 0.000002 K_2*0 pi0 STS; 0.000003 K_2*0 anti-K0 STS; # # K*+(892) 3-body modes 0.000040 K*+ pi- SVS; 0.000002 K*+ K- SVS; # # K*+(1430) 3-body modes 0.000070 K_2*+ pi- STS; 0.000002 K_2*+ K- STS; # # # Non-resonant 3-body left-overs # Most modes are set at 1e-6 # # pi+pi-pi0: high mass + f0(400-1200) = (1+1)e-6 #0402270.000002 pi+ pi- pi0 PHSP; 0.000001 pi+ pi- eta PHSP; 0.000001 pi+ pi- eta' PHSP; # # pi+ pi- K0 0.000001 pi+ pi- K0 PHSP; # # K+ pi- pi0 0.000001 K+ pi- pi0 PHSP; 0.000001 K+ pi- eta PHSP; 0.000001 K+ pi- eta' PHSP; # # pi+ K- K0. # Both B0 and B0bar can decay to these => 0.5e-6 each 0.0000005 pi+ K- K0 PHSP; 0.0000005 pi- K+ anti-K0 PHSP; # # K+ K- K0 0.000001 K+ K- K0 PHSP; # # K+ K- pi0 0.000001 K+ K- pi0 PHSP; 0.000001 K+ K- eta PHSP; 0.000001 K+ K- eta' PHSP; # # pi0 K0 anti-K0 0.000002 K0 anti-K0 pi0 PHSP; 0.000001 K0 anti-K0 eta PHSP; 0.000001 K0 anti-K0 eta' PHSP; # # pi0 pi0 K0 0.000002 K0 pi0 pi0 PHSP; 0.000001 K0 pi0 eta PHSP; 0.000001 K0 pi0 eta' PHSP; 0.000001 K0 eta eta PHSP; 0.000001 K0 eta eta' PHSP; # # K0 anti-K0 K0 0.000005 K0 anti-K0 K0 PHSP; # # pi0 pi0 pi0 0.000001 pi0 pi0 pi0 PHSP; 0.000001 pi0 pi0 eta PHSP; 0.000001 pi0 pi0 eta' PHSP; 0.000001 pi0 eta eta PHSP; 0.000001 pi0 eta eta' PHSP; # ##### end of John Back changes # # B -> cc= s 0.00045 J/psi K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.00045 J/psi K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000217 J/psi K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.000217 J/psi K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; 0.000866 J/psi K*0T SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; 0.00002 J/psi pi0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.00003 J/psi rho0 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.00003 J/psi omega SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0002 J/psi K+ pi- PHSP; 0.0001 J/psi K0 pi0 PHSP; #rl0.0007 J/psi K0 pi- pi+ PHSP; #rl0.00035 J/psi K0 pi0 pi0 PHSP; #rl0.00035 J/psi K+ pi- pi0 PHSP; 0.0015 J/psi K_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.0001 J/psi K'_10 SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.0005 J/psi K_2*0 PHSP; 0.00009 J/psi phi K0 PHSP; # 0.00031 psi(2S) K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.00031 psi(2S) K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.00015 psi(2S) K*S SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.00015 psi(2S) K*L SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0006 psi(2S) K*0T SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; 0.0004 psi(2S) K+ pi- PHSP; 0.0002 psi(2S) K0 pi0 PHSP; 0.0002 psi(2S) K0 pi- pi+ PHSP; 0.0001 psi(2S) K0 pi0 pi0 PHSP; 0.0001 psi(2S) K+ pi- pi0 PHSP; 0.0004 psi(2S) K_10 PHSP; # 0.0004 eta_c K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0004 eta_c K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0003 K*S eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0003 K*L eta_c SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0006 K*0T eta_c SVS; 0.0002 eta_c K+ pi- PHSP; 0.0001 eta_c K0 pi0 PHSP; 0.0002 eta_c K0 pi- pi+ PHSP; 0.0001 eta_c K0 pi0 pi0 PHSP; 0.0001 eta_c K+ pi- pi0 PHSP; # 0.0001 chi_c0 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0001 chi_c0 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.00005 K*S chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.00005 K*L chi_c0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0002 K*0T chi_c0 SVS; 0.0002 chi_c0 K+ pi- PHSP; 0.0001 chi_c0 K0 pi0 PHSP; 0.0002 chi_c0 K0 pi- pi+ PHSP; 0.0001 chi_c0 K0 pi0 pi0 PHSP; 0.0001 chi_c0 K+ pi- pi0 PHSP; # 0.0003 chi_c1 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.0003 chi_c1 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0001 K*S chi_c1 SVV_CP beta dm 1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0001 K*L chi_c1 SVV_CP beta dm -1 Aplus phAplus Azero phAzero Aminus phAminus; 0.0004 chi_c1 K*0T SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; 0.0004 chi_c1 K+ pi- PHSP; 0.0002 chi_c1 K0 pi0 PHSP; 0.0004 chi_c1 K0 pi- pi+ PHSP; 0.0002 chi_c1 K0 pi0 pi0 PHSP; 0.0002 chi_c1 K+ pi- pi0 PHSP; # 0.0001 chi_c2 K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.0001 chi_c2 K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; 0.000075 K*S chi_c2 PHSP; 0.000075 K*L chi_c2 PHSP; 0.0003 chi_c2 K*0T PHSP; 0.0002 chi_c2 K+ pi- PHSP; 0.0001 chi_c2 K0 pi0 PHSP; 0.0002 chi_c2 K0 pi- pi+ PHSP; 0.0001 chi_c2 K0 pi0 pi0 PHSP; 0.0001 chi_c2 K+ pi- pi0 PHSP; # 0.0000 phi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000 phi K*S SVV_CP beta dm 1 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000 phi K*L SVV_CP beta dm -1 1.0 0.0 1.0 0.0 1.0 0.0; #0402270.0000 eta' K_S0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; #0402270.0000 eta' K_L0 SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 -1.0 0.0; # # b-> c (dc=) # 0.00027 D- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; # See Ref [B1] for the next 3: 0.000335 D*- D+ SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.000335 D*+ D- SSD_CP dm 0.0 1.0 minusTwoBeta 1.0 0.0 1.0 0.0; 0.00083 D*- D*+ SVV_CP beta dm 1 0.56 0.0 0.96 0.0 0.47 0.0; # # b -> c (sc=) --> D Ds X Sum = 10% # 0.0074 D- D_s+ PHSP; 0.0103 D*- D_s+ SVS; 0.0074 D_s*+ D- SVS; 0.0197 D_s*+ D*- SVV_HELAMP 0.4904 0.0 0.7204 0.0 0.4904 0.0; 0.0010 D'_1- D_s+ SVS; 0.0020 D'_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0020 D_1- D_s+ SVS; 0.0040 D_1- D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0070 D_2*- D_s+ STS; 0.0140 D_2*- D_s*+ PHSP; # 0.0030 D_s+ D- pi0 PHSP; 0.0060 D_s+ anti-D0 pi- PHSP; 0.0030 D_s*+ D- pi0 PHSP; 0.0060 D_s*+ anti-D0 pi- PHSP; 0.0050 D_s+ D- pi- pi+ PHSP; 0.0037 D_s+ D- pi0 pi0 PHSP; 0.0037 D_s+ anti-D0 pi- pi0 PHSP; 0.0050 D_s*+ D- pi- pi+ PHSP; 0.0037 D_s*+ D- pi0 pi0 PHSP; 0.0037 D_s*+ anti-D0 pi- pi0 PHSP; # # b -> c (sc=) --> D D= K X Sum = 8% # Update: Ref. [B1] # 0.0017 D- D0 K+ PHSP; 0.0014 D- D+ K0 PHSP; 0.0025 D- D0 K*+ PHSP; 0.0025 D- D+ K*0 PHSP; # 0.0031 D*- D0 K+ PHSP; 0.0033 D*- D+ K0 PHSP; 0.0046 D- D*0 K+ PHSP; 0.0048 D- D*+ K0 PHSP; # 0.0025 D*- D0 K*+ PHSP; 0.0025 D*- D+ K*0 PHSP; 0.0025 D- D*0 K*+ PHSP; 0.0025 D- D*+ K*0 PHSP; # 0.0118 D*- D*0 K+ PHSP; 0.0088 D*- D*+ K0 PHSP; 0.0050 D*- D*0 K*+ PHSP; 0.0050 D*- D*+ K*0 PHSP; #Add color suppressed modes as recommended by Jean-Pierre Lees #Lange September 5, 2000 0.0005 D0 anti-D0 K0 PHSP; 0.0005 D0 anti-D0 K*0 PHSP; 0.0010 D0 anti-D*0 K0 PHSP; 0.0005 D0 anti-D*0 K*0 PHSP; 0.0010 D*0 anti-D0 K0 PHSP; 0.0005 D*0 anti-D0 K*0 PHSP; 0.0011 D*0 anti-D*0 K0 PHSP; 0.0010 D*0 anti-D*0 K*0 PHSP; # # # B -> D(*) X Exclusive modes # 0.0027 D*- pi+ SVS; 0.0030 D- pi+ PHSP; 0.0082 rho+ D- SVS; # # D* rho HELAMP parameters taken from ICHEP 98-852. 0.0068 rho+ D*- SVV_HELAMP 0.317 0.19 0.936 0.0 0.152 1.47; 0.0010 D- pi+ pi0 PHSP; 0.0070 D*- pi+ pi0 PHSP; 0.0010 anti-D0 pi- pi+ PHSP; 0.0010 anti-D*0 pi- pi+ PHSP; 0.0005 anti-D*0 pi0 pi0 PHSP; # # D a1 updated Ref. [B1] 0.00834 a_1+ D- SVS; 0.0011 D- rho0 pi+ PHSP; 0.0011 D- rho+ pi0 PHSP; 0.0022 D- pi- pi+ pi+ PHSP; 0.0010 D- pi0 pi+ pi0 PHSP; 0.0010 anti-D0 pi- pi+ pi0 PHSP; 0.0001 anti-D0 pi0 pi0 pi0 PHSP; # # SVV_HELAMP for D* a1 taken from factorization. Recommandation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: # updated Ref. [B1] # 0.0120 D*- a_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; # 0.0010 D*- rho0 pi+ PHSP; 0.0010 D*- rho+ pi0 PHSP; 0.0000 D*- pi- pi+ pi+ PHSP; 0.0010 D*- pi0 pi+ pi0 PHSP; 0.0010 anti-D*0 pi- pi+ pi0 PHSP; 0.0001 anti-D*0 pi0 pi0 pi0 PHSP; # # B->D** pi and D** rho, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html # 0.0006 D_1- pi+ SVS; 0.0009 D'_1- pi+ SVS; 0.0009 D_2*- pi+ STS; 0.0004 D_1- rho+ PHSP; 0.0013 D'_1- rho+ PHSP; 0.0022 D_2*- rho+ PHSP; # # # B->DK, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: # update: Ref. [B1]: # 0.00017 D*- K+ SVS; 0.00020 D- K+ PHSP; 0.00038 D*- K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; 0.00037 K*+ D- SVS; # # # Color-suppressed modes. Br's are expectations from # Phys. Rev. D57 (1998), 5363-5369, except for the eta' modes, which are set # equal to the eta modes. SVV_HELAMP parameters are the same as in D*0 rho-, # with phases set to 0. Recommendation http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/169.html: # update: See Ref [B1]: # 0.00029 anti-D0 pi0 PHSP; 0.00024 anti-D*0 pi0 SVS; # 0.00025 rho0 anti-D0 SVS; 0.00025 anti-D*0 rho0 SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; # 0.00024 anti-D0 eta PHSP; 0.00024 anti-D*0 eta SVS; # 0.00024 anti-D0 eta' PHSP; 0.00024 anti-D*0 eta' SVS; # 0.00025 omega anti-D0 SVS; 0.00025 anti-D*0 omega SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; # # # Lam_c X / Sigma_c X 4.0 % # 0.01000 anti-cd_0 ud_0 JETSET 23; 0.03000 anti-cd_1 ud_1 JETSET 23; # # Xi_c X 2.5% # 0.00600 anti-cs_0 ud_0 JETSET 23; 0.01800 anti-cs_1 ud_1 JETSET 23; # # 0.22771 u anti-d anti-c d JETSET 48; 0.04600 u anti-d anti-c d JETSET 25; 0.02100 u anti-s anti-c d JETSET 23; 0.01800 u anti-c anti-d d JETSET 48; 0.00090 u anti-c anti-s d JETSET 48; #lange - try to crank up the psi production.... 0.07400 c anti-s anti-c d JETSET 13; 0.00600 c anti-d anti-c d JETSET 13; 0.00300 u anti-d anti-u d JETSET 48; 0.00400 c anti-s anti-u d JETSET 48; # JGS 11/5/02 This and similar a few lines above have been divided by two # to solve a double-counting problem for this channel 0.00205 u anti-u anti-d d JETSET 48; 0.00070 d anti-d anti-d d JETSET 48; 0.00090 s anti-s anti-d d JETSET 48; 0.00220 u anti-u anti-s d JETSET 48; 0.00180 d anti-d anti-s d JETSET 48; 0.00150 s anti-s anti-s d JETSET 48; 0.00500 anti-s g d JETSET 33; Enddecay # # # Decay B- # # b -> c semileptonic # 0.0560 D*0 e- anti-nu_e PHOTOS HQET 0.92 1.18 0.72; 0.0210 D0 e- anti-nu_e PHOTOS ISGW2; 0.0056 D_10 e- anti-nu_e PHOTOS ISGW2; 0.0020 D_0*0 e- anti-nu_e PHOTOS ISGW2; 0.0037 D'_10 e- anti-nu_e PHOTOS ISGW2; 0.0037 D_2*0 e- anti-nu_e PHOTOS ISGW2; 0.0020 D*+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; 0.0010 D*0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; 0.0060 D+ pi- e- anti-nu_e PHOTOS GOITY_ROBERTS; 0.0030 D0 pi0 e- anti-nu_e PHOTOS GOITY_ROBERTS; # 0.0560 D*0 mu- anti-nu_mu PHOTOS HQET 0.92 1.18 0.72; 0.0210 D0 mu- anti-nu_mu PHOTOS ISGW2; 0.0056 D_10 mu- anti-nu_mu PHOTOS ISGW2; 0.0020 D_0*0 mu- anti-nu_mu PHOTOS ISGW2; 0.0037 D'_10 mu- anti-nu_mu PHOTOS ISGW2; 0.0037 D_2*0 mu- anti-nu_mu PHOTOS ISGW2; 0.0020 D*+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; 0.0010 D*0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; 0.0060 D+ pi- mu- anti-nu_mu PHOTOS GOITY_ROBERTS; 0.0030 D0 pi0 mu- anti-nu_mu PHOTOS GOITY_ROBERTS; # # b -> c tau nu # 0.0160 D*0 tau- anti-nu_tau ISGW2; 0.0070 D0 tau- anti-nu_tau ISGW2; 0.0013 D_10 tau- anti-nu_tau ISGW2; 0.0013 D_0*0 tau- anti-nu_tau ISGW2; 0.0020 D'_10 tau- anti-nu_tau ISGW2; 0.0020 D_2*0 tau- anti-nu_tau ISGW2; # # b -> u l nu # 0.000090 pi0 e- anti-nu_e PHOTOS ISGW2; 0.000030 eta e- anti-nu_e PHOTOS ISGW2; 0.000130 rho0 e- anti-nu_e PHOTOS ISGW2; 0.000130 omega e- anti-nu_e PHOTOS ISGW2; 0.000060 eta' e- anti-nu_e PHOTOS ISGW2; 0.000082 a_10 e- anti-nu_e PHOTOS ISGW2; 0.000007 a_20 e- anti-nu_e PHOTOS ISGW2; 0.000048 b_10 e- anti-nu_e PHOTOS ISGW2; 0.000007 a_00 e- anti-nu_e PHOTOS ISGW2; 0.000004 f_0 e- anti-nu_e PHOTOS ISGW2; 0.000004 f'_0 e- anti-nu_e PHOTOS ISGW2; 0.000041 f_1 e- anti-nu_e PHOTOS ISGW2; 0.000041 f'_1 e- anti-nu_e PHOTOS ISGW2; 0.000024 h_1 e- anti-nu_e PHOTOS ISGW2; 0.000024 h'_1 e- anti-nu_e PHOTOS ISGW2; 0.000004 f_2 e- anti-nu_e PHOTOS ISGW2; 0.000004 f'_2 e- anti-nu_e PHOTOS ISGW2; 0.000000 D(2S)0 e- anti-nu_e PHOTOS ISGW2; 0.000000 D*(2S)0 e- anti-nu_e PHOTOS ISGW2; 0.001365 Xu0 e- anti-nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; # 0.000090 pi0 mu- anti-nu_mu PHOTOS ISGW2; 0.000030 eta mu- anti-nu_mu PHOTOS ISGW2; 0.000130 rho0 mu- anti-nu_mu PHOTOS ISGW2; 0.000130 omega mu- anti-nu_mu PHOTOS ISGW2; 0.000060 eta' mu- anti-nu_mu PHOTOS ISGW2; 0.000082 a_10 mu- anti-nu_mu PHOTOS ISGW2; 0.000007 a_20 mu- anti-nu_mu PHOTOS ISGW2; 0.000048 b_10 mu- anti-nu_mu PHOTOS ISGW2; 0.000007 a_00 mu- anti-nu_mu PHOTOS ISGW2; 0.000004 f_0 mu- anti-nu_mu PHOTOS ISGW2; 0.000004 f'_0 mu- anti-nu_mu PHOTOS ISGW2; 0.000041 f_1 mu- anti-nu_mu PHOTOS ISGW2; 0.000041 f'_1 mu- anti-nu_mu PHOTOS ISGW2; 0.000024 h_1 mu- anti-nu_mu PHOTOS ISGW2; 0.000024 h'_1 mu- anti-nu_mu PHOTOS ISGW2; 0.000004 f_2 mu- anti-nu_mu PHOTOS ISGW2; 0.000004 f'_2 mu- anti-nu_mu PHOTOS ISGW2; 0.000000 D(2S)0 mu- anti-nu_mu PHOTOS ISGW2; 0.000000 D*(2S)0 mu- anti-nu_mu PHOTOS ISGW2; 0.001365 Xu0 mu- anti-nu_mu PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; # 0.000030 pi0 tau- anti-nu_tau ISGW2; 0.000012 eta tau- anti-nu_tau ISGW2; 0.000042 rho0 tau- anti-nu_tau ISGW2; 0.000042 omega tau- anti-nu_tau ISGW2; 0.000018 eta' tau- anti-nu_tau ISGW2; 0.000046 a_10 tau- anti-nu_tau ISGW2; 0.000027 b_10 tau- anti-nu_tau ISGW2; 0.000004 a_00 tau- anti-nu_tau ISGW2; 0.000002 f_0 tau- anti-nu_tau ISGW2; 0.000002 f'_0 tau- anti-nu_tau ISGW2; 0.000023 f_1 tau- anti-nu_tau ISGW2; 0.000023 f'_1 tau- anti-nu_tau ISGW2; 0.000013 h_1 tau- anti-nu_tau ISGW2; 0.000013 h'_1 tau- anti-nu_tau ISGW2; 0.000020 f_2 tau- anti-nu_tau ISGW2; 0.000020 f'_2 tau- anti-nu_tau ISGW2; 0.000000 D(2S)0 tau- anti-nu_tau ISGW2; 0.000000 D*(2S)0 tau- anti-nu_tau ISGW2; # # b -> l nu # 0.000050 tau- anti-nu_tau SLN; 0.000000 mu- anti-nu_mu PHOTOS SLN; 0.000000 e- anti-nu_e PHOTOS SLN; # # # # b->u hadronic # Ref. [B1]: # 0.000016 D_s- pi0 PHSP; 0.000016 D_s*- pi0 SVS; # 0.000023 rho0 D_s- SVS; 0.000023 D_s*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # b-> s gamma # 0.000045 K*- gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000135 K_1- gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000065 K'_1- gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000128 K'*- gamma HELAMP 1.0 0.0 1.0 0.0; 0.0000166 K_2*- gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000017 K''*- gamma HELAMP 1.0 0.0 1.0 0.0; 0.0002674 anti-Xsu gamma BTOXSGAMMA 2 ; # 0.00000057 K- e+ e- PHOTOS BTOSLLBALL; 0.0000023 K*- e+ e- PHOTOS BTOSLLBALL; 0.000004 anti-Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000057 K- mu+ mu- PHOTOS BTOSLLBALL; 0.0000019 K*- mu+ mu- PHOTOS BTOSLLBALL; 0.000004 anti-Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000013 K- tau+ tau- PHOTOS BTOSLLBALL; 0.00000019 K*- tau+ tau- PHOTOS BTOSLLBALL; 0.0000002 anti-Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; # # Exclusive hadronic b->u # 0.000026 pi- pi0 pi0 CB3PI-P00 alpha; 0.000011 pi- pi- pi+ CB3PI-MPP alpha; # # B -> cc= s sum = 1.92% # 0.0009 J/psi K- SVS; 0.0013 J/psi K*- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; 0.00004 J/psi pi- SVS; 0.00006 J/psi rho- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; 0.0002 J/psi anti-K0 pi- PHSP; 0.0001 J/psi K- pi0 PHSP; #rl0.0007 J/psi K- pi+ pi- PHSP; #rl0.00035 J/psi K- pi0 pi0 PHSP; #rl0.00035 J/psi anti-K0 pi- pi0 PHSP; 0.0001 J/psi K'_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.0005 J/psi K_2*- PHSP; 0.0015 J/psi K_1- SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.00009 J/psi phi K- PHSP; # 0.00062 psi(2S) K- SVS; 0.0009 psi(2S) K*- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; 0.0004 psi(2S) anti-K0 pi- PHSP; 0.0002 psi(2S) K- pi0 PHSP; 0.0002 psi(2S) K- pi+ pi- PHSP; 0.0001 psi(2S) K- pi0 pi0 PHSP; 0.0001 psi(2S) anti-K0 pi- pi0 PHSP; 0.0004 psi(2S) K_1- PHSP; # 0.0008 eta_c K- PHSP; 0.0012 K*- eta_c SVS; 0.0002 eta_c anti-K0 pi- PHSP; 0.0001 eta_c K- pi0 PHSP; 0.0002 eta_c K- pi+ pi- PHSP; 0.0001 eta_c K- pi0 pi0 PHSP; 0.0001 eta_c anti-K0 pi- pi0 PHSP; # 0.0002 chi_c0 K- PHSP; 0.0003 K*- chi_c0 SVS; 0.0002 chi_c0 anti-K0 pi- PHSP; 0.0001 chi_c0 K- pi0 PHSP; 0.0002 chi_c0 K- pi+ pi- PHSP; 0.0001 chi_c0 K- pi0 pi0 PHSP; 0.0001 chi_c0 anti-K0 pi- pi0 PHSP; # 0.0006 chi_c1 K- SVS; 0.0006 chi_c1 K*- SVV_HELAMP PKHplus PKphHplus PKHzero PKphHzero PKHminus PKphHminus; 0.0004 chi_c1 anti-K0 pi- PHSP; 0.0002 chi_c1 K- pi0 PHSP; 0.0004 chi_c1 K- pi+ pi- PHSP; 0.0002 chi_c1 K- pi0 pi0 PHSP; 0.0002 chi_c1 anti-K0 pi- pi0 PHSP; # 0.0002 chi_c2 K- STS; 0.0004 chi_c2 K*- PHSP; 0.0002 chi_c2 anti-K0 pi- PHSP; 0.0001 chi_c2 K- pi0 PHSP; 0.0002 chi_c2 K- pi+ pi- PHSP; 0.0001 chi_c2 K- pi0 pi0 PHSP; 0.0001 chi_c2 anti-K0 pi- pi0 PHSP; # # b -> c (sc=) -> D Ds X Sum = 10% # 0.0106 D0 D_s- PHSP; 0.0102 D*0 D_s- SVS; 0.0091 D_s*- D0 SVS; 0.0228 D_s*- D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0010 D'_10 D_s- SVS; 0.0020 D'_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0020 D_10 D_s- SVS; 0.0040 D_10 D_s*- SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0070 D_2*0 D_s- STS; 0.0140 D_2*0 D_s*- PHSP; # # # SVV_HELAMP from factorization, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: # 0.0060 D_s- D+ pi- PHSP; 0.0030 D_s- D0 pi0 PHSP; 0.0060 D_s*- D+ pi- PHSP; 0.0030 D_s*- D0 pi0 PHSP; 0.0055 D_s- D+ pi- pi0 PHSP; 0.0055 D_s- D0 pi- pi+ PHSP; 0.0014 D_s- D0 pi0 pi0 PHSP; 0.0055 D_s*- D+ pi- pi0 PHSP; 0.0055 D_s*- D0 pi- pi+ PHSP; 0.0014 D_s*- D0 pi0 pi0 PHSP; # # b -> c (sc=) -> D D= K X Sum = 8% # update: Ref. [B1]: # 0.0019 D0 anti-D0 K- PHSP; 0.0017 D0 D- anti-K0 PHSP; 0.0025 D0 anti-D0 K*- PHSP; 0.0025 D0 D- anti-K*0 PHSP; # 0.0015 D*0 anti-D0 K- PHSP; 0.0030 D*0 D- anti-K0 PHSP; 0.0048 D0 anti-D*0 K- PHSP; 0.0052 D0 D*- anti-K0 PHSP; # 0.0025 D*0 anti-D0 K*- PHSP; 0.0025 D*0 D- anti-K*0 PHSP; 0.0025 D0 anti-D*0 K*- PHSP; 0.0025 D0 D*- anti-K*0 PHSP; # 0.0053 D*0 anti-D*0 K- PHSP; 0.0078 D*0 D*- anti-K0 PHSP; 0.0050 D*0 anti-D*0 K*- PHSP; 0.0050 D*0 D*- anti-K*0 PHSP; #Add color suppressed modes as recommended by Jean-Pierre Lees #Lange September 5, 2000 0.0003 D+ D- K- PHSP; 0.0005 D+ D- K*- PHSP; 0.0015 D*+ D- K- PHSP; 0.0005 D*+ D- K*- PHSP; 0.0005 D+ D*- K- PHSP; 0.0005 D+ D*- K*- PHSP; 0.0011 D*+ D*- K- PHSP; 0.0010 D*+ D*- K*- PHSP; # # B->D(*)D(*). See Ref [B1]: # 0.00027 D- D0 PHSP; 0.000335 D*- D0 SVS; 0.000335 D*0 D- SVS; 0.00104 D*0 D*- SVV_HELAMP 0.47 0.0 0.96 0.0 0.56 0.0; # # B -> D(*) X Exclusive Modes # 0.0046 D*0 pi- SVS; 0.0053 D0 pi- PHSP; 0.0134 rho- D0 SVS; # D* rho HELAMP parameters taken from ICHEP 98-852. 0.0155 D*0 rho- SVV_HELAMP 0.228 0.95 0.932 0.0 0.283 1.13; # 0.0005 D0 pi0 pi- PHSP; 0.0005 D*0 pi0 pi- PHSP; 0.0005 D+ pi- pi- PHSP; 0.0021 D*+ pi- pi- PHSP; # # D a1 updated Ref. [B1]: 0.00887 a_1- D0 SVS; 0.0021 D0 rho0 pi- PHSP; 0.0050 D0 pi+ pi- pi- PHSP; # # SVV_HELAMP from factorization, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: # updated Ref. [B1]: # 0.01597 D*0 a_1- SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; # 0.0005 D*0 rho0 pi- PHSP; 0.0005 D*0 pi+ pi- pi- PHSP; # 0.0020 D+ rho- pi- PHSP; 0.0020 D+ pi0 pi- pi- PHSP; 0.0020 D*+ rho- pi- PHSP; 0.0150 D*+ pi0 pi- pi- PHSP; 0.0005 D*0 rho- pi0 PHSP; 0.0005 D*0 pi- pi0 pi0 PHSP; # # B->D** pi and D** rho, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html # 0.0010 D_10 pi- SVS; 0.0016 D'_10 pi- SVS; 0.0015 D_2*0 pi- STS; 0.0007 D_10 rho- PHSP; 0.0022 D'_10 rho- PHSP; 0.0038 D_2*0 rho- PHSP; # # # B->DK, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: # update: Ref [B1]: # 0.00044 D0 K- PHSP; 0.00036 D*0 K- SVS; 0.00061 K*- D0 SVS; 0.00077 D*0 K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.283 0.0; # # # Lam_c X / Sigma_c X 4.0 % # 0.04000 cd_1 anti-uu_1 JETSET 23; # # Xi_c X 2.5% # 0.02400 cs_1 anti-uu_1 JETSET 23; # # 0.212216 anti-u d c anti-u JETSET 48; 0.04300 anti-u d c anti-u JETSET 25; 0.02250 anti-u s c anti-u JETSET 23; #lange - try to crank up the psi production.... 0.07400 anti-c s c anti-u JETSET 13; 0.00400 anti-c d c anti-u JETSET 13; 0.00300 anti-u d u anti-u JETSET 48; 0.00400 anti-c s u anti-u JETSET 48; # JGS 11/5/02 This and similar a few lines above have been divided by two # to solve a double-counting problem for this channel 0.00205 anti-u u d anti-u JETSET 48; 0.00070 anti-d d d anti-u JETSET 48; 0.00090 anti-s s d anti-u JETSET 48; 0.00220 anti-u u s anti-u JETSET 48; 0.00180 anti-d d s anti-u JETSET 48; 0.00150 anti-s s s anti-u JETSET 48; 0.00500 s g anti-u JETSET 33; # #### #### 0.000005 eta pi- PHSP; 0.000004 eta K- PHSP; 0.000025 K*- eta SVS; 0.000005 rho- eta SVS; 0.000002 eta' pi- PHSP; 0.000075 eta' K- PHSP; 0.000005 K*- eta' SVS; 0.000005 rho- eta' SVS; 0.000008 omega pi- SVS; 0.000005 omega K- SVS; 0.000010 omega K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000015 omega rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi pi- SVS; 0.000009 phi K- SVS; #2-body modes from Jim Olsen # (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001) # (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001) 0.000018 anti-K0 pi- PHSP; 0.0000014 K0 K- PHSP; 0.0000058 pi- pi0 PHSP; 0.000012 K- pi0 PHSP; #4-body modes from Andrei Gritsan #--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi -------------------------- 0.000015 rho- rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 rho0 pi- pi0 PHSP; 0.000005 rho0 pi- eta PHSP; 0.000002 rho0 pi- eta' PHSP; 0.000010 omega pi- pi0 PHSP; 0.000005 omega pi- eta PHSP; 0.000002 omega pi- eta' PHSP; 0.000010 rho- pi- pi+ PHSP; 0.000010 rho- pi0 pi0 PHSP; 0.000005 rho- pi0 eta PHSP; 0.000002 rho- eta eta PHSP; 0.000002 rho- pi0 eta' PHSP; 0.000010 pi+ pi- pi- pi0 PHSP; 0.000005 pi+ pi- pi- eta PHSP; 0.000002 pi+ pi- pi- eta' PHSP; 0.000010 pi- pi0 pi0 pi0 PHSP; 0.000005 pi- eta pi0 pi0 PHSP; 0.000002 pi- eta eta pi0 PHSP; 0.000002 pi- eta' pi0 pi0 PHSP; 0.000001 pi- eta' eta pi0 PHSP; 0.000010 a_10 pi- SVS; 0.000010 a_1- pi0 SVS; 0.000010 rho- f_0 SVS; 0.000010 rho- a_00 SVS; 0.000002 rho0 a_0- SVS; 0.000010 f_0 pi- pi0 PHSP; 0.000001 a_00 pi- pi0 PHSP; 0.000001 a_0- pi0 pi0 PHSP; 0.000001 a_0+ pi- pi- PHSP; #--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K ------------------- 0.000010 rho- anti-K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 rho0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 pi- pi0 anti-K*0 PHSP; 0.000005 pi- eta anti-K*0 PHSP; 0.000010 pi+ pi- K*- PHSP; 0.000010 pi0 pi0 K*- PHSP; 0.000005 pi0 eta K*- PHSP; 0.000002 eta eta K*- PHSP; 0.000002 pi0 eta' K*- PHSP; 0.000001 eta eta' K*- PHSP; 0.000010 rho- anti-K0 pi0 PHSP; 0.000005 rho- anti-K0 eta PHSP; 0.000002 rho- anti-K0 eta' PHSP; 0.000010 rho- K- pi+ PHSP; 0.000010 rho+ K- pi- PHSP; 0.000005 rho0 anti-K0 pi- PHSP; 0.000005 rho0 K- pi0 PHSP; 0.000002 rho0 K- eta PHSP; 0.000001 rho0 K- eta' PHSP; 0.000005 omega anti-K0 pi- PHSP; 0.000005 omega K- pi0 PHSP; 0.000002 omega K- eta PHSP; 0.000001 omega K- eta' PHSP; 0.000010 pi+ pi- pi- anti-K0 PHSP; 0.000010 pi- pi0 pi0 anti-K0 PHSP; 0.000005 pi- eta pi0 anti-K0 PHSP; 0.000002 pi- eta eta anti-K0 PHSP; 0.000010 pi+ pi- pi0 K- PHSP; 0.000005 pi+ pi- eta K- PHSP; 0.000010 pi0 pi0 pi0 K- PHSP; 0.000005 pi0 pi0 eta K- PHSP; 0.000002 pi0 eta eta K- PHSP; 0.000002 pi0 pi0 eta' K- PHSP; 0.000001 pi0 eta eta' K- PHSP; 0.000010 rho- anti-K_2*0 PHSP; 0.000010 rho0 K_2*- PHSP; 0.000010 pi- pi0 anti-K_2*0 PHSP; 0.000010 pi0 pi0 K_2*- PHSP; 0.000010 K*- f_0 SVS; 0.000005 K*- a_00 SVS; 0.000005 anti-K*0 a_0- SVS; #--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------ 0.000001 K*0 K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi rho- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi pi- pi0 PHSP; 0.0000005 phi pi- eta PHSP; 0.0000002 phi pi- eta' PHSP; 0.000001 K+ K- rho- PHSP; 0.000001 K0 anti-K0 rho- PHSP; 0.000001 K0 K- rho0 PHSP; 0.000001 K0 K- omega PHSP; 0.000001 K+ K- pi- pi0 PHSP; 0.0000005 K+ K- pi- eta PHSP; 0.0000002 K+ K- pi- eta' PHSP; 0.000001 K0 anti-K0 pi- pi0 PHSP; 0.0000005 K0 anti-K0 pi- eta PHSP; 0.0000002 K0 anti-K0 pi- eta' PHSP; 0.000001 K0 K- pi+ pi- PHSP; 0.000001 K0 K- pi0 pi0 PHSP; 0.0000005 K0 K- pi0 eta PHSP; 0.0000002 K0 K- eta eta PHSP; 0.0000002 K0 K- pi0 eta' PHSP; 0.0000001 K0 K- eta eta' PHSP; 0.000001 K*+ K- pi- PHSP; 0.000001 K*- K+ pi- PHSP; 0.000001 K*0 anti-K0 pi- PHSP; 0.000001 K0 anti-K*0 pi- PHSP; 0.000001 K- K*0 pi0 PHSP; 0.0000005 K- K*0 eta PHSP; 0.0000002 K- K*0 eta' PHSP; 0.000001 K*- K0 pi0 PHSP; 0.0000005 K*- K0 eta PHSP; 0.0000002 K*- K0 eta' PHSP; #--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K ----------------------- 0.000011 phi K*- SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 phi anti-K0 pi- PHSP; 0.000010 phi K- pi0 PHSP; 0.000005 phi K- eta PHSP; 0.000002 phi K- eta' PHSP; 0.000010 K- K+ K*- PHSP; 0.000010 K- K*+ K- PHSP; 0.000010 K- K*0 anti-K0 PHSP; 0.000010 K- K0 anti-K*0 PHSP; 0.000010 K0 K*- anti-K0 PHSP; 0.000010 K+ K- K- pi0 PHSP; 0.000005 K+ K- K- eta PHSP; 0.000002 K+ K- K- eta' PHSP; 0.000010 K+ K- anti-K0 pi- PHSP; 0.000010 K0 anti-K0 K- pi0 PHSP; 0.000005 K0 anti-K0 K- eta PHSP; 0.000002 K0 anti-K0 K- eta' PHSP; 0.000010 K0 anti-K0 anti-K0 pi- PHSP; 0.000010 phi K_2*- PHSP; 0.000010 K- K+ K_2*- PHSP; 0.000010 K- K- K_2*+ PHSP; 0.000010 K- anti-K_2*0 K0 PHSP; 0.000010 K- K_2*0 anti-K0 PHSP; 0.000002 phi K'_1- PHSP; 0.000002 K- K+ K'_1- PHSP; #--- 4-body phi-phi, phi-K-K, K-K-K-K -------------------------------- 0.000001 phi K0 K- PHSP; 0.000001 K+ K- K- K0 PHSP; 0.000001 K0 anti-K0 K0 K- PHSP; # # 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002 # JGS intersperses modes with pi0->eta,eta' # B- modes # # rho0 3-body modes 0.000012 rho0 pi- SVS; 0.000007 rho0 K- SVS; # # rho- 3-body modes 0.000010 rho- anti-K0 SVS; 0.000010 rho- pi0 SVS; # # rho(1450) 3-body modes 0.000001 rho(2S)0 pi- SVS; 0.000001 rho(2S)0 K- SVS; # # f0,a0(980) 3-body modes 0.000001 f_0 pi- PHSP; 0.000010 f_0 K- PHSP; 0.000003 a_0- anti-K0 PHSP; 0.000003 a_00 K- PHSP; 0.000005 a_00 pi- PHSP; 0.000001 a_0- pi0 PHSP; # # phi 3-body modes #0402270.000002 phi pi- SVS; #0402270.000010 phi K- SVS; # # K*0(892) 3-body modes 0.000015 anti-K*0 pi- SVS; 0.000002 K*0 K- SVS; # # K*0(1430) 3-body modes 0.000070 anti-K_2*0 pi- STS; 0.000002 K_2*0 K- STS; # # K*-(892) 3-body modes 0.000002 K*- pi0 SVS; 0.000003 K*- K0 SVS; # # K*-(1430) 3-body modes 0.000002 K_2*- pi0 STS; 0.000002 K_2*- K0 STS; # # # Non-resonant 3-body left-overs # Most modes are set at 1e-6 # # pi-pi+pi-: high mass + f0(400-1200) = (1+1)e-6 #0402270.000002 pi- pi+ pi- PHSP; # # K- pi+ pi-: high mass + f0(400-1200) = (5+5)e-6 0.000010 K- pi+ pi- PHSP; # # K- K+ pi-: just non-resonant 0.000002 K- K+ pi- PHSP; # # K- K+ K-: high mass structure near 1500 + non-res 0.000025 K- K+ K- PHSP; # # # K-K-pi+: suppressed mode (1e-7) 0.0000001 K- K- pi+ PHSP; # K+pi-pi-: suppressed mode (1e-7) 0.0000001 K+ pi- pi- PHSP; # # # K- K0 pi0 0.000001 K- K0 pi0 PHSP; 0.000001 K- K0 eta PHSP; 0.000001 K- K0 eta' PHSP; # # pi- anti-K0 pi0 0.000001 pi- anti-K0 pi0 PHSP; 0.000001 pi- anti-K0 eta PHSP; 0.000001 pi- anti-K0 eta' PHSP; # # pi- pi0 pi0 #0402270.000001 pi- pi0 pi0 PHSP; 0.000001 pi- pi0 eta PHSP; 0.000001 pi- pi0 eta' PHSP; 0.000001 pi- eta eta PHSP; 0.000001 pi- eta eta' PHSP; # # K- pi0 pi0 0.000001 K- pi0 pi0 PHSP; 0.000001 K- pi0 eta PHSP; 0.000001 K- pi0 eta' PHSP; 0.000001 K- eta eta PHSP; 0.000001 K- eta eta' PHSP; # # K- anti-K0 K0 0.000010 K- anti-K0 K0 PHSP; # # pi- anti-K0 K0 0.000003 pi- anti-K0 K0 PHSP; # ###### end of John Back changes # Enddecay # Decay B+ # # b -> c semileptonic 0.0560 anti-D*0 e+ nu_e PHOTOS HQET 0.92 1.18 0.72; 0.0210 anti-D0 e+ nu_e PHOTOS ISGW2; 0.0056 anti-D_10 e+ nu_e PHOTOS ISGW2; 0.0020 anti-D_0*0 e+ nu_e PHOTOS ISGW2; 0.0037 anti-D'_10 e+ nu_e PHOTOS ISGW2; 0.0037 anti-D_2*0 e+ nu_e PHOTOS ISGW2; 0.0020 D*- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; 0.0010 anti-D*0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; 0.0060 D- pi+ e+ nu_e PHOTOS GOITY_ROBERTS; 0.0030 anti-D0 pi0 e+ nu_e PHOTOS GOITY_ROBERTS; 0.0560 anti-D*0 mu+ nu_mu PHOTOS HQET 0.92 1.18 0.72; 0.0210 anti-D0 mu+ nu_mu PHOTOS ISGW2; 0.0056 anti-D_10 mu+ nu_mu PHOTOS ISGW2; 0.0020 anti-D_0*0 mu+ nu_mu PHOTOS ISGW2; 0.0037 anti-D'_10 mu+ nu_mu PHOTOS ISGW2; 0.0037 anti-D_2*0 mu+ nu_mu PHOTOS ISGW2; 0.0020 D*- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; 0.0010 anti-D*0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; 0.0060 D- pi+ mu+ nu_mu PHOTOS GOITY_ROBERTS; 0.0030 anti-D0 pi0 mu+ nu_mu PHOTOS GOITY_ROBERTS; # # b -> c tau nu # 0.0160 anti-D*0 tau+ nu_tau ISGW2; 0.0070 anti-D0 tau+ nu_tau ISGW2; 0.0013 anti-D_10 tau+ nu_tau ISGW2; 0.0013 anti-D_0*0 tau+ nu_tau ISGW2; 0.0020 anti-D'_10 tau+ nu_tau ISGW2; 0.0020 anti-D_2*0 tau+ nu_tau ISGW2; # # b -> u l nu # 0.000090 pi0 e+ nu_e PHOTOS ISGW2; 0.000030 eta e+ nu_e PHOTOS ISGW2; 0.000130 rho0 e+ nu_e PHOTOS ISGW2; 0.000130 omega e+ nu_e PHOTOS ISGW2; 0.000060 eta' e+ nu_e PHOTOS ISGW2; 0.000082 a_10 e+ nu_e PHOTOS ISGW2; 0.000007 a_20 e+ nu_e PHOTOS ISGW2; 0.000048 b_10 e+ nu_e PHOTOS ISGW2; 0.000007 a_00 e+ nu_e PHOTOS ISGW2; 0.000004 f_0 e+ nu_e PHOTOS ISGW2; 0.000004 f'_0 e+ nu_e PHOTOS ISGW2; 0.000041 f_1 e+ nu_e PHOTOS ISGW2; 0.000041 f'_1 e+ nu_e PHOTOS ISGW2; 0.000024 h_1 e+ nu_e PHOTOS ISGW2; 0.000024 h'_1 e+ nu_e PHOTOS ISGW2; 0.000004 f_2 e+ nu_e PHOTOS ISGW2; 0.000004 f'_2 e+ nu_e PHOTOS ISGW2; 0.000000 anti-D(2S)0 e+ nu_e PHOTOS ISGW2; 0.000000 anti-D*(2S)0 e+ nu_e PHOTOS ISGW2; 0.001365 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; # 0.000090 pi0 mu+ nu_mu PHOTOS ISGW2; 0.000030 eta mu+ nu_mu PHOTOS ISGW2; 0.000130 rho0 mu+ nu_mu PHOTOS ISGW2; 0.000130 omega mu+ nu_mu PHOTOS ISGW2; 0.000060 eta' mu+ nu_mu PHOTOS ISGW2; 0.000082 a_10 mu+ nu_mu PHOTOS ISGW2; 0.000007 a_20 mu+ nu_mu PHOTOS ISGW2; 0.000048 b_10 mu+ nu_mu PHOTOS ISGW2; 0.000007 a_00 mu+ nu_mu PHOTOS ISGW2; 0.000004 f_0 mu+ nu_mu PHOTOS ISGW2; 0.000004 f'_0 mu+ nu_mu PHOTOS ISGW2; 0.000041 f_1 mu+ nu_mu PHOTOS ISGW2; 0.000041 f'_1 mu+ nu_mu PHOTOS ISGW2; 0.000024 h_1 mu+ nu_mu PHOTOS ISGW2; 0.000024 h'_1 mu+ nu_mu PHOTOS ISGW2; 0.000004 f_2 mu+ nu_mu PHOTOS ISGW2; 0.000004 f'_2 mu+ nu_mu PHOTOS ISGW2; 0.000000 anti-D(2S)0 mu+ nu_mu PHOTOS ISGW2; 0.000000 anti-D*(2S)0 mu+ nu_mu PHOTOS ISGW2; 0.001365 Xu0 mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 20 0.30 0.54 1.20 0.95 1.26 0.78 1.34 0.98 1.41 0.91 1.48 1.23 1.55 1.36 1.61 1.39 1.67 1.38 1.73 1.43 1.79 1.41 1.84 1.42 1.90 1.45 1.95 1.40 2.00 1.42 2.50 1.31 3.00 1.36 3.50 1.15 4.00 1.01 4.50 1.51; # 0.000030 pi0 tau+ nu_tau ISGW2; 0.000012 eta tau+ nu_tau ISGW2; 0.000042 rho0 tau+ nu_tau ISGW2; 0.000042 omega tau+ nu_tau ISGW2; 0.000018 eta' tau+ nu_tau ISGW2; 0.000046 a_10 tau+ nu_tau ISGW2; 0.000027 b_10 tau+ nu_tau ISGW2; 0.000004 a_00 tau+ nu_tau ISGW2; 0.000002 f_0 tau+ nu_tau ISGW2; 0.000002 f'_0 tau+ nu_tau ISGW2; 0.000023 f_1 tau+ nu_tau ISGW2; 0.000023 f'_1 tau+ nu_tau ISGW2; 0.000013 h_1 tau+ nu_tau ISGW2; 0.000013 h'_1 tau+ nu_tau ISGW2; 0.000020 f_2 tau+ nu_tau ISGW2; 0.000020 f'_2 tau+ nu_tau ISGW2; 0.000000 anti-D(2S)0 tau+ nu_tau ISGW2; 0.000000 anti-D*(2S)0 tau+ nu_tau ISGW2; # # # b->u hadronic # Ref. [B1]: # 0.000016 D_s+ pi0 PHSP; 0.000016 D_s*+ pi0 SVS; # 0.000023 rho0 D_s+ SVS; 0.000023 D_s*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # b-> s gamma # 0.000045 K*+ gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000135 K_1+ gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000065 K'_1+ gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000128 K'*+ gamma HELAMP 1.0 0.0 1.0 0.0; 0.0000166 K_2*+ gamma HELAMP 1.0 0.0 1.0 0.0; #0.0000017 K''*+ gamma HELAMP 1.0 0.0 1.0 0.0; 0.0002674 Xsu gamma BTOXSGAMMA 2 ; # 0.00000057 K+ e+ e- PHOTOS BTOSLLBALL; 0.0000023 K*+ e+ e- PHOTOS BTOSLLBALL; 0.000004 Xsu e+ e- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000057 K+ mu+ mu- PHOTOS BTOSLLBALL; 0.0000019 K*+ mu+ mu- PHOTOS BTOSLLBALL; 0.000004 Xsu mu+ mu- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; 0.00000013 K+ tau+ tau- PHOTOS BTOSLLBALL; 0.00000019 K*+ tau+ tau- PHOTOS BTOSLLBALL; 0.0000002 Xsu tau+ tau- PHOTOS BTOXSLL 4.8 0.2 0.0 0.41; # # b -> l nu # 0.000050 tau+ nu_tau SLN; 0.000000 mu+ nu_mu PHOTOS SLN; 0.000000 e+ nu_e PHOTOS SLN; # # Exclusive hadronic b->u # 0.000026 pi+ pi0 pi0 CB3PI-P00 alpha; 0.000011 pi+ pi+ pi- CB3PI-MPP alpha; #### 0.000005 eta pi+ PHSP; 0.000004 eta K+ PHSP; 0.000026 K*+ eta SVS; 0.000005 rho+ eta SVS; 0.000002 eta' pi+ PHSP; 0.000075 eta' K+ PHSP; 0.000005 K*+ eta' SVS; 0.000005 rho+ eta' SVS; 0.000008 omega pi+ SVS; 0.000005 omega K+ SVS; 0.000010 omega K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000015 omega rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi pi+ SVS; 0.000009 phi K+ SVS; #2-body modes from Jim Olsen # (K_S0 K- and K_L0 K- -> 1x10^-6, Jim Olsen - Mar 27, 2001) # (pi- pi0 -> 5x10^-6 and K- pi0 -> 11x10^-6, Jim Olsen - Mar 27, 2001) 0.000018 K0 pi+ PHSP; 0.0000014 anti-K0 K+ PHSP; 0.0000058 pi+ pi0 PHSP; 0.000012 K+ pi0 PHSP; #4-body modes from Andrei Gritsan #--- 4-body rho-rho, rho-pi-pi, pi-pi-pi-pi -------------------------- 0.000015 rho+ rho0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 rho0 pi+ pi0 PHSP; 0.000005 rho0 pi+ eta PHSP; 0.000002 rho0 pi+ eta' PHSP; 0.000010 omega pi+ pi0 PHSP; 0.000005 omega pi+ eta PHSP; 0.000002 omega pi+ eta' PHSP; 0.000010 rho+ pi+ pi- PHSP; 0.000010 rho+ pi0 pi0 PHSP; 0.000005 rho+ pi0 eta PHSP; 0.000002 rho+ eta eta PHSP; 0.000002 rho+ pi0 eta' PHSP; 0.000010 pi- pi+ pi+ pi0 PHSP; 0.000005 pi- pi+ pi+ eta PHSP; 0.000002 pi- pi+ pi+ eta' PHSP; 0.000010 pi+ pi0 pi0 pi0 PHSP; 0.000005 pi+ eta pi0 pi0 PHSP; 0.000002 pi+ eta eta pi0 PHSP; 0.000002 pi+ eta' pi0 pi0 PHSP; 0.000001 pi+ eta' eta pi0 PHSP; 0.000010 a_10 pi+ SVS; 0.000010 a_1+ pi0 SVS; 0.000010 rho+ f_0 SVS; 0.000010 rho+ a_00 SVS; 0.000002 rho0 a_0+ SVS; 0.000010 f_0 pi+ pi0 PHSP; 0.000001 a_00 pi+ pi0 PHSP; 0.000001 a_0+ pi0 pi0 PHSP; 0.000001 a_0- pi+ pi+ PHSP; #--- 4-body rho-K*, rho-pi-K, K*-pi-pi, pi-pi-pi-K ------------------- 0.000010 rho+ K*0 SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 rho0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 pi+ pi0 K*0 PHSP; 0.000005 pi+ eta K*0 PHSP; 0.000010 pi- pi+ K*+ PHSP; 0.000010 pi0 pi0 K*+ PHSP; 0.000005 pi0 eta K*+ PHSP; 0.000002 eta eta K*+ PHSP; 0.000002 pi0 eta' K*+ PHSP; 0.000001 eta eta' K*+ PHSP; 0.000010 rho+ K0 pi0 PHSP; 0.000005 rho+ K0 eta PHSP; 0.000002 rho+ K0 eta' PHSP; 0.000010 rho+ K+ pi- PHSP; 0.000010 rho- K+ pi+ PHSP; 0.000005 rho0 K0 pi+ PHSP; 0.000005 rho0 K+ pi0 PHSP; 0.000002 rho0 K+ eta PHSP; 0.000001 rho0 K+ eta' PHSP; 0.000005 omega K0 pi+ PHSP; 0.000005 omega K+ pi0 PHSP; 0.000002 omega K+ eta PHSP; 0.000001 omega K+ eta' PHSP; 0.000010 pi+ pi+ pi- K0 PHSP; 0.000010 pi+ pi0 pi0 K0 PHSP; 0.000005 pi+ eta pi0 K0 PHSP; 0.000002 pi+ eta eta K0 PHSP; 0.000010 pi+ pi- pi0 K+ PHSP; 0.000005 pi+ pi- eta K+ PHSP; 0.000010 pi0 pi0 pi0 K+ PHSP; 0.000005 pi0 pi0 eta K+ PHSP; 0.000002 pi0 eta eta K+ PHSP; 0.000002 pi0 pi0 eta' K+ PHSP; 0.000001 pi0 eta eta' K+ PHSP; 0.000010 rho+ K_2*0 PHSP; 0.000010 rho0 K_2*+ PHSP; 0.000010 pi+ pi0 K_2*0 PHSP; 0.000010 pi0 pi0 K_2*+ PHSP; 0.000010 K*+ f_0 SVS; 0.000005 K*+ a_00 SVS; 0.000005 K*0 a_0+ SVS; #--- 4-body K*-K*, rho-K-K, K*-K-pi, phi-pi-pi, pi-pi-K-K ------------ 0.000001 K*0 K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi rho+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000001 phi pi+ pi0 PHSP; 0.0000005 phi pi+ eta PHSP; 0.0000002 phi pi+ eta' PHSP; 0.000001 K+ K- rho+ PHSP; 0.000001 K0 anti-K0 rho+ PHSP; 0.000001 K0 K+ rho0 PHSP; 0.000001 K0 K+ omega PHSP; 0.000001 K+ K- pi+ pi0 PHSP; 0.0000005 K+ K- pi+ eta PHSP; 0.0000002 K+ K- pi+ eta' PHSP; 0.000001 K0 anti-K0 pi+ pi0 PHSP; 0.0000005 K0 anti-K0 pi+ eta PHSP; 0.0000002 K0 anti-K0 pi+ eta' PHSP; 0.000001 anti-K0 K+ pi+ pi- PHSP; 0.000001 anti-K0 K+ pi0 pi0 PHSP; 0.0000005 anti-K0 K+ pi0 eta PHSP; 0.0000002 anti-K0 K+ eta eta PHSP; 0.0000002 anti-K0 K+ pi0 eta' PHSP; 0.0000001 anti-K0 K+ eta eta' PHSP; 0.000001 K*+ K- pi+ PHSP; 0.000001 K*- K+ pi+ PHSP; 0.000001 K*0 anti-K0 pi+ PHSP; 0.000001 K0 anti-K*0 pi+ PHSP; 0.000001 K+ anti-K*0 pi0 PHSP; 0.0000005 K+ anti-K*0 eta PHSP; 0.0000002 K+ anti-K*0 eta' PHSP; 0.000001 K*+ anti-K0 pi0 PHSP; 0.0000005 K*+ anti-K0 eta PHSP; 0.0000002 K*+ anti-K0 eta' PHSP; #--- 4-body phi-K*, phi-K-pi, K-K-K*, pi-K-K-K ----------------------- 0.000011 phi K*+ SVV_HELAMP 1.0 0.0 1.7 0.0 1.0 0.0; 0.000010 phi K0 pi+ PHSP; 0.000010 phi K+ pi0 PHSP; 0.000005 phi K+ eta PHSP; 0.000002 phi K+ eta' PHSP; 0.000010 K- K+ K*+ PHSP; 0.000010 K+ K*- K+ PHSP; 0.000010 K+ K*0 anti-K0 PHSP; 0.000010 K+ K0 anti-K*0 PHSP; 0.000010 K0 K*+ anti-K0 PHSP; 0.000010 K+ K- K+ pi0 PHSP; 0.000005 K+ K- K+ eta PHSP; 0.000002 K+ K- K+ eta' PHSP; 0.000010 K+ K- K0 pi+ PHSP; 0.000010 K0 anti-K0 K+ pi0 PHSP; 0.000005 K0 anti-K0 K+ eta PHSP; 0.000002 K0 anti-K0 K+ eta' PHSP; 0.000010 K0 anti-K0 K0 pi+ PHSP; 0.000010 phi K_2*+ PHSP; 0.000010 K- K+ K_2*+ PHSP; 0.000010 K+ K+ K_2*- PHSP; 0.000010 K+ anti-K_2*0 K0 PHSP; 0.000010 K+ K_2*0 anti-K0 PHSP; 0.000002 phi K'_1+ PHSP; 0.000002 K- K+ K'_1+ PHSP; #--- 4-body phi-phi, phi-K-K, K-K-K-K -------------------------------- 0.000001 phi K0 K+ PHSP; 0.000001 K+ K- K+ K0 PHSP; 0.000001 K0 anti-K0 anti-K0 K+ PHSP; # # 3-body John Back (jback@slac.stanford.edu) - Oct 15, 2002 # JGS intersperses modes with pi0->eta,eta' # B+ modes # # rho0 3-body modes 0.000012 rho0 pi+ SVS; 0.000007 rho0 K+ SVS; # # rho+ 3-body modes 0.000010 rho+ pi0 SVS; 0.000010 rho+ K0 SVS; # # rho(1450) 3-body modes 0.000001 rho(2S)0 pi+ SVS; 0.000001 rho(2S)0 K+ SVS; # # f0(980) 3-body modes 0.000001 f_0 pi+ PHSP; 0.000010 f_0 K+ PHSP; 0.000003 a_0+ K0 PHSP; 0.000003 a_00 K+ PHSP; 0.000005 a_00 pi+ PHSP; 0.000001 a_0+ pi0 PHSP; # # phi 3-body modes #0402270.000002 phi pi+ SVS; #0402270.000010 phi K+ SVS; # # K*0(892) 3-body modes 0.000015 K*0 pi+ SVS; 0.000002 anti-K*0 K+ SVS; # # K*0(1430) 3-body modes 0.000070 K_2*0 pi+ STS; 0.000002 anti-K_2*0 K+ STS; # # K*+(892) 3-body modes 0.000002 K*+ pi0 SVS; 0.000003 K*+ anti-K0 SVS; # # K*+(1430) 3-body modes 0.000002 K_2*+ pi0 STS; 0.000002 K_2*+ anti-K0 STS; # # # Non-resonant 3-body left-overs # Most modes are set at 1e-6 # # pi+pi-pi+: high mass + f0(400-1200) = (1+1)e-6 #0402270.000002 pi+ pi- pi+ PHSP; # # K+ pi- pi+: high mass + f0(400-1200) = (5+5)e-6 0.000010 K+ pi- pi+ PHSP; # # K+ K- pi+: just non-resonant 0.000002 K+ K- pi+ PHSP; # # K+K-K+: high mass structure near 1500 + non-res 0.000025 K+ K- K+ PHSP; # # # K+K+pi-: suppressed mode (1e-7) 0.0000001 K+ K+ pi- PHSP; # K-pi+pi+: suppressed mode (1e-7) 0.0000001 K- pi+ pi+ PHSP; # # # K+ anti-K0 pi0 0.000001 K+ anti-K0 pi0 PHSP; 0.000001 K+ anti-K0 eta PHSP; 0.000001 K+ anti-K0 eta' PHSP; # # pi+ K0 pi0 0.000001 pi+ K0 pi0 PHSP; 0.000001 pi+ K0 eta PHSP; 0.000001 pi+ K0 eta' PHSP; # # pi+ pi0 pi0 #0402270.000001 pi+ pi0 pi0 PHSP; 0.000001 pi+ pi0 eta PHSP; 0.000001 pi+ pi0 eta' PHSP; 0.000001 pi+ eta eta PHSP; 0.000001 pi+ eta eta' PHSP; # # K+ pi0 pi0 0.000001 K+ pi0 pi0 PHSP; 0.000001 K+ pi0 eta PHSP; 0.000001 K+ pi0 eta' PHSP; 0.000001 K+ eta eta PHSP; 0.000001 K+ eta eta' PHSP; # # # K+ K0 anti-K0 0.000010 K+ K0 anti-K0 PHSP; # # pi+ K0 anti-K0 0.000003 pi+ K0 anti-K0 PHSP; # ### end of John Back changes # # B -> cc= s sum = 1.92% # 0.0009 J/psi K+ SVS; 0.0013 J/psi K*+ SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; 0.00004 J/psi pi+ SVS; 0.00006 J/psi rho+ SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; 0.0002 J/psi K0 pi+ PHSP; 0.0001 J/psi K+ pi0 PHSP; #rl0.0007 J/psi K+ pi- pi+ PHSP; #rl0.00035 J/psi K+ pi0 pi0 PHSP; #rl0.00035 J/psi K0 pi+ pi0 PHSP; 0.0015 J/psi K_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.0001 J/psi K'_1+ SVV_HELAMP 0.5 0.0 1.0 0.0 0.5 0.0; 0.0005 J/psi K_2*+ PHSP; 0.00009 J/psi phi K+ PHSP; # 0.00062 psi(2S) K+ SVS; 0.0009 psi(2S) K*+ SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; 0.0004 psi(2S) K0 pi+ PHSP; 0.0002 psi(2S) K+ pi0 PHSP; 0.0002 psi(2S) K+ pi- pi+ PHSP; 0.0001 psi(2S) K+ pi0 pi0 PHSP; 0.0001 psi(2S) K0 pi+ pi0 PHSP; 0.0004 psi(2S) K_1+ PHSP; # 0.0008 eta_c K+ PHSP; 0.0012 K*+ eta_c SVS; 0.0002 eta_c K0 pi+ PHSP; 0.0001 eta_c K+ pi0 PHSP; 0.0002 eta_c K+ pi- pi+ PHSP; 0.0001 eta_c K+ pi0 pi0 PHSP; 0.0001 eta_c K0 pi+ pi0 PHSP; # 0.0002 chi_c0 K+ PHSP; 0.0003 K*+ chi_c0 SVS; 0.0002 chi_c0 K0 pi+ PHSP; 0.0001 chi_c0 K+ pi0 PHSP; 0.0002 chi_c0 K+ pi- pi+ PHSP; 0.0001 chi_c0 K+ pi0 pi0 PHSP; 0.0001 chi_c0 K0 pi+ pi0 PHSP; # 0.0006 chi_c1 K+ SVS; 0.0006 chi_c1 K*+ SVV_HELAMP PKHminus PKphHminus PKHzero PKphHzero PKHplus PKphHplus; 0.0004 chi_c1 K0 pi+ PHSP; 0.0002 chi_c1 K+ pi0 PHSP; 0.0004 chi_c1 K+ pi- pi+ PHSP; 0.0002 chi_c1 K+ pi0 pi0 PHSP; 0.0002 chi_c1 K0 pi+ pi0 PHSP; # 0.0002 chi_c2 K+ STS; 0.0004 chi_c2 K*+ PHSP; 0.0002 chi_c2 K0 pi+ PHSP; 0.0001 chi_c2 K+ pi0 PHSP; 0.0002 chi_c2 K+ pi- pi+ PHSP; 0.0001 chi_c2 K+ pi0 pi0 PHSP; 0.0001 chi_c2 K0 pi+ pi0 PHSP; # # b -> c (sc=) -> D Ds X Sum = 10% # 0.0106 anti-D0 D_s+ PHSP; 0.0102 anti-D*0 D_s+ SVS; 0.0091 D_s*+ anti-D0 SVS; 0.0228 D_s*+ anti-D*0 SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0010 anti-D'_10 D_s+ SVS; 0.0020 anti-D'_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0020 anti-D_10 D_s+ SVS; 0.0040 anti-D_10 D_s*+ SVV_HELAMP 0.48 0.0 0.734 0.0 0.48 0.0; 0.0070 anti-D_2*0 D_s+ STS; 0.0140 anti-D_2*0 D_s*+ PHSP; # # 0.0060 D_s+ D- pi+ PHSP; 0.0030 D_s+ anti-D0 pi0 PHSP; 0.0060 D_s*+ D- pi+ PHSP; 0.0030 D_s*+ anti-D0 pi0 PHSP; 0.0055 D_s+ D- pi+ pi0 PHSP; 0.0055 D_s+ anti-D0 pi+ pi- PHSP; 0.0014 D_s+ anti-D0 pi0 pi0 PHSP; 0.0055 D_s*+ D- pi+ pi0 PHSP; 0.0055 D_s*+ anti-D0 pi+ pi- PHSP; 0.0014 D_s*+ anti-D0 pi0 pi0 PHSP; # # b -> c (sc=) -> D D= K X Sum = 8% # update: Ref. [B1]: # 0.0019 anti-D0 D0 K+ PHSP; 0.0017 anti-D0 D+ K0 PHSP; 0.0025 anti-D0 D0 K*+ PHSP; 0.0025 anti-D0 D+ K*0 PHSP; # 0.0015 anti-D*0 D0 K+ PHSP; 0.0030 anti-D*0 D+ K0 PHSP; 0.0048 anti-D0 D*0 K+ PHSP; 0.0052 anti-D0 D*+ K0 PHSP; # 0.0025 anti-D*0 D0 K*+ PHSP; 0.0025 anti-D*0 D+ K*0 PHSP; 0.0025 anti-D0 D*0 K*+ PHSP; 0.0025 anti-D0 D*+ K*0 PHSP; # 0.0053 anti-D*0 D*0 K+ PHSP; 0.0078 anti-D*0 D*+ K0 PHSP; 0.0050 anti-D*0 D*0 K*+ PHSP; 0.0050 anti-D*0 D*+ K*0 PHSP; #Add color suppressed modes as recommended by Jean-Pierre Lees #Lange September 5, 2000 0.0003 D+ D- K+ PHSP; 0.0005 D+ D- K*+ PHSP; 0.0015 D*+ D- K+ PHSP; 0.0005 D*+ D- K*+ PHSP; 0.0005 D+ D*- K+ PHSP; 0.0005 D+ D*- K*+ PHSP; 0.0011 D*+ D*- K+ PHSP; 0.0010 D*+ D*- K*+ PHSP; # # B->D(*)D(*). See Ref [B1]: # 0.00027 D+ anti-D0 PHSP; 0.000335 D*+ anti-D0 SVS; 0.000335 anti-D*0 D+ SVS; 0.00104 anti-D*0 D*+ SVV_HELAMP 0.56 0.0 0.96 0.0 0.47 0.0; # # B -> D(*) X Exclusive Modes # 0.0046 anti-D*0 pi+ SVS; 0.0053 anti-D0 pi+ PHSP; 0.0134 rho+ anti-D0 SVS; # D* rho HELAMP parameters taken from ICHEP 98-852. 0.0155 anti-D*0 rho+ SVV_HELAMP 0.283 1.13 0.932 0.0 0.228 0.95; # 0.0005 anti-D0 pi0 pi+ PHSP; 0.0005 anti-D*0 pi0 pi+ PHSP; 0.0005 D- pi+ pi+ PHSP; 0.0021 D*- pi+ pi+ PHSP; # # D a1 updated Ref. [B1]: 0.00887 a_1+ anti-D0 SVS; 0.0021 anti-D0 rho0 pi+ PHSP; 0.0050 anti-D0 pi- pi+ pi+ PHSP; # # SVV_HELAMP from factorization, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/168.html: # updated Ref. [B1]: # 0.01597 anti-D*0 a_1+ SVV_HELAMP 0.336 0.0 0.88 0.0 0.336 0.0; # 0.0005 anti-D*0 rho0 pi+ PHSP; 0.0005 anti-D*0 pi- pi+ pi+ PHSP; # 0.0020 D- rho+ pi+ PHSP; 0.0020 D- pi0 pi+ pi+ PHSP; 0.0020 D*- rho+ pi+ PHSP; 0.0150 D*- pi0 pi+ pi+ PHSP; 0.0005 anti-D*0 rho+ pi0 PHSP; 0.0005 anti-D*0 pi+ pi0 pi0 PHSP; # # B->D** pi and D** rho, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html # 0.0010 anti-D_10 pi+ SVS; 0.0016 anti-D'_10 pi+ SVS; 0.0015 anti-D_2*0 pi+ STS; 0.0007 anti-D_10 rho+ PHSP; 0.0022 anti-D'_10 rho+ PHSP; 0.0038 anti-D_2*0 rho+ PHSP; # # # B->DK, recommendation # http://babar-hn.slac.stanford.edu:5090/HyperNews/get/event_gen/151.html: # update: Ref [B1]: # 0.00044 anti-D0 K+ PHSP; 0.00036 anti-D*0 K+ SVS; 0.00061 K*+ anti-D0 SVS; 0.00077 anti-D*0 K*+ SVV_HELAMP 0.283 0.0 0.932 0.0 0.228 0.0; # # # Lam_c X / Sigma_c X # 0.04000 anti-cd_1 uu_1 JETSET 23; # # Xi_c X 2.4% # 0.02400 anti-cs_1 uu_1 JETSET 23; # # 0.212216 u anti-d anti-c u JETSET 48; 0.04300 u anti-d anti-c u JETSET 25; 0.02250 u anti-s anti-c u JETSET 23; #lange - try to crank up the psi production.... 0.07400 c anti-s anti-c u JETSET 13; 0.00400 c anti-d anti-c u JETSET 13; 0.00300 u anti-d anti-u u JETSET 48; 0.00400 c anti-s anti-u u JETSET 48; # JGS 11/5/02 This and similar a few lines above have been divided by two # to solve a double-counting problem for this channel 0.00205 u anti-u anti-d u JETSET 48; 0.00070 d anti-d anti-d u JETSET 48; 0.00090 s anti-s anti-d u JETSET 48; 0.00220 u anti-u anti-s u JETSET 48; 0.00180 d anti-d anti-s u JETSET 48; 0.00150 s anti-s anti-s u JETSET 48; 0.00500 anti-s g u JETSET 33; #### Enddecay #----------------------------------------------------------------- # B references: # # [B1]: http://www.slac.stanford.edu/BFROOT/www/Physics/Tools/generators/dec-update/2002/Breco-recommendations.html # #----------------------------------------------------------------- # # # B* mesons # Decay B*+ 1.0000 B+ gamma VSP_PWAVE; Enddecay Decay B*- 1.0000 B- gamma VSP_PWAVE; Enddecay Decay B*0 1.0000 B0 gamma VSP_PWAVE; Enddecay Decay anti-B*0 1.0000 anti-B0 gamma VSP_PWAVE; Enddecay Decay B_s*0 1.0000 B_s0 gamma VSP_PWAVE; Enddecay Decay anti-B_s*0 1.0000 anti-B_s0 gamma VSP_PWAVE; Enddecay # # B_s decays. # # # To count up the BR for this decay: # awk ' /^0./{ sum = sum + $1 ;print sum } ' junk.dec # # anti-B_s decays. # ------------------------------------------------------- # whb&fkw 3/28/01 Taken from fkw's QQ tables. # most dubious part are the B to baryons. # fkw 4/28/00 made the Bs parallel to the Bd as best as I could # ------------------------------------------------------- # Decay anti-B_s0 # b --> c (l nu) # Sum = 24.5% 0.0210 D_s+ e- anti-nu_e PHOTOS ISGW2; 0.0490 D_s*+ e- anti-nu_e PHOTOS ISGW2; 0.0040 D_s1+ e- anti-nu_e PHOTOS ISGW2; 0.0040 D_s0*+ e- anti-nu_e PHOTOS ISGW2; 0.0070 D'_s1+ e- anti-nu_e PHOTOS ISGW2; 0.0070 D_s2*+ e- anti-nu_e PHOTOS ISGW2; # 0.0210 D_s+ mu- anti-nu_mu PHOTOS ISGW2; 0.0490 D_s*+ mu- anti-nu_mu PHOTOS ISGW2; 0.0040 D_s1+ mu- anti-nu_mu PHOTOS ISGW2; 0.0040 D_s0*+ mu- anti-nu_mu PHOTOS ISGW2; 0.0070 D'_s1+ mu- anti-nu_mu PHOTOS ISGW2; 0.0070 D_s2*+ mu- anti-nu_mu PHOTOS ISGW2; # #0.0070 D_s+ tau- anti-nu_tau ISGW2; #0.0150 D_s*+ tau- anti-nu_tau ISGW2; #0.0013 D_s1+ tau- anti-nu_tau ISGW2; #0.0013 D_s0*+ tau- anti-nu_tau ISGW2; #0.0023 D'_s1+ tau- anti-nu_tau ISGW2; #0.0023 D_s2*+ tau- anti-nu_tau ISGW2; # fkw 5/04/01 changed the above to account for the non-res part that I # had to take out. 0.0080 D_s+ tau- anti-nu_tau ISGW2; 0.0160 D_s*+ tau- anti-nu_tau ISGW2; 0.0018 D_s1+ tau- anti-nu_tau ISGW2; 0.0018 D_s0*+ tau- anti-nu_tau ISGW2; 0.0028 D'_s1+ tau- anti-nu_tau ISGW2; 0.0028 D_s2*+ tau- anti-nu_tau ISGW2; # # fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped # between the charm quark and the spectator. I can thus not # just replace a D by a Ds as above when going from Bd to Bs. # fkw 5/04/01 Had to take these out because they crash EvtGen. # Will have to fix this eventually !!! #0.0010 D*0 K+ tau- anti-nu_tau GOITY_ROBERTS; #0.0010 D*+ K0 tau- anti-nu_tau GOITY_ROBERTS; #0.0010 D0 K+ tau- anti-nu_tau GOITY_ROBERTS; #0.0010 D+ K0 tau- anti-nu_tau GOITY_ROBERTS; # fkw 4/28/00 B0B -> TAU D PI0 = 1/2 of TAU D PI+ because of pi0 wave function # However, the same factor of 1/2 doesn't apply to BSB !!! # # fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature. # I don't pretend to understand why. PDG 2000 has a limit of # < 3.2e-3 where one might naively expect # 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)% #0.0050 anti-nu_e e- ??? Baryon #0.0050 anti-nu_mu mu- ??? Baryon # # b --> c (s c=) # Sum = 11.44% # 2-body = 4.72% # more-body = 6.72% 0.0086 D_s- D_s+ PHSP; 0.0090 D_s*+ D_s- SVS; 0.0099 D_s*- D_s+ SVS; 0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # fkw 4/28/00 more states with popped q\bar q. # The one's here involve only popped and spectator. # Popping stuff in the cs from the W comes further below. # The same isospin comment applies here as above in the # semi-leptonic decays with tau and popped q\bar q. 0.0096 D_s- D+ K0 PHSP; 0.0096 D_s- anti-D0 K+ PHSP; 0.0096 D_s*- D+ K0 PHSP; 0.0096 D_s*- D0 K+ PHSP; # 0.0024 D_s- D+ pi0 K0 PHSP; 0.0048 D_s- D0 pi+ K0 PHSP; 0.0048 D_s- D+ pi- K+ PHSP; 0.0024 D_s- D0 pi0 K+ PHSP; # 0.0024 D_s*- D+ pi0 K0 PHSP; 0.0048 D_s*- D0 pi+ K0 PHSP; 0.0048 D_s*- D+ pi- K+ PHSP; 0.0024 D_s*- D0 pi0 K+ PHSP; # # # b --> (c ) (c ) (s ) # Sum = 8.0% # DDK amplitudes R.A.Briere 10/97 # fkw 4/28/00 these are q\bar q popping that don't involve the spectator # Bd->Bs just involves switching the c\bar d to c\bar s. # 0.0150 D_s*+ anti-D*0 K- PHSP; 0.0150 D_s*+ D*- anti-K0 PHSP; # 0.0050 D_s*+ anti-D0 K- PHSP; 0.0050 D_s*+ D- anti-K0 PHSP; # 0.0050 D_s+ anti-D*0 K- PHSP; 0.0050 D_s+ D*- anti-K0 PHSP; # 0.0020 D_s+ anti-D0 K- PHSP; 0.0020 D_s+ D- anti-K0 PHSP; # 0.0030 D_s*+ anti-D*0 K*- PHSP; 0.0030 D_s*+ D*- anti-K*0 PHSP; # 0.0050 D_s*+ anti-D0 K*- PHSP; 0.0050 D_s*+ D- anti-K*0 PHSP; # 0.0025 D_s+ anti-D*0 K*- PHSP; 0.0025 D_s+ D*- anti-K*0 PHSP; # 0.0025 D_s+ anti-D0 K*- PHSP; 0.0025 D_s+ D- anti-K*0 PHSP; # # # b --> c (d c=) # Sum = 1.0% 0.0017 D_s- D+ PHSP; 0.0017 D*+ D_s- SVS; 0.0017 D_s*- D+ SVS; 0.0017 D_s*- D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # fkw 4/38/00 more popping at the lower vertex # but with upper vertex cabbibo suppressed. 0.0007 D- D+ K0 PHSP; 0.0007 D- anti-D0 K+ PHSP; 0.0007 D*- D+ K0 PHSP; 0.0007 D*- D0 K+ PHSP; # 0.0003 D- D+ pi0 K0 PHSP; 0.0007 D- D0 pi+ K0 PHSP; 0.0003 D- D+ pi- K+ PHSP; 0.0007 D- D0 pi0 K+ PHSP; # 0.0003 D*- D+ pi0 K0 PHSP; 0.0007 D*- D0 pi+ K0 PHSP; 0.0003 D*- D+ pi- K+ PHSP; 0.0007 D*- D0 pi0 K+ PHSP; # # b --> c (s u=) # exclusive # Sum = 0.09% 0.00015 D_s*+ K- SVS; 0.00015 D_s+ K- PHSP; 0.00030 D_s*+ K*- SVV_HELAMP 0.228 0.0 0.932 0.0 0.0283 0.0; 0.00030 K*- D_s+ SVS; # # fkw 4/28/00 Strategy for charmonium modes: # Take Bd BR's, replace spectator, # assume etaprime = 2/3 ss # and eta = 1/3 ss # # Note: Just for kicks I gave the c\bar c decays a small piece that is # self tagging. See if you can find it. This is already in # the B0 decays in cleo's version of decay.dec . # # B --> (c c=) (s s=) # 2.65% # should be: psi = 0.80% CLNS 94/1315 but isn't quite right. 0.00064 J/psi eta' SVS; 0.00032 J/psi eta SVS; 0.00135 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00008 J/psi K0 SVS; 0.00070 J/psi K- K+ PHSP; 0.00070 J/psi anti-K0 K0 PHSP; 0.00070 J/psi anti-K0 K+ pi- PHSP; 0.00070 J/psi anti-K0 K0 pi0 PHSP; 0.00070 J/psi K- K+ pi0 PHSP; # # psi' = 0.34% CLNS 94/1315 # 0.000465 psi(2S) eta' SVS; 0.000235 psi(2S) eta SVS; 0.0012 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0003 psi(2S) K- K+ PHSP; 0.0003 psi(2S) anti-K0 K0 PHSP; 0.0003 psi(2S) anti-K0 K+ pi- PHSP; 0.0003 psi(2S) anti-K0 K0 pi0 PHSP; 0.0003 psi(2S) K- K+ pi0 PHSP; # # chic0 = 0.05% (20% of chic2) # Bodwin et.al. Phys Rev D46 1992 0.00010 chi_c0 eta' PHSP; 0.00005 chi_c0 eta PHSP; 0.00020 phi chi_c0 SVS; 0.00003 chi_c0 K- K+ PHSP; 0.00003 chi_c0 anti-K0 K0 PHSP; 0.00003 chi_c0 anti-K0 K+ pi- PHSP; 0.00003 chi_c0 anti-K0 K0 pi0 PHSP; 0.00003 chi_c0 K- K+ pi0 PHSP; # # # chic1 = 0.37% CLNS 94/1315 0.0007 chi_c1 eta' SVS; 0.0003 chi_c1 eta SVS; 0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00026 chi_c1 K- K+ PHSP; 0.00026 chi_c1 anti-K0 K0 PHSP; 0.00026 chi_c1 anti-K0 K+ pi- PHSP; 0.00026 chi_c1 anti-K0 K0 pi0 PHSP; 0.00026 chi_c1 K- K+ pi0 PHSP; # # # chic2 = 0.25% CLNS 94/1315 0.000465 chi_c2 eta' STS; 0.000235 chi_c2 eta STS; #0.0010 chi_c2 phi STV; whb: model doesn't exist! 0.00016 chi_c2 K- K+ PHSP; 0.00016 chi_c2 anti-K0 K0 PHSP; 0.00016 chi_c2 anti-K0 K+ pi- PHSP; 0.00016 chi_c2 anti-K0 K0 pi0 PHSP; 0.00016 chi_c2 K- K+ pi0 PHSP; # # # etac(1s) = 0.41% Guess: CBX 97-65 # 0.0008 eta_c eta' PHSP; 0.0004 eta_c eta PHSP; 0.0015 phi eta_c SVS; 0.00028 eta_c K- K+ PHSP; 0.00028 eta_c anti-K0 K0 PHSP; 0.00028 eta_c anti-K0 K+ pi- PHSP; 0.00028 eta_c anti-K0 K0 pi0 PHSP; 0.00028 eta_c K- K+ pi0 PHSP; # # # etac(2s) = 0.18% Guess: CBX 97-65 0.0004 eta_c(2S) eta' PHSP; 0.0002 eta_c(2S) eta PHSP; 0.0006 phi eta_c(2S) SVS; 0.00012 eta_c(2S) K- K+ PHSP; 0.00012 eta_c(2S) anti-K0 K0 PHSP; 0.00012 eta_c(2S) anti-K0 K+ pi- PHSP; 0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP; 0.00012 eta_c(2S) K- K+ pi0 PHSP; # # # hc = 0.25% (100% of chic2) # Bodwin et.al. Phys Rev D46 1992 # 0.000465 h_c eta' SVS; 0.000235 h_c eta SVS; 0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00016 h_c K- K+ PHSP; 0.00016 h_c anti-K0 K0 PHSP; 0.00016 h_c anti-K0 K+ pi- PHSP; 0.00016 h_c anti-K0 K0 pi0 PHSP; 0.00016 h_c K- K+ pi0 PHSP; # # # b --> c (d u=) # Exclusive Channels = 6.33% # fkw 4/28/00 I rearanged this a bit after copying it from # B0B decay list. # # first come the external W-emission decays: # 0.0008 D_s1+ pi- SVS; 0.0021 D_s1+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0013 D_s2*+ pi- STS; #0.0037 D_s2*+ rho- STV; # whb: model doesn't exist # 0.0027 D_s*+ pi- SVS; 0.0026 D_s+ pi- PHSP; 0.0073 rho- D_s+ SVS; 0.0070 D_s*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.0085 a_1- D_s+ SVS; 0.0009 D_s+ rho0 pi- PHSP; 0.0009 D_s+ rho- pi0 PHSP; 0.0009 D_s+ pi+ pi- pi- PHSP; 0.0009 D_s+ pi0 pi- pi0 PHSP; # 0.0122 D_s*+ a_1- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0010 D_s*+ rho0 pi- PHSP; 0.0010 D_s*+ rho- pi0 PHSP; 0.0077 D_s*+ pi+ pi- pi- PHSP; 0.0010 D_s*+ pi0 pi- pi0 PHSP; # # then the color suppressed decays: # # fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin # i.e. Bs doesn't have the factor 2 suppression Bd has. 0.0002 D*0 K0 SVS; 0.0002 D0 K0 PHSP; 0.0002 K*0 D0 SVS; 0.0002 D*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # fkw 4/28/00 ignore the internal W emission decays with additional # q\bar q popping. # # Here come the various types of "inclusive unknown" decays: # # Start with B to baryons: # fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!! 0.0200 cs_0 anti-ud_0 JETSET 23; 0.0400 cs_1 anti-ud_1 JETSET 23; # # Next come external W-emission: 0.312355 anti-u d c anti-s JETSET 48; 0.05000 anti-u d c anti-s JETSET 25; # Now the internal W-emission: 0.02000 anti-u c d anti-s JETSET 48; # Then some b->u external W-emission with upper vertex charm 0.00400 anti-c s u anti-s JETSET 48; # and finally some cabibbo suppressed external and internal W-emission 0.0150 anti-u s c anti-s JETSET 48; 0.00220 anti-u s c anti-s JETSET 25; 0.00090 anti-u c s anti-s JETSET 48; # and some c cbar d stuff as well as c cbar s 0.00600 anti-c d c anti-s JETSET 13; 0.00200 anti-c d c anti-s JETSET 13; # and some miscellaneous charmless stuff 0.00410 anti-u u d anti-s JETSET 48; 0.00070 anti-d d d anti-s JETSET 48; 0.00090 anti-s s d anti-s JETSET 48; 0.00220 anti-u u s anti-s JETSET 48; 0.00180 anti-d d s anti-s JETSET 48; 0.00150 anti-s s s anti-s JETSET 48; 0.00500 s g anti-s JETSET 33; # fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen 0.000200 K+ e- anti-nu_e PHOTOS ISGW2; 0.000300 K*+ e- anti-nu_e PHOTOS ISGW2; 0.000300 K_1+ e- anti-nu_e PHOTOS ISGW2; 0.000200 K'_1+ e- anti-nu_e PHOTOS ISGW2; # # 0.000200 K+ mu- anti-nu_mu PHOTOS ISGW2; 0.000300 K*+ mu- anti-nu_mu PHOTOS ISGW2; 0.000300 K_1+ mu- anti-nu_mu PHOTOS ISGW2; 0.000200 K'_1+ mu- anti-nu_mu PHOTOS ISGW2; # ------------- # 2e-3 for charmless semi-leptonic #*********************************************************** # # fkw 5/10/00 # # ideas behind these (largely) made up Br's for charmless # hadronic B decays: # (1) any PP and PV modes that are used or calculated # in globfit code by Hou,Smith,Wuerthwein are taken from # the latest fit i.e. May2000 # (2) anything else is from Ali,Kramer,Lue # # None of this should be taken too serious! # #*********************************************************** 0.0000193 K- K+ PHSP; 0.0000079 anti-K0 K0 PHSP; 0.0000043 pi- K+ PHSP; 0.0000002 pi0 K0 PHSP; # 0.0000012 omega eta SVS; 0.0000025 omega eta' SVS; #0402240.0000013 phi eta SVS; #0402240.0000025 phi eta' SVS; 0.00000008 omega anti-K0 SVS; 0.000000002 phi anti-K0 SVS; # #next is just twice PI- RHO0 0.0000250 K*+ pi- SVS; 0.0000120 rho- K+ SVS; 0.00000002 rho0 K0 SVS; 0.00000002 K*0 pi0 SVS; # 0.0000046 K*- K+ SVS; 0.0000005 anti-K*0 K0 SVS; 0.0000082 K*+ K- SVS; 0.0000066 K*0 anti-K0 SVS; # 0.0000580 eta' eta' PHSP; 0.0000250 eta' eta PHSP; 0.0000040 eta eta PHSP; 0.0000200 phi eta SVS; 0.0000100 phi eta' SVS; # #next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 0.00000007 K0 eta' PHSP; 0.00000023 K0 eta PHSP; #0402270.00000010 K0 eta' PHSP; #0402270.00000010 K0 eta PHSP; 0.000000021 K*0 eta' SVS; 0.00000007 K*0 eta SVS; # #next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 # for vector-vector final states 0.000020 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000008 rho0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000000005 omega K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000005 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000008 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #0402270.000000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # decays that go via b->d penguins 0.0000004 phi K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #0402270.0000002 K*0 eta SVS; #0402270.0000002 K*0 eta' SVS; #0402270.0000003 eta K0 PHSP; #0402270.0000006 eta' K0 PHSP; #-------------- # 257.122e-6 for all the charmless hadronic # Enddecay # # B_s decays. # ------------------------------------------------------- # whb&fkw 3/28/01 Taken from fkw's QQ tables. # most dubious part are the B to baryons. # fkw 4/28/00 made the Bs parallel to the Bd as best as I could # ------------------------------------------------------- Decay B_s0 0.0210 D_s- e+ nu_e PHOTOS ISGW2; 0.0490 D_s*- e+ nu_e PHOTOS ISGW2; 0.0040 D_s1- e+ nu_e PHOTOS ISGW2; 0.0040 D_s0*- e+ nu_e PHOTOS ISGW2; 0.0070 D'_s1- e+ nu_e PHOTOS ISGW2; 0.0070 D_s2*- e+ nu_e PHOTOS ISGW2; 0.0210 D_s- mu+ nu_mu PHOTOS ISGW2; 0.0490 D_s*- mu+ nu_mu PHOTOS ISGW2; 0.0040 D_s1- mu+ nu_mu PHOTOS ISGW2; 0.0040 D_s0*- mu+ nu_mu PHOTOS ISGW2; 0.0070 D'_s1- mu+ nu_mu PHOTOS ISGW2; 0.0070 D_s2*- mu+ nu_mu PHOTOS ISGW2; #fkw 5/04/01 changed these to account for taking out non-res #0.0070 D_s- tau+ nu_tau ISGW2; #0.0150 D_s*- tau+ nu_tau ISGW2; #0.0013 D_s1- tau+ nu_tau ISGW2; #0.0013 D_s0*- tau+ nu_tau ISGW2; #0.0023 D'_s1- tau+ nu_tau ISGW2; #0.0023 D_s2*- tau+ nu_tau ISGW2; 0.0080 D_s- tau+ nu_tau ISGW2; 0.0160 D_s*- tau+ nu_tau ISGW2; 0.0018 D_s1- tau+ nu_tau ISGW2; 0.0018 D_s0*- tau+ nu_tau ISGW2; 0.0028 D'_s1- tau+ nu_tau ISGW2; 0.0028 D_s2*- tau+ nu_tau ISGW2; # # fkw 4/28/00 the next few are decays where a u\bar u or d\bar d is popped # between the charm quark and the spectator. I can thus not # just replace a D by a Ds as above when going from Bd to Bs. # # fkw 5/04/01 Had to take non-res out because it crashed EvtGen. #0.0010 anti-D*0 K- tau+ nu_tau GOITY_ROBERTS; #0.0010 D*- anti-K0 tau+ nu_tau GOITY_ROBERTS; #0.0010 anti-D0 K- tau+ nu_tau GOITY_ROBERTS; #0.0010 D- anti-K0 tau+ nu_tau GOITY_ROBERTS; # fkw 4/28/00 B0 -> TAU D PI0 = 1/2 of TAU D PI- because of pi0 wave function # However, the same factor of 1/2 doesn't apply to BS0 !!! # fkw 3/28/01 There seem to be no semi-leptonic B to baryon decays in nature. # I don't pretend to understand why. PDG 2000 has a limit of # < 3.2e-3 where one might naively expect # 10% * BR(B->/\c) = 0.1 * (6.4+-1.1)% #0.0050 nu_e e+ B-Baryon #0.0050 nu_mu mu+ B-Baryon # # b --> c (s c=) # Sum = 11.44% # 2-body = 4.72% # more-body = 6.72% 0.0086 D_s- D_s+ PHSP; 0.0090 D_s*+ D_s- SVS; 0.0099 D_s*- D_s+ SVS; 0.0197 D_s*- D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # fkw 4/28/00 more states with popped q\bar q. # The one's here involve only popped and spectator. # Popping stuff in the cs from the W comes further below. # The same isospin comment applies here as above in the # semi-leptonic decays with tau and popped q\bar q. 0.0096 D_s+ D- anti-K0 PHSP; 0.0096 D_s+ D0 K- PHSP; 0.0096 D_s*+ D- anti-K0 PHSP; 0.0096 D_s*+ anti-D0 K- PHSP; # 0.0024 D_s+ D- pi0 anti-K0 PHSP; 0.0048 D_s+ anti-D0 pi- anti-K0 PHSP; 0.0048 D_s+ D- pi+ K- PHSP; 0.0024 D_s+ anti-D0 pi0 K- PHSP; # 0.0024 D_s*+ D- pi0 anti-K0 PHSP; 0.0048 D_s*+ anti-D0 pi- anti-K0 PHSP; 0.0048 D_s*+ D- pi+ K- PHSP; 0.0024 D_s*+ anti-D0 pi0 K- PHSP; # # # b --> (c ) (c ) (s ) # Sum = 8.0% # DDK amplitudes R.A.Briere 10/97 # fkw 4/28/00 these are q\bar q popping that don't involve the spectator # Bd->Bs just involves switching the c\bar d to c\bar s. # 0.0150 D_s*- D*0 K+ PHSP; 0.0150 D_s*- D*+ K0 PHSP; 0.0050 D_s*- D0 K+ PHSP; 0.0050 D_s*- D+ K0 PHSP; 0.0050 D_s- D*0 K+ PHSP; 0.0050 D_s- D*+ K0 PHSP; 0.0020 D_s- D0 K+ PHSP; 0.0020 D_s- D+ K0 PHSP; 0.0030 D_s*- D*0 K*+ PHSP; 0.0030 D_s*- D*+ K*0 PHSP; 0.0050 D_s*- D0 K*+ PHSP; 0.0050 D_s*- D+ K*0 PHSP; 0.0025 D_s- D*0 K*+ PHSP; 0.0025 D_s- D*+ K*0 PHSP; 0.0025 D_s- D0 K*+ PHSP; 0.0025 D_s- D+ K*0 PHSP; # # # b --> c (d c=) # Sum = 1.36% 0.0017 D_s+ D- PHSP; 0.0017 D*- D_s+ SVS; 0.0017 D_s*+ D- SVS; 0.0017 D_s*+ D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # fkw 4/38/00 more popping at the lower vertex # but with upper vertex cabbibo suppressed. 0.0007 D+ D- anti-K0 PHSP; 0.0007 D+ D0 K- PHSP; 0.0007 D*+ D- anti-K0 PHSP; 0.0007 D*+ anti-D0 K- PHSP; # 0.0003 D+ D- pi0 anti-K0 PHSP; 0.0007 D+ anti-D0 pi- anti-K0 PHSP; 0.0003 D+ D- pi+ K- PHSP; 0.0007 D+ anti-D0 pi0 K- PHSP; # 0.0003 D*+ D- pi0 anti-K0 PHSP; 0.0007 D*+ anti-D0 pi- anti-K0 PHSP; 0.0003 D*+ D- pi+ K- PHSP; 0.0007 D*+ anti-D0 pi0 K- PHSP; # # b --> c (u s=) # exclusive # Sum = 0.9% 0.00015 D_s*- K+ SVS; 0.00015 D_s- K+ PHSP; 0.00030 D_s*- K*+ SVV_HELAMP 0.0283 0.0 0.932 0.0 0.228 0.0; 0.00030 K*+ D_s- SVS; # # fkw 4/28/00 Strategy for charmonium modes: # Take Bd BR's, replace spectator, # assume etaprime = 2/3 ss # and eta = 1/3 ss # # Note: Just for kicks I gave the c\bar c decays a small piece that is # self tagging. See if you can find it. This is already in # the B0 decays in cleo's version of decay.dec . # # B --> (c c=) (s s=) # 2.65% # should be: psi = 0.80% CLNS 94/1315 but isn't quite right. 0.00064 J/psi eta' SVS; 0.00032 J/psi eta SVS; 0.00135 J/psi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00008 J/psi K0 SVS; 0.00070 J/psi K- K+ PHSP; 0.00070 J/psi anti-K0 K0 PHSP; 0.00070 J/psi K0 K- pi+ PHSP; 0.00070 J/psi anti-K0 K0 pi0 PHSP; 0.00070 J/psi K- K+ pi0 PHSP; # psi' = 0.34% CLNS 94/1315 0.000465 psi(2S) eta' SVS; 0.000235 psi(2S) eta SVS; 0.0012 psi(2S) phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0003 psi(2S) K- K+ PHSP; 0.0003 psi(2S) anti-K0 K0 PHSP; 0.0003 psi(2S) K0 K- pi+ PHSP; 0.0003 psi(2S) anti-K0 K0 pi0 PHSP; 0.0003 psi(2S) K- K+ pi0 PHSP; # # chic0 = 0.05% (20% of chic2) # Bodwin et.al. Phys Rev D46 1992 0.00010 chi_c0 eta' PHSP; 0.00005 chi_c0 eta PHSP; 0.00020 phi chi_c0 SVS; 0.00003 chi_c0 K- K+ PHSP; 0.00003 chi_c0 anti-K0 K0 PHSP; 0.00003 chi_c0 K0 K- pi+ PHSP; 0.00003 chi_c0 anti-K0 K0 pi0 PHSP; 0.00003 chi_c0 K- K+ pi0 PHSP; # # # chic1 = 0.37% CLNS 94/1315 0.0007 chi_c1 eta' SVS; 0.0003 chi_c1 eta SVS; 0.0014 chi_c1 phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00026 chi_c1 K- K+ PHSP; 0.00026 chi_c1 anti-K0 K0 PHSP; 0.00026 chi_c1 K0 K- pi+ PHSP; 0.00026 chi_c1 anti-K0 K0 pi0 PHSP; 0.00026 chi_c1 K- K+ pi0 PHSP; # # # chic2 = 0.25% CLNS 94/1315 0.000465 chi_c2 eta' STS; 0.000235 chi_c2 eta STS; #0.0010 chi_c2 phi STV; whb: doesn't exist 0.00016 chi_c2 K- K+ PHSP; 0.00016 chi_c2 anti-K0 K0 PHSP; 0.00016 chi_c2 K0 K- pi+ PHSP; 0.00016 chi_c2 anti-K0 K0 pi0 PHSP; 0.00016 chi_c2 K- K+ pi0 PHSP; # # # etac(1s) = 0.41% Guess: CBX 97-65 0.0008 eta_c eta' PHSP; 0.0004 eta_c eta PHSP; 0.0015 phi eta_c SVS; 0.00028 eta_c K- K+ PHSP; 0.00028 eta_c K0 anti-K0 PHSP; 0.00028 eta_c K0 K- pi+ PHSP; 0.00028 eta_c K0 anti-K0 pi0 PHSP; 0.00028 eta_c K- K+ pi0 PHSP; # # # etac(2s) = 0.18% Guess: CBX 97-65 0.0004 eta_c(2S) eta' PHSP; 0.0002 eta_c(2S) eta PHSP; 0.0006 phi eta_c(2S) SVS; 0.00012 eta_c(2S) K- K+ PHSP; 0.00012 eta_c(2S) anti-K0 K0 PHSP; 0.00012 eta_c(2S) K0 K- pi+ PHSP; 0.00012 eta_c(2S) anti-K0 K0 pi0 PHSP; 0.00012 eta_c(2S) K- K+ pi0 PHSP; # # # hc = 0.25% (100% of chic2) # Bodwin et.al. Phys Rev D46 1992 0.000465 h_c eta' SVS; 0.000235 h_c eta SVS; 0.0010 h_c phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00016 h_c K- K+ PHSP; 0.00016 h_c anti-K0 K0 PHSP; 0.00016 h_c K0 K- pi+ PHSP; 0.00016 h_c anti-K0 K0 pi0 PHSP; 0.00016 h_c K- K+ pi0 PHSP; # # # b --> c (d u=) # Exclusive Channels = 6.33% # fkw 4/28/00 I rearanged this a bit after copying it from # B0B decay list. # # first come the external W-emission decays: # 0.0008 D_s1- pi+ SVS; 0.0021 D_s1- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0013 D_s2*- pi+ STS; #0.0037 D_s2*- rho+ STV; #whb: STV does not exist yet # 0.0027 D_s*- pi+ SVS; 0.0026 D_s- pi+ PHSP; 0.0073 rho+ D_s- SVS; 0.0070 D_s*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.0085 a_1+ D_s- SVS; 0.0009 D_s- rho0 pi+ PHSP; 0.0009 D_s- rho+ pi0 PHSP; 0.0009 D_s- pi- pi+ pi+ PHSP; 0.0009 D_s- pi0 pi+ pi0 PHSP; # 0.0122 D_s*- a_1+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0010 D_s*- rho0 pi+ PHSP; 0.0010 D_s*- rho+ pi0 PHSP; 0.0077 D_s*- pi- pi+ pi+ PHSP; 0.0010 D_s*- pi0 pi+ pi0 PHSP; # # then the color suppressed decays: # # fkw 4/28/00 color suppressed modes bumped up by factor 2 from isospin # i.e. Bs doesn't have the factor 2 suppression Bd has. 0.0002 anti-D*0 anti-K0 SVS; 0.0002 anti-D0 anti-K0 PHSP; 0.0002 anti-K*0 anti-D0 SVS; 0.0002 anti-D*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # fkw 4/28/00 ignore the internal W emission decays with additional # q\bar q popping. # # Here come the various types of "inclusive unknown" decays: # # Start with B to baryons: # fkw 3/28/01 I don't know what I'm doing here!!! This needs to be checked!!! 0.0200 anti-cs_0 ud_0 JETSET 23; 0.0400 anti-cs_1 ud_1 JETSET 23; # # Next come external W-emission: 0.312355 u anti-d anti-c s JETSET 48; 0.05000 u anti-d anti-c s JETSET 25; # Now the internal W-emission: 0.02000 u anti-c anti-d s JETSET 48; # Then some b->u external W-emission with upper vertex charm 0.00400 c anti-s anti-u s JETSET 48; # and finally some cabibbo suppressed external and internal W-emission 0.0150 u anti-s anti-c s JETSET 48; 0.00220 u anti-s anti-c s JETSET 25; 0.00090 u anti-c anti-s s JETSET 48; # and some c cbar d stuff as well as c cbar s 0.00600 c anti-d anti-c s JETSET 13; 0.00200 c anti-d anti-c s JETSET 13; # and some miscellaneous charmless stuff 0.00410 u anti-u anti-d s JETSET 48; 0.00070 d anti-d anti-d s JETSET 48; 0.00090 s anti-s anti-d s JETSET 48; 0.00220 u anti-u anti-s s JETSET 48; 0.00180 d anti-d anti-s s JETSET 48; 0.00150 s anti-s anti-s s JETSET 48; 0.00500 anti-s g s JETSET 33; # fkw 5/10/00 the b->ulnu decays are loosely modelled according to B0 in EvtGen 0.000200 K- e+ nu_e PHOTOS ISGW2; 0.000300 K*- e+ nu_e PHOTOS ISGW2; 0.000300 K_1- e+ nu_e PHOTOS ISGW2; 0.000200 K'_1- e+ nu_e PHOTOS ISGW2; # # 0.000200 K- mu+ nu_mu PHOTOS ISGW2; 0.000300 K*- mu+ nu_mu PHOTOS ISGW2; 0.000300 K_1- mu+ nu_mu PHOTOS ISGW2; 0.000200 K'_1- mu+ nu_mu PHOTOS ISGW2; # ------------- # 2e-3 for charmless semi-leptonic #*********************************************************** # # fkw 5/10/00 # # ideas behind these (largely) made up Br's for charmless # hadronic B decays: # (1) any PP and PV modes that are used or calculated # in globfit code by Hou,Smith,Wuerthwein are taken from # the latest fit i.e. May2000 # (2) anything else is from Ali,Kramer,Lue # # None of this should be taken too serious! # #*********************************************************** 0.0000193 K- K+ PHSP; 0.0000079 anti-K0 K0 PHSP; 0.0000043 pi+ K- PHSP; 0.0000002 pi0 anti-K0 PHSP; # 0.0000012 omega eta SVS; 0.0000025 omega eta' SVS; #0402270.0000013 phi eta SVS; #0402270.0000025 phi eta' SVS; 0.00000008 omega K0 SVS; 0.000000002 phi K0 SVS; # 0.0000250 K*- pi+ SVS; 0.0000120 rho+ K- SVS; 0.00000002 rho0 K0 SVS; 0.00000002 anti-K*0 pi0 SVS; # 0.0000046 K*+ K- SVS; 0.0000005 K*0 anti-K0 SVS; 0.0000082 K*- K+ SVS; 0.0000066 anti-K*0 K0 SVS; # 0.0000580 eta' eta' PHSP; 0.0000250 eta' eta PHSP; 0.0000040 eta eta PHSP; 0.0000200 phi eta SVS; 0.0000100 phi eta' SVS; # #next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 0.00000007 anti-K0 eta' PHSP; 0.00000023 anti-K0 eta PHSP; #0402270.00000010 anti-K0 eta' PHSP; #0402270.00000010 anti-K0 eta PHSP; 0.000000021 anti-K*0 eta' SVS; 0.00000007 anti-K*0 eta SVS; # #next comes stuff from Ali,Kramer,Lue PRD58, 094009 FOR NC=3 # for vector-vector final states 0.000020 rho+ K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000008 rho0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000000005 omega anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.000006 K*- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000005 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000008 phi phi SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #0402270.000000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # decays that go via b->d penguins 0.0000004 phi anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; #0402270.0000002 anti-K*0 eta SVS; #0402270.0000002 anti-K*0 eta' SVS; #0402270.0000003 eta anti-K0 PHSP; #0402270.0000006 eta' anti-K0 PHSP; #-------------- # 257.122e-6 for all the charmless hadronic # Enddecay # whb: QQ B_c included. Needs more work! #Decay B_c- #CHANNEL 0 0.0700 TAU- NUTB #CHANNEL 1 0.1100 NUEB E- *CC* #CHANNEL 1 0.1100 NUMB MU- *CC* #CHANNEL 1 0.0300 NUTB TAU- *CC* #CHANNEL 0 0.3400 *DU* *CC* #CHANNEL 0 0.0700 *SC* *CC* #CHANNEL 0 0.2700 *SC* #0.0700 tau- anti-nu_tau PHSP; #0.1100 anti-nu_e e- *CC* Simpleleptonic; #0.1100 anti-nu_mu mu- *CC* Simple leptonic; #0.0300 anti-nu_tau tau- *CC* Simple leptonic; #0.3400 *DU* *CC* PHSP; #0.0700 *SC* *CC* PHSP; #0.2700 *SC* PHSP; #Enddecay # #Decay B_c+ #CHANNEL 0 0.0700 TAU+ NUT #CHANNEL 1 0.1100 NUE E+ *CC* #CHANNEL 1 0.1100 NUM MU+ *CC* #CHANNEL 1 0.0300 NUT TAU+ *CC* #CHANNEL 0 0.3400 *UD* *CC* #CHANNEL 0 0.0700 *CS* *CC* #CHANNEL 0 0.2700 *CS* #0.0700 tau+ nu_tau PHSP; #0.1100 nu_e E+ *CC* Simple leptonic; #0.1100 nu_mu mu+ *CC* Simple leptonic; #0.0300 nu_tau tau+ *CC* Simple leptonic; #0.3400 *UD* *CC* PHSP; #0.0700 *CS* *CC* PHSP; #0.2700 *CS* PHSP; #Enddecay # # The tau branching fractions needs to be looked over! # Decay tau- 0.1778 e- anti-nu_e nu_tau PHOTOS TAULNUNU; 0.1731 mu- anti-nu_mu nu_tau PHOTOS TAULNUNU; 0.1095 pi- nu_tau TAUSCALARNU; 0.2531 pi- pi0 nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400; 0.09234 pi- pi- pi+ nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4; 0.0910 pi0 pi0 pi- nu_tau TAUHADNU -0.108 0.775 0.149 1.364 0.400 1.23 0.4; #0.2515 rho- nu_tau TAUVECTORNU; #0.1790 a_1- nu_tau TAUVECTORNU; 0.00686 K- nu_tau TAUSCALARNU; 0.0134 K*- nu_tau TAUVECTORNU; 0.0450 nu_tau pi- pi+ pi- pi0 JETSET 41; 0.0100 nu_tau pi- pi0 pi0 pi0 JETSET 41; 0.0015 nu_tau K- pi- K+ JETSET 41; 0.0015 nu_tau K0 pi- anti-K0 JETSET 41; 0.0015 nu_tau K- pi0 K0 JETSET 41; 0.0005 nu_tau K- pi0 pi0 JETSET 41; 0.0050 nu_tau K- pi+ pi- JETSET 41; 0.0055 nu_tau pi- anti-K0 pi0 JETSET 41; 0.0017 nu_tau eta pi- pi0 JETSET 41; 0.0013 nu_tau gamma pi- pi0 JETSET 41; 0.0009 nu_tau pi- pi- pi+ pi0 pi0 PHSP; 0.0008 nu_tau pi- pi- pi- pi+ pi+ PHSP; 0.0003 nu_tau pi- pi- pi- pi+ pi+ pi0 PHSP; 0.0005 nu_tau pi- pi- pi+ pi0 pi0 pi0 PHSP; 0.0010 nu_tau pi- pi0 pi0 pi0 pi0 PHSP; 0.0039 nu_tau pi- omega pi0 JETSET 41; 0.0010 nu_tau K- K0 JETSET 41; 0.0010 nu_tau K- omega JETSET 41; Enddecay # CDecay tau+ # # Vector Mesons # Decay D*+ 0.6830 D0 pi+ VSS; 0.3060 D+ pi0 VSS; 0.0110 D+ gamma VSP_PWAVE; Enddecay Decay D*- 0.6830 anti-D0 pi- VSS; 0.3060 D- pi0 VSS; 0.0110 D- gamma VSP_PWAVE; Enddecay Decay D*0 0.6190 D0 pi0 VSS; 0.3810 D0 gamma VSP_PWAVE; Enddecay Decay anti-D*0 0.6190 anti-D0 pi0 VSS; 0.3810 anti-D0 gamma VSP_PWAVE; Enddecay # Decay D_s*+ 0.942 D_s+ gamma VSP_PWAVE; 0.058 D_s+ pi0 VSS; Enddecay Decay D_s*- 0.942 D_s- gamma VSP_PWAVE; 0.058 D_s- pi0 VSS; Enddecay # # # D+ Meson # Decay D+ 0.0480 anti-K*0 e+ nu_e PHOTOS ISGW2; 0.0670 anti-K0 e+ nu_e PHOTOS ISGW2; 0.0036 anti-K_10 e+ nu_e PHOTOS ISGW2; 0.0038 anti-K_2*0 e+ nu_e PHOTOS ISGW2; 0.0031 pi0 e+ nu_e PHOTOS ISGW2; 0.0028 eta e+ nu_e PHOTOS ISGW2; 0.0011 eta' e+ nu_e PHOTOS ISGW2; 0.0022 rho0 e+ nu_e PHOTOS ISGW2; 0.0029 omega e+ nu_e PHOTOS ISGW2; 0.0027 K- pi+ e+ nu_e PHOTOS PHSP; # 0.0430 anti-K*0 mu+ nu_mu PHOTOS ISGW2; 0.0700 anti-K0 mu+ nu_mu PHOTOS ISGW2; 0.0036 anti-K_10 mu+ nu_mu PHOTOS ISGW2; 0.0038 anti-K_2*0 mu+ nu_mu PHOTOS ISGW2; 0.0064 pi0 mu+ nu_mu PHOTOS ISGW2; 0.0028 eta mu+ nu_mu PHOTOS ISGW2; 0.0011 eta' mu+ nu_mu PHOTOS ISGW2; 0.0027 rho0 mu+ nu_mu PHOTOS ISGW2; 0.0029 omega mu+ nu_mu PHOTOS ISGW2; 0.0027 K- pi+ mu+ nu_e PHOTOS PHSP; # 0.0008 mu+ nu_mu PHOTOS SLN; 0.0024 tau+ nu_tau SLN; # 0.0289 anti-K0 pi+ PHSP; 0.0800 a_1+ anti-K0 SVS; 0.0508 anti-K'_10 pi+ SVS; 0.0115 anti-K_0*0N pi+ PHSP; 0.0210 anti-K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # the Dalitz mode below includes K*bar(892)0 pi+, # K*bar(1430)0 pi+, and K*bar(1680)0 pi+ resonances. 0.0900 K- pi+ pi+ D_DALITZ; # the Dalitz mode below includes K0bar rho+, # and K*bar(892)0 pi+ resonances 0.0970 anti-K0 pi+ pi0 D_DALITZ; 0.0100 anti-K0 eta pi+ PHSP; 0.0050 anti-K0 rho0 pi+ PHSP; 0.0050 anti-K0 omega pi+ PHSP; 0.0110 K- rho+ pi+ PHSP; 0.0070 K*- pi+ pi+ PHSP; 0.0100 anti-K*0 pi0 pi+ PHSP; 0.0100 anti-K*0 eta pi+ PHSP; 0.0078 anti-K*0 rho0 pi+ PHSP; 0.0050 anti-K*0 omega pi+ PHSP; 0.0100 K*- rho+ pi+ PHSP; # 0.0120 K- pi+ pi+ pi0 PHSP; 0.0000 anti-K0 pi+ pi+ pi- PHSP; 0.0188 anti-K0 pi+ pi0 pi0 PHSP; 0.0022 K- pi+ pi+ pi+ pi- PHSP; 0.014 K- pi+ pi+ pi0 pi0 PHSP; 0.0387 anti-K0 pi+ pi+ pi- pi0 PHSP; 0.0035 anti-K0 pi+ pi0 pi0 pi0 PHSP; # 0.0180 anti-K0 anti-K0 K+ PHSP; 0.0070 phi pi+ SVS; 0.0230 phi pi+ pi0 PHSP; 0.0074 anti-K0 K+ PHSP; 0.0042 anti-K*0 K+ SVS; 0.0211 K*+ anti-K0 SVS; 0.0180 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0087 K+ K- pi+ PHSP; 0.0010 K+ anti-K0 pi0 PHSP; 0.0010 anti-K0 K0 pi+ PHSP; 0.0010 K*+ K- pi+ PHSP; 0.0010 K+ K*- pi+ PHSP; 0.0010 K*+ anti-K0 pi0 PHSP; 0.0010 K+ anti-K*0 pi0 PHSP; 0.0010 anti-K*0 K0 pi+ PHSP; 0.0010 anti-K0 K*0 pi+ PHSP; # 0.0026 pi0 pi+ PHSP; 0.0010 rho0 pi+ SVS; 0.0026 pi+ pi+ pi- PHSP; 0.0030 pi+ pi0 pi0 PHSP; 0.0190 pi+ pi+ pi- pi0 PHSP; 0.0100 pi+ pi0 pi0 pi0 PHSP; 0.0076 eta pi+ PHSP; 0.0030 eta pi+ pi0 PHSP; 0.0030 eta pi+ pi+ pi- PHSP; 0.0020 eta pi+ pi0 pi0 PHSP; #lange jul22,2002 0.0021 pi+ pi+ pi+ pi- pi- PHSP; Enddecay # # Decay D- 0.0480 K*0 e- anti-nu_e PHOTOS ISGW2; 0.0670 K0 e- anti-nu_e PHOTOS ISGW2; 0.0036 K_10 e- anti-nu_e PHOTOS ISGW2; 0.0038 K_2*0 e- anti-nu_e PHOTOS ISGW2; 0.0031 pi0 e- anti-nu_e PHOTOS ISGW2; 0.0028 eta e- anti-nu_e PHOTOS ISGW2; 0.0011 eta' e- anti-nu_e PHOTOS ISGW2; 0.0022 rho0 e- anti-nu_e PHOTOS ISGW2; 0.0029 omega e- anti-nu_e PHOTOS ISGW2; 0.0027 K+ pi- e- anti-nu_e PHOTOS PHSP; # 0.0430 K*0 mu- anti-nu_mu PHOTOS ISGW2; 0.0700 K0 mu- anti-nu_mu PHOTOS ISGW2; 0.0036 K_10 mu- anti-nu_mu PHOTOS ISGW2; 0.0038 K_2*0 mu- anti-nu_mu PHOTOS ISGW2; 0.0064 pi0 mu- anti-nu_mu PHOTOS ISGW2; 0.0028 eta mu- anti-nu_mu PHOTOS ISGW2; 0.0011 eta' mu- anti-nu_mu PHOTOS ISGW2; 0.0027 rho0 mu- anti-nu_mu PHOTOS ISGW2; 0.0029 omega mu- anti-nu_mu PHOTOS ISGW2; 0.0027 K+ pi- mu- anti-nu_e PHOTOS PHSP; # 0.0008 mu- anti-nu_mu PHOTOS SLN; 0.0024 tau- anti-nu_tau SLN; # 0.0289 K0 pi- PHSP; 0.0800 a_1- K0 SVS; 0.0508 K'_10 pi- SVS; 0.0115 K_0*0N pi- PHSP; 0.0210 K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # the Dalitz mode below includes K*(892)0 pi-, K*(1430)0 pi-, and K*(1680)0 pi- resonances. 0.0900 K+ pi- pi- D_DALITZ; # the Dalitz mode below includes K0 rho-, and K*(892)0 pi- resonances. 0.0970 K0 pi- pi0 D_DALITZ; 0.0100 K0 eta pi- PHSP; 0.0050 K0 rho0 pi- PHSP; 0.0050 K0 omega pi- PHSP; 0.0110 K+ rho- pi- PHSP; 0.0070 K*+ pi- pi- PHSP; 0.0100 K*0 pi0 pi- PHSP; 0.0100 K*0 eta pi- PHSP; 0.0078 K*0 rho0 pi- PHSP; 0.0050 K*0 omega pi- PHSP; 0.0100 K*+ rho- pi- PHSP; # 0.0120 K+ pi- pi- pi0 PHSP; 0.0000 K0 pi- pi- pi+ PHSP; 0.0188 K0 pi- pi0 pi0 PHSP; 0.0022 K+ pi- pi- pi- pi+ PHSP; 0.014 K+ pi- pi- pi0 pi0 PHSP; 0.0387 K0 pi- pi- pi+ pi0 PHSP; 0.0035 K0 pi- pi0 pi0 pi0 PHSP; # 0.0180 K0 K0 K- PHSP; 0.0070 phi pi- SVS; 0.0230 phi pi- pi0 PHSP; 0.0074 K0 K- PHSP; 0.0042 K*0 K- SVS; 0.0211 K*- K0 SVS; 0.0180 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0087 K- K+ pi- PHSP; 0.0010 K- K0 pi0 PHSP; 0.0010 anti-K0 K0 pi- PHSP; 0.0010 K*- K+ pi- PHSP; 0.0010 K- K*+ pi- PHSP; 0.0010 K*- K0 pi0 PHSP; 0.0010 K- K*0 pi0 PHSP; 0.0010 K*0 anti-K0 pi- PHSP; 0.0010 K0 anti-K*0 pi- PHSP; # 0.0026 pi0 pi- PHSP; 0.0010 rho0 pi- SVS; 0.0026 pi- pi+ pi- PHSP; 0.0030 pi- pi0 pi0 PHSP; 0.0190 pi- pi+ pi- pi0 PHSP; 0.0100 pi- pi0 pi0 pi0 PHSP; 0.0076 eta pi- PHSP; 0.0030 eta pi- pi0 PHSP; 0.0030 eta pi- pi+ pi- PHSP; 0.0020 eta pi- pi0 pi0 PHSP; #lange jul22,2002 0.0021 pi+ pi- pi+ pi- pi- PHSP; Enddecay # Decay K*BR 1.0000 anti-K0 pi0 VSS; Enddecay # # Decay D0 0.0202 K*- e+ nu_e PHOTOS ISGW2; 0.0364 K- e+ nu_e PHOTOS ISGW2; 0.0014 K_1- e+ nu_e PHOTOS ISGW2; 0.0015 K_2*- e+ nu_e PHOTOS ISGW2; 0.0037 pi- e+ nu_e PHOTOS ISGW2; 0.0029 rho- e+ nu_e PHOTOS ISGW2; 0.0198 K*- mu+ nu_mu PHOTOS ISGW2; 0.0322 K- mu+ nu_mu PHOTOS ISGW2; 0.0014 K_1- mu+ nu_mu PHOTOS ISGW2; 0.0015 K_2*- mu+ nu_mu PHOTOS ISGW2; 0.0037 pi- mu+ nu_mu PHOTOS ISGW2; 0.0029 rho- mu+ nu_mu PHOTOS ISGW2; # 0.0383 K- pi+ PHSP; 0.0212 anti-K0 pi0 PHSP; 0.0071 anti-K0 eta PHSP; 0.0172 anti-K0 eta' PHSP; 0.0210 omega anti-K0 SVS; 0.0190 anti-K*0 eta SVS; 0.0020 anti-K*0 eta' SVS; 0.0730 a_1+ K- SVS; 0.0610 K*- rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0146 anti-K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0110 anti-K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # the Dalitz mode below includes K*bar(892)0 pi0, # K*(892)- pi+, and K- rho(770)+ resonances 0.1390 K- pi+ pi0 D_DALITZ; 0.0085 K*BR pi0 SVS; 0.0107 K_1- pi+ SVS; 0.0071 anti-K_10 pi0 SVS; # # the Dalitz mode below includes K*(892)- pi+ and Kbar0 rho(770)0 resonances 0.0540 anti-K0 pi+ pi- D_DALITZ; 0.0078 anti-K0 pi0 pi0 PHSP; 0.0225 anti-K*0 pi+ pi- PHSP; 0.0116 anti-K*0 pi0 pi0 PHSP; 0.0100 K*- pi+ pi0 PHSP; 0.0068 K- rho+ pi0 PHSP; 0.0060 K- pi+ rho0 PHSP; 0.0303 K- pi+ omega PHSP; 0.0100 K- pi+ eta PHSP; 0.0075 K- pi+ eta' PHSP; 0.0074 K- pi+ pi+ pi- PHSP; 0.0085 anti-K0 pi+ pi- pi0 PHSP; # # K- pi+ pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to # have everything add to 1 and get enough neutral kaons: 0.02575 K- pi+ pi0 pi0 PHSP; # 0.0200 anti-K0 pi0 pi0 pi0 PHSP; 0.0038 K- pi+ pi+ pi- pi0 PHSP; 0.0038 K- pi+ pi0 pi0 pi0 PHSP; 0.0058 anti-K0 pi+ pi- pi+ pi- PHSP; # 0.0638 anti-K0 pi+ pi- pi0 pi0 PHSP; 0.0192 anti-K0 pi+ pi- pi0 pi0 pi0 PHSP; # 0.0086 phi anti-K0 SVS; 0.0051 anti-K0 K+ K- PHSP; 0.0008 K_S0 K_S0 K_S0 PHSP; 0.0043 K+ K- PHSP; 0.0006 K_S0 K_S0 PHSP; 0.0006 K_L0 K_L0 PHSP; 0.0004 K*0 anti-K0 SVS; 0.0008 anti-K*0 K0 SVS; 0.0018 K*- K+ SVS; 0.0035 K*+ K- SVS; 0.0014 anti-K*0 K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0007 phi pi0 SVS; 0.0011 phi pi+ pi- PHSP; 0.0025 K+ K- pi+ pi- PHSP; 0.0030 K+ K- pi0 pi0 PHSP; 0.0015 anti-K0 K0 pi+ pi- PHSP; 0.0015 anti-K0 K0 pi0 pi0 PHSP; # 0.0015 pi+ pi- PHSP; 0.0008 pi0 pi0 PHSP; 0.0010 eta pi0 PHSP; 0.0010 eta' pi0 PHSP; 0.0010 eta eta PHSP; 0.0040 rho+ pi- SVS; 0.0040 rho- pi+ SVS; 0.0020 rho0 pi0 SVS; 0.0060 pi+ pi- pi0 PHSP; 0.0010 pi0 pi0 pi0 PHSP; 0.0073 pi+ pi+ pi- pi- PHSP; 0.0050 pi+ pi- pi0 pi0 PHSP; 0.0177 pi+ pi- pi+ pi- pi0 PHSP; 0.0060 pi+ pi- pi0 pi0 pi0 PHSP; # # Doubly Cabibbo suppressed decays: 0.00015 pi- K+ PHSP; 0.0005 pi- K+ pi0 PHSP; Enddecay # # Decay K*0R 1.0000 K0 pi0 VSS; Enddecay # # Decay anti-D0 0.0202 K*+ e- anti-nu_e PHOTOS ISGW2; 0.0364 K+ e- anti-nu_e PHOTOS ISGW2; 0.0014 K_1+ e- anti-nu_e PHOTOS ISGW2; 0.0015 K_2*+ e- anti-nu_e PHOTOS ISGW2; 0.0037 pi+ e- anti-nu_e PHOTOS ISGW2; 0.0029 rho+ e- anti-nu_e PHOTOS ISGW2; 0.0198 K*+ mu- anti-nu_mu PHOTOS ISGW2; 0.0322 K+ mu- anti-nu_mu PHOTOS ISGW2; 0.0014 K_1+ mu- anti-nu_mu PHOTOS ISGW2; 0.0015 K_2*+ mu- anti-nu_mu PHOTOS ISGW2; 0.0037 pi+ mu- anti-nu_mu PHOTOS ISGW2; 0.0029 rho+ mu- anti-nu_mu PHOTOS ISGW2; # 0.0383 K+ pi- PHSP; 0.0212 K0 pi0 PHSP; 0.0071 K0 eta PHSP; 0.0172 K0 eta' PHSP; 0.0210 omega K0 SVS; 0.0190 K*0 eta SVS; 0.0020 K*0 eta' SVS; 0.0730 a_1- K+ SVS; 0.0610 K*+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0146 K*0 rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0110 K*0 omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # the Dalitz mode below includes K*(892)0 pi0, K*(892)+ pi-, and K+ rho(770)- resonances 0.1390 K+ pi- pi0 D_DALITZ; 0.0085 K*0R pi0 SVS; 0.0107 K_1+ pi- SVS; 0.0071 K_10 pi0 SVS; # the Dalitz mode below includes K*(892)+ pi- and K0 rho(770)0 resonances 0.0540 K0 pi+ pi- D_DALITZ; 0.0078 K0 pi0 pi0 PHSP; 0.0225 K*0 pi+ pi- PHSP; 0.0116 K*0 pi0 pi0 PHSP; 0.0100 K*+ pi- pi0 PHSP; 0.0068 K+ rho- pi0 PHSP; 0.0060 K+ pi- rho0 PHSP; 0.0303 K+ pi- omega PHSP; 0.0100 K+ pi- eta PHSP; 0.0075 K+ pi- eta' PHSP; 0.0074 K+ pi- pi+ pi- PHSP; 0.0085 K0 pi+ pi- pi0 PHSP; # # K+ pi- pi0 pi0 is (15 +/- 5)% in the PDG, but we decrease it to # have everything add to 1 and get enough neutral kaons: 0.02575 K+ pi- pi0 pi0 PHSP; # 0.0200 K0 pi0 pi0 pi0 PHSP; 0.0038 K+ pi- pi+ pi- pi0 PHSP; 0.0038 K+ pi- pi0 pi0 pi0 PHSP; 0.0058 K0 pi+ pi- pi+ pi- PHSP; # 0.0638 K0 pi- pi+ pi0 pi0 PHSP; 0.0192 K0 pi- pi+ pi0 pi0 pi0 PHSP; # 0.0086 phi K0 SVS; 0.0051 K0 K+ K- PHSP; 0.0008 K_S0 K_S0 K_S0 PHSP; 0.0043 K+ K- PHSP; 0.0006 K_S0 K_S0 PHSP; 0.0006 K_L0 K_L0 PHSP; 0.0004 anti-K*0 K0 SVS; 0.0008 K*0 anti-K0 SVS; 0.0018 K*+ K- SVS; 0.0035 K*- K+ SVS; 0.0014 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0007 phi pi0 SVS; 0.0011 phi pi+ pi- PHSP; 0.0025 K+ K- pi+ pi- PHSP; 0.0030 K+ K- pi0 pi0 PHSP; 0.0015 anti-K0 K0 pi+ pi- PHSP; 0.0015 anti-K0 K0 pi0 pi0 PHSP; # 0.0015 pi+ pi- PHSP; 0.0008 pi0 pi0 PHSP; 0.0010 eta pi0 PHSP; 0.0010 eta' pi0 PHSP; 0.0010 eta eta PHSP; 0.0040 rho+ pi- SVS; 0.0040 rho- pi+ SVS; 0.0020 rho0 pi0 SVS; 0.0060 pi+ pi- pi0 PHSP; 0.0010 pi0 pi0 pi0 PHSP; 0.0073 pi+ pi+ pi- pi- PHSP; 0.0050 pi+ pi- pi0 pi0 PHSP; 0.0177 pi+ pi- pi+ pi- pi0 PHSP; 0.0060 pi+ pi- pi0 pi0 pi0 PHSP; # # Doubly Cabibbo suppressed decays: 0.00015 pi+ K- PHSP; 0.0005 pi+ K- pi0 PHSP; Enddecay # Decay D_s+ 0.0200 phi e+ nu_e PHOTOS ISGW2; 0.0260 eta e+ nu_e PHOTOS ISGW2; 0.0089 eta' e+ nu_e PHOTOS ISGW2; 0.0027 anti-K0 e+ nu_e PHOTOS ISGW2; 0.0010 anti-K*0 e+ nu_e PHOTOS ISGW2; 0.0200 phi mu+ nu_mu PHOTOS ISGW2; 0.0260 eta mu+ nu_mu PHOTOS ISGW2; 0.0089 eta' mu+ nu_mu PHOTOS ISGW2; 0.0027 anti-K0 mu+ nu_mu PHOTOS ISGW2; 0.0010 anti-K*0 mu+ nu_mu PHOTOS ISGW2; 0.0046 mu+ nu_mu PHOTOS SLN; 0.0700 tau+ nu_tau SLN; 0.0360 phi pi+ SVS; 0.0170 eta pi+ PHSP; 0.0390 eta' pi+ PHSP; 0.0028 omega pi+ SVS; 0.0004 rho0 pi+ SVS; 0.0020 rho+ pi0 SVS; 0.0010 pi+ pi0 PHSP; 0.0180 f_0 pi+ PHSP; 0.0023 f_2 pi+ PHSP; 0.0670 phi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.1080 rho+ eta SVS; 0.1010 rho+ eta' SVS; 0.0040 pi+ pi- pi+ PHSP; 0.0040 pi+ pi0 pi0 PHSP; 0.0230 phi pi+ pi0 PHSP; 0.0230 eta pi+ pi0 PHSP; 0.0230 eta' pi+ pi0 PHSP; 0.0118 phi pi+ pi- pi+ PHSP; 0.0100 phi pi+ pi0 pi0 PHSP; 0.0100 eta pi+ pi- pi+ PHSP; 0.0100 eta pi+ pi0 pi0 PHSP; # 0.0360 anti-K0 K+ PHSP; 0.0330 anti-K*0 K+ SVS; 0.0430 K*+ anti-K0 SVS; 0.0580 anti-K*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0120 anti-K0 K+ pi0 PHSP; 0.0120 anti-K*0 K+ pi0 PHSP; 0.0120 K*+ anti-K0 pi0 PHSP; 0.0139 anti-K*0 K*+ pi0 PHSP; # 0.0090 K+ K- pi+ PHSP; #0402270.0050 anti-K0 K+ pi0 PHSP; 0.0020 anti-K0 K+ pi+ pi- PHSP; 0.0020 anti-K0 K+ pi0 pi0 PHSP; 0.0083 K+ K- pi+ pi- pi+ PHSP; 0.0003 phi K+ SVS; 0.0002 eta K+ PHSP; 0.0002 eta' K+ PHSP; 0.0002 eta K+ pi0 PHSP; 0.0002 eta K+ pi+ pi- PHSP; 0.0002 eta' K+ pi0 PHSP; 0.0002 eta' K+ pi+ pi- PHSP; 0.0002 K+ K- K+ PHSP; 0.0040 K0 pi+ PHSP; 0.0015 rho+ K0 SVS; 0.0015 rho0 K+ SVS; 0.0010 K0 pi+ pi0 PHSP; 0.0025 a_1+ K0 SVS; 0.0065 K*0 pi+ SVS; 0.0150 K*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0150 K*0 pi+ pi0 PHSP; Enddecay # Decay D_s- 0.0200 phi e- anti-nu_e PHOTOS ISGW2; 0.0260 eta e- anti-nu_e PHOTOS ISGW2; 0.0089 eta' e- anti-nu_e PHOTOS ISGW2; 0.0027 K0 e- anti-nu_e PHOTOS ISGW2; 0.0010 K*0 e- anti-nu_e PHOTOS ISGW2; 0.0200 phi mu- anti-nu_mu PHOTOS ISGW2; 0.0260 eta mu- anti-nu_mu PHOTOS ISGW2; 0.0089 eta' mu- anti-nu_mu PHOTOS ISGW2; 0.0027 K0 mu- anti-nu_mu PHOTOS ISGW2; 0.0010 K*0 mu- anti-nu_mu PHOTOS ISGW2; 0.0046 mu- anti-nu_mu PHOTOS SLN; 0.0700 tau- anti-nu_tau SLN; 0.0360 phi pi- SVS; 0.0170 eta pi- PHSP; 0.0390 eta' pi- PHSP; 0.0028 omega pi- SVS; 0.0004 rho0 pi- SVS; 0.0020 rho- pi0 SVS; 0.0010 pi- pi0 PHSP; 0.0180 f_0 pi- PHSP; 0.0023 f_2 pi- PHSP; 0.0670 phi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.1080 rho- eta SVS; 0.1010 rho- eta' SVS; 0.0040 pi- pi- pi+ PHSP; 0.0040 pi- pi0 pi0 PHSP; 0.0230 phi pi- pi0 PHSP; 0.0230 eta pi- pi0 PHSP; 0.0230 eta' pi- pi0 PHSP; 0.0118 phi pi- pi- pi+ PHSP; 0.0100 phi pi- pi0 pi0 PHSP; 0.0100 eta pi- pi- pi+ PHSP; 0.0100 eta pi- pi0 pi0 PHSP; # 0.0360 K0 K- PHSP; 0.0330 K*0 K- SVS; 0.0430 K*- K0 SVS; 0.0580 K*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0120 K0 K- pi0 PHSP; 0.0120 K*0 K- pi0 PHSP; 0.0120 K*- K0 pi0 PHSP; 0.0139 K*0 K*- pi0 PHSP; # 0.0090 K+ K- pi- PHSP; #0402270.0050 K0 K- pi0 PHSP; 0.0020 K0 K- pi+ pi- PHSP; 0.0020 K0 K- pi0 pi0 PHSP; 0.0083 K- K+ pi- pi+ pi- PHSP; 0.0003 phi K- SVS; 0.0002 eta K- PHSP; 0.0002 eta' K- PHSP; 0.0002 eta K- pi0 PHSP; 0.0002 eta K- pi+ pi- PHSP; 0.0002 eta' K- pi0 PHSP; 0.0002 eta' K- pi+ pi- PHSP; 0.0002 K- K- K+ PHSP; 0.0040 anti-K0 pi- PHSP; 0.0015 rho- anti-K0 SVS; 0.0015 rho0 K- SVS; 0.0010 anti-K0 pi- pi0 PHSP; 0.0025 a_1- anti-K0 SVS; 0.0065 anti-K*0 pi- SVS; 0.0150 anti-K*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0150 anti-K*0 pi- pi0 PHSP; Enddecay # # D** # Decay D_0*+ 0.3333 D+ pi0 PHSP; 0.6667 D0 pi+ PHSP; Enddecay Decay D_0*- 0.3333 D- pi0 PHSP; 0.6667 anti-D0 pi- PHSP; Enddecay Decay D_0*0 0.3333 D0 pi0 PHSP; 0.6667 D+ pi- PHSP; Enddecay Decay anti-D_0*0 0.3333 anti-D0 pi0 PHSP; 0.6667 D- pi+ PHSP; Enddecay # SetLineshapePW D_1+ D*+ pi0 2 SetLineshapePW D_1+ D*0 pi+ 2 SetLineshapePW D_1- D*- pi0 2 SetLineshapePW D_1- anti-D*0 pi- 2 SetLineshapePW D_10 D*0 pi0 2 SetLineshapePW D_10 D*+ pi- 2 SetLineshapePW anti-D_10 anti-D*0 pi0 2 SetLineshapePW anti-D_10 D*- pi+ 2 Decay D_1+ 0.3333 D*+ pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.6667 D*0 pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; Enddecay Decay D_1- 0.3333 D*- pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.6667 anti-D*0 pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; Enddecay Decay D_10 0.3333 D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.6667 D*+ pi- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; Enddecay Decay anti-D_10 0.3333 anti-D*0 pi0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.6667 D*- pi+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; Enddecay # Decay D'_1+ 0.3333 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.6667 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay Decay D'_1- 0.3333 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.6667 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay Decay D'_10 0.6667 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3333 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay Decay anti-D'_10 0.3333 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.6667 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # SetLineshapePW D_2*+ D*+ pi0 2 SetLineshapePW D_2*+ D*0 pi+ 2 SetLineshapePW D_2*- D*- pi0 2 SetLineshapePW D_2*- anti-D*0 pi- 2 SetLineshapePW D_2*0 D*0 pi0 2 SetLineshapePW D_2*0 D*+ pi- 2 SetLineshapePW anti-D_2*0 anti-D*0 pi0 2 SetLineshapePW anti-D_2*0 D*- pi+ 2 Decay D_2*+ 0.1030 D*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.2090 D*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.2290 D+ pi0 TSS; 0.4590 D0 pi+ TSS; Enddecay Decay D_2*- 0.1030 D*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.2090 anti-D*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.2290 D- pi0 TSS; 0.4590 anti-D0 pi- TSS; Enddecay Decay D_2*0 0.2090 D*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.1030 D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.2290 D0 pi0 TSS; 0.4590 D+ pi- TSS; Enddecay Decay anti-D_2*0 0.1030 anti-D*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.2090 D*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.2290 anti-D0 pi0 TSS; 0.4590 D- pi+ TSS; Enddecay # # D_s ** # Decay D_s0*+ # 0.5000 D+ K0 PHSP; # 0.5000 D0 K+ PHSP; 1.000 D_s+ pi0 PHSP; Enddecay Decay D_s0*- # 0.5000 D- anti-K0 PHSP; # 0.5000 anti-D0 K- PHSP; 1.000 D_s- pi0 PHSP; Enddecay Decay D'_s1+ 0.5000 D*+ K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.5000 D*0 K+ VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.0000 gamma D_s*+ PHSP; 0.0000 gamma D_s+ PHSP; Enddecay Decay D'_s1- 0.5000 D*- anti-K0 VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.5000 anti-D*0 K- VVS_PWAVE 0.0 0.0 0.0 0.0 1.0 0.0; 0.0000 gamma D_s*- PHSP; 0.0000 gamma D_s- PHSP; Enddecay Decay D_s1+ 0.79000 D_s0*+ pi0 PHSP; 0.21000 gamma D_s+ PHSP; Enddecay Decay D_s1- 0.79000 D_s0*- pi0 PHSP; 0.21000 gamma D_s- PHSP; Enddecay Decay D_s2*+ 0.0500 D*+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0500 D*0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.4300 D+ K0 TSS; 0.4700 D0 K+ TSS; Enddecay Decay D_s2*- 0.0500 D*- anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0500 anti-D*0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.4300 D- anti-K0 TSS; 0.4700 anti-D0 K- TSS; Enddecay # # # Charm Mesons: Radially Excited States # Decay D(2S)0 0.6667 D*+ pi- SVS; 0.3333 D*0 pi0 SVS; Enddecay Decay anti-D(2S)0 0.3333 anti-D*0 pi0 SVS; 0.6667 D*- pi+ SVS; Enddecay Decay D(2S)+ 0.3333 D*+ pi0 SVS; 0.6667 D*0 pi+ SVS; Enddecay Decay D(2S)- 0.3333 D*- pi0 SVS; 0.6667 anti-D*0 pi- SVS; Enddecay Decay D*(2S)0 0.3333 D*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1667 D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1667 D0 pi0 VSS; 0.3333 D+ pi- VSS; Enddecay Decay anti-D*(2S)0 0.1667 anti-D*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3333 D*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1667 anti-D0 pi0 VSS; 0.3333 D- pi+ VSS; Enddecay Decay D*(2S)+ 0.1667 D*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3333 D*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1667 D+ pi0 VSS; 0.3333 D0 pi+ VSS; Enddecay Decay D*(2S)- 0.1667 D*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3333 anti-D*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1667 D- pi0 VSS; 0.3333 anti-D0 pi- VSS; Enddecay # # # Strange Mesons # # Decay K_S0 0.6861 pi+ pi- PHSP; 0.3139 pi0 pi0 PHSP; Enddecay # # K_L0 is decayed in GEANT # Decay K0 0.500 K_L0 PHSP; 0.500 K_S0 PHSP; Enddecay Decay anti-K0 0.500 K_L0 PHSP; 0.500 K_S0 PHSP; Enddecay # Decay K*0 0.6657 K+ pi- VSS; 0.3323 K0 pi0 VSS; 0.0020 K0 gamma VSP_PWAVE; Enddecay Decay anti-K*0 0.6657 K- pi+ VSS; 0.3323 anti-K0 pi0 VSS; 0.0020 anti-K0 gamma VSP_PWAVE; Enddecay Decay K*+ 0.6660 K0 pi+ VSS; 0.3330 K+ pi0 VSS; 0.0010 K+ gamma VSP_PWAVE; Enddecay Decay K*- 0.6660 anti-K0 pi- VSS; 0.3330 K- pi0 VSS; 0.0010 K- gamma VSP_PWAVE; Enddecay # # The decays below are for particle aliases and used when # generating CP violating decays that depends on the decay # of the neutral K* # Decay K*L 1.0000 pi0 K_L0 VSS; Enddecay Decay K*S 1.0000 pi0 K_S0 VSS; Enddecay Decay K*BL 1.0000 pi0 K_L0 VSS; Enddecay Decay K*BS 1.0000 pi0 K_S0 VSS; Enddecay Decay K*0T 1.0000 pi- K+ VSS; Enddecay Decay anti-K*0T 1.0000 pi+ K- VSS; Enddecay # # Decay K_0*+ 0.6667 K0 pi+ PHSP; 0.3333 K+ pi0 PHSP; Enddecay # Decay K_0*- 0.6667 anti-K0 pi- PHSP; 0.3333 K- pi0 PHSP; Enddecay # Decay K_0*0 0.6667 K+ pi- PHSP; 0.3333 K0 pi0 PHSP; Enddecay # Decay K_0*0N 1.0000 K0 pi0 PHSP; Enddecay # Decay anti-K_0*0 0.6667 K- pi+ PHSP; 0.3333 anti-K0 pi0 PHSP; Enddecay # Decay anti-K_0*0N 1.0000 anti-K0 pi0 PHSP; Enddecay # Decay K_10 0.2800 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1400 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1067 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0533 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #To large masses can cause infinit loops 0.1100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1444 K0 pi+ pi- PHSP; 0.1244 K+ pi- pi0 PHSP; 0.0412 K0 pi0 pi0 PHSP; Enddecay Decay anti-K_10 0.2800 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1400 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1067 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0533 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #To large masses can cause infinit loops 0.1100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1444 anti-K0 pi+ pi- PHSP; 0.1244 K- pi+ pi0 PHSP; 0.0412 anti-K0 pi0 pi0 PHSP; Enddecay # Decay K_1+ 0.2800 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1400 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1067 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0533 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #To large masses can cause infinit loops 0.1100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1444 K+ pi+ pi- PHSP; 0.1244 K0 pi+ pi0 PHSP; 0.0412 K+ pi0 pi0 PHSP; Enddecay Decay K_1- 0.2800 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1400 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1067 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0533 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; #To large masses can cause infinit loops 0.1100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1444 K- pi+ pi- PHSP; 0.1244 anti-K0 pi- pi0 PHSP; 0.0412 K- pi0 pi0 PHSP; Enddecay # Decay K'_1+ 0.6300 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3100 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0200 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 omega K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0133 K+ pi+ pi- PHSP; 0.0067 K+ pi0 pi0 PHSP; Enddecay Decay K'_1- 0.6300 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3100 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0200 rho- anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 omega K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0133 K- pi+ pi- PHSP; 0.0067 K- pi0 pi0 PHSP; Enddecay Decay K'_10 0.6300 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3100 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0200 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 omega K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0133 K0 pi+ pi- PHSP; 0.0067 K0 pi0 pi0 PHSP; Enddecay Decay anti-K'_10 0.6300 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3100 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0200 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0100 omega anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0133 anti-K0 pi+ pi- PHSP; 0.0067 anti-K0 pi0 pi0 PHSP; Enddecay # Decay K_2*+ 0.3310 K0 pi+ TSS; 0.1660 K+ pi0 TSS; 0.1680 K*0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0840 K*+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0540 K*0 pi+ pi0 PHSP; 0.0540 K*+ pi+ pi- PHSP; 0.0540 K*+ pi0 pi0 PHSP; 0.0590 rho+ K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0300 rho0 K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; Enddecay Decay K_2*- 0.3310 anti-K0 pi- TSS; 0.1660 K- pi0 TSS; 0.1680 anti-K*0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0840 K*- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0540 anti-K*0 pi- pi0 PHSP; 0.0540 K*- pi+ pi- PHSP; 0.0540 K*- pi0 pi0 PHSP; 0.0590 rho- K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0300 rho0 K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; Enddecay Decay K_2*0 0.3310 K+ pi- TSS; 0.1660 K0 pi0 TSS; 0.1680 K*+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0840 K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0540 K*0 pi+ pi- PHSP; 0.0540 K*0 pi0 pi0 PHSP; 0.0540 K*+ pi- pi0 PHSP; 0.0590 rho- K+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0300 rho0 K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; Enddecay Decay anti-K_2*0 0.3310 K- pi+ TSS; 0.1660 anti-K0 pi0 TSS; 0.1680 K*- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0840 anti-K*0 pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0540 anti-K*0 pi+ pi- PHSP; 0.0540 anti-K*0 pi0 pi0 PHSP; 0.0540 K*- pi+ pi0 PHSP; 0.0590 rho+ K- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.0300 rho0 anti-K0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; Enddecay # Decay K*(1410) Decay K'*0 0.0467 K+ pi- VSS; 0.0233 K0 pi0 VSS; 0.5760 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.2880 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0440 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0220 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay anti-K'*0 0.0467 K- pi+ VSS; 0.0233 anti-K0 pi0 VSS; 0.5760 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.2880 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0440 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0220 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay K'*+ 0.0467 K0 pi+ VSS; 0.0233 K+ pi0 VSS; 0.5760 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.2880 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0440 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0220 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay K'*- 0.0467 anti-K0 pi- VSS; 0.0233 K- pi0 VSS; 0.5760 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.2880 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0440 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0220 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # # Decay K*(1680) Decay K''*0 0.2580 K+ pi- VSS; 0.1290 K0 pi0 VSS; 0.2093 K*+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1047 K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1993 rho- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0997 rho0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay anti-K''*0 0.2580 K- pi+ VSS; 0.1290 anti-K0 pi0 VSS; 0.2093 K*- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1047 anti-K*0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1993 rho+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0997 rho0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay K''*+ 0.2580 K0 pi+ VSS; 0.1290 K+ pi0 VSS; 0.2093 K*0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1047 K*+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1993 rho+ K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0997 rho0 K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay K''*- 0.2580 anti-K0 pi- VSS; 0.1290 K- pi0 VSS; 0.2093 anti-K*0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1047 K*- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1993 rho- K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0997 rho0 K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay Decay Xsd 1.00000 d anti-s JETSET 11; Enddecay Decay anti-Xsd 1.00000 anti-d s JETSET 11; Enddecay Decay Xsu 1.00000 u anti-s JETSET 11; Enddecay Decay anti-Xsu 1.00000 anti-u s JETSET 11; Enddecay Decay Xdd 1.00000 d anti-d JETSET 11; Enddecay Decay anti-Xdd 1.00000 anti-d d JETSET 11; Enddecay Decay Xdu 1.00000 u anti-d JETSET 11; Enddecay Decay anti-Xdu 1.00000 anti-u d JETSET 11; Enddecay # Xss decays can be uncommented when Jst74/lucomp.F recognizes Xss Decay Xss 1.00000 s anti-s JETSET 11; Enddecay Decay anti-Xss 1.00000 anti-s s JETSET 11; Enddecay # # Light Mesons # Decay pi0 0.9880 gamma gamma PHSP; 0.0120 e+ e- gamma PI0_DALITZ; Enddecay # Decay eta 0.3925 gamma gamma PHSP; 0.3210 pi0 pi0 pi0 PHSP; 0.2320 pi- pi+ pi0 ETA_DALITZ; 0.0478 gamma pi- pi+ PHSP; 0.0049 gamma e+ e- PHSP; 0.0003 gamma mu+ mu- PHSP; 0.0007 gamma gamma pi0 PHSP; 0.0008 pi+ pi- e+ e- PHSP; Enddecay # Decay rho0 1.000 pi+ pi- VSS; Enddecay Decay rho+ 1.000 pi+ pi0 VSS; Enddecay Decay rho- 1.000 pi- pi0 VSS; Enddecay # Decay omega 0.8880 pi- pi+ pi0 OMEGA_DALITZ; 0.0850 pi0 gamma VSP_PWAVE; 0.0221 pi- pi+ VSS; 0.0008 eta gamma VSP_PWAVE; 0.0006 pi0 e+ e- PHOTOS PHSP; 0.0001 pi0 mu+ mu- PHOTOS PHSP; 0.0020 pi+ pi- gamma PHSP; 0.0004 pi0 pi0 gamma PHSP; 0.0010 pi+ pi- pi+ pi- PHSP; Enddecay # Decay eta' 0.4370 pi+ pi- eta PHSP; 0.2080 pi0 pi0 eta PHSP; 0.3020 rho0 gamma SVP_HELAMP 1.0 0.0 1.0 0.0; 0.0302 omega gamma SVP_HELAMP 1.0 0.0 1.0 0.0; 0.0212 gamma gamma PHSP; 0.0015 pi0 pi0 pi0 PHSP; 0.0001 gamma mu- mu+ PHOTOS PHSP; Enddecay # Decay phi 0.4910 K+ K- VSS; 0.3410 K_L0 K_S0 VSS; 0.0430 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0430 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0430 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0250 pi+ pi- pi0 PHSP; 0.0121 eta gamma VSP_PWAVE; 0.0013 pi0 gamma VSP_PWAVE; 0.0003 e+ e- PHOTOS VLL; 0.0003 mu+ mu- PHOTOS VLL; Enddecay # Decay a_1+ 0.4920 rho0 pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.5080 rho+ pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay Decay a_10 0.5000 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.5000 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay Decay a_1- 0.4920 rho0 pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.5080 rho- pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay a_2+ 0.3500 rho0 pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.3500 rho+ pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.1440 eta pi+ TSS; 0.1050 omega pi+ pi0 PHSP; 0.0480 anti-K0 K+ TSS; 0.0030 pi+ gamma PHSP; Enddecay Decay a_2- 0.3500 rho0 pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.3500 rho- pi0 TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.1440 eta pi- TSS; 0.1050 omega pi- pi0 PHSP; 0.0480 anti-K0 K- TSS; 0.0030 pi- gamma PHSP; Enddecay Decay a_20 0.3500 rho+ pi- TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.3500 rho- pi+ TVS_PWAVE 0.0 0.0 1.0 0.0 0.0 0.0; 0.1440 eta pi0 TSS; 0.1050 omega pi+ pi- PHSP; 0.0240 K+ K- TSS; 0.0120 K_L0 K_L0 TSS; 0.0120 K_S0 K_S0 TSS; 0.0030 pi0 gamma PHSP; Enddecay # Decay b_1+ 0.9984 omega pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0016 pi+ gamma VSP_PWAVE; Enddecay Decay b_1- 0.9984 omega pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0016 pi- gamma VSP_PWAVE; Enddecay Decay b_10 0.9984 omega pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0016 pi0 gamma VSP_PWAVE; Enddecay # Decay a_00 0.9000 eta pi0 PHSP; 0.0500 K+ K- PHSP; 0.0250 K_S0 K_S0 PHSP; 0.0250 K_L0 K_L0 PHSP; Enddecay Decay a_0+ 0.9000 eta pi+ PHSP; 0.1000 anti-K0 K+ PHSP; Enddecay Decay a_0- 0.9000 eta pi- PHSP; 0.1000 K0 K- PHSP; Enddecay # Decay f_0 0.5200 pi+ pi- PHSP; 0.2600 pi0 pi0 PHSP; 0.1100 K+ K- PHSP; 0.0550 K_S0 K_S0 PHSP; 0.0550 K_L0 K_L0 PHSP; Enddecay # Decay f'_0 0.5200 pi+ pi- PHSP; 0.2600 pi0 pi0 PHSP; 0.0750 pi+ pi+ pi- pi- PHSP; 0.0750 pi+ pi- pi0 pi0 PHSP; 0.0350 K+ K- PHSP; 0.0175 K_S0 K_S0 PHSP; 0.0175 K_L0 K_L0 PHSP; Enddecay # Decay f_1 0.1500 rho0 pi+ pi- PHSP; 0.0500 rho0 pi0 pi0 PHSP; 0.0500 rho+ pi- pi0 PHSP; 0.0500 rho- pi+ pi0 PHSP; 0.1400 a_00 pi0 VSS; 0.1400 a_0+ pi- VSS; 0.1400 a_0- pi+ VSS; 0.0700 eta pi+ pi- PHSP; 0.0300 eta pi0 pi0 PHSP; 0.0300 K+ K- pi0 PHSP; 0.0200 K0 anti-K0 pi0 PHSP; 0.0300 anti-K0 K+ pi- PHSP; 0.0300 K0 K- pi+ PHSP; 0.0700 gamma rho0 PHSP; Enddecay # Decay f'_1 0.2500 K+ K- pi0 PHSP; 0.2500 K0 anti-K0 pi0 PHSP; 0.2500 anti-K0 K+ pi- PHSP; 0.2500 K0 K- pi+ PHSP; Enddecay # Decay f_2 0.5650 pi+ pi- TSS; 0.2820 pi0 pi0 TSS; 0.0280 pi+ pi- pi+ pi- PHSP; 0.0720 pi+ pi- pi0 pi0 PHSP; 0.0030 pi0 pi0 pi0 pi0 PHSP; 0.0230 K+ K- TSS; 0.0115 K_S0 K_S0 TSS; 0.0115 K_L0 K_L0 TSS; 0.0040 eta eta TSS; Enddecay # Decay f_0(1500) 0.0500 eta eta' PHSP; 0.1500 eta eta PHSP; 0.1000 pi0 pi0 pi0 pi0 PHSP; 0.2500 pi+ pi- pi+ pi- PHSP; 0.1000 pi+ pi- PHSP; 0.0500 pi0 pi0 PHSP; 0.1000 K+ K- PHSP; 0.1000 K_S0 K_S0 PHSP; 0.1000 K_L0 K_L0 PHSP; Enddecay # Decay f'_2 0.4444 K+ K- TSS; 0.2222 K_S0 K_S0 TSS; 0.2222 K_L0 K_L0 TSS; 0.1030 eta eta TSS; 0.0055 pi+ pi- TSS; 0.0027 pi0 pi0 TSS; Enddecay # Decay h_1 0.3333 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3333 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3334 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay h'_1 0.2500 K*+ K- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.2500 K*- K+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.2500 anti-K*0 K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.2500 K*0 anti-K0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; Enddecay # Decay rho(2S)+ 0.4000 pi+ pi0 PHSP; 0.4000 pi+ pi+ pi- pi0 PHSP; 0.2000 pi+ pi0 pi0 pi0 PHSP; Enddecay Decay rho(2S)- 0.4000 pi- pi0 PHSP; 0.4000 pi- pi+ pi- pi0 PHSP; 0.2000 pi- pi0 pi0 pi0 PHSP; Enddecay Decay rho(2S)0 0.4000 pi+ pi- PHSP; 0.3500 pi+ pi- pi+ pi- PHSP; 0.1500 pi+ pi- pi0 pi0 PHSP; 0.1000 pi0 pi0 pi0 pi0 PHSP; Enddecay # # # cc= mesons # Decay eta_c 0.0012 p+ anti-p- PHSP; 0.0071 phi phi SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; 0.0087 rho0 rho0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; 0.0173 rho+ rho- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; 0.0120 pi+ pi- pi+ pi- PHSP; 0.0210 K+ K- K+ K- PHSP; 0.0200 K+ K- pi+ pi- PHSP; 0.0327 eta pi+ pi- PHSP; 0.0163 eta pi0 pi0 PHSP; 0.0273 eta' pi+ pi- PHSP; 0.0137 eta' pi0 pi0 PHSP; 0.0092 pi0 K+ K- PHSP; 0.0184 K+ anti-K0 pi- PHSP; 0.0184 K- K0 pi+ PHSP; 0.0092 K0 anti-K0 pi0 PHSP; 0.0043 K*+ K*- SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0; 0.0042 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 0.0 0.0 -1.0 0.0 ; 0.0100 K*0 K- pi+ PHSP; 0.0100 anti-K*0 K+ pi- PHSP; 0.7390 rndmflav anti-rndmflav JETSET 12; Enddecay # Decay J/psi 0.0590 e+ e- PHOTOS VLL; 0.0590 mu+ mu- PHOTOS VLL; 0.0042 rho0 pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0043 rho+ pi- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0043 rho- pi+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0036 a_20 rho0 PHSP; 0.0036 a_2+ rho- PHSP; 0.0036 a_2- rho+ PHSP; 0.0085 omega pi+ pi- pi+ pi- PHSP; 0.0043 omega f_2 PHSP; 0.0035 omega pi+ pi- PHSP; 0.0034 K*0 anti-K_2*0 PHSP; 0.0034 anti-K*0 K_2*0 PHSP; 0.0026 omega K*0 anti-K0 PHSP; 0.0026 omega anti-K*0 K0 PHSP; 0.0025 K*+ K- PHSP; 0.0025 K*- K+ PHSP; 0.0021 K*0 anti-K0 PHSP; 0.0021 anti-K*0 K0 PHSP; 0.0019 K_1+ K- PHSP; 0.0019 K_1- K+ PHSP; 0.0034 omega pi0 pi0 PHSP; 0.0015 b_1+ pi- PHSP; 0.0015 b_1- pi+ PHSP; 0.0014 omega pi- K+ K0 PHSP; 0.0014 omega pi- K+ anti-K0 PHSP; 0.0015 omega pi+ K- K0 PHSP; 0.0015 omega pi+ K- anti-K0 PHSP; 0.0023 b_10 pi0 PHSP; 0.0005 phi K*0 anti-K0 PHSP; 0.0005 phi anti-K*0 K0 PHSP; 0.0005 phi K*+ K- PHSP; 0.0005 phi K*- K+ PHSP; 0.0012 omega K0 anti-K0 PHSP; 0.0007 omega K- K+ PHSP; 0.0016 phi pi+ pi- pi+ pi- PHSP; 0.0016 Delta++ anti-p- pi- PHSP; 0.0016 anti-Delta-- p+ pi+ PHSP; 0.0016 omega eta PHSP; 0.0006 phi K0 anti-K0 PHSP; 0.0008 phi K- K+ PHSP; 0.0013 omega p+ anti-p- PHSP; 0.0011 Delta++ anti-Delta-- PHSP; 0.0005 Sigma- anti-Sigma+ PHSP; 0.0005 Sigma+ anti-Sigma- PHSP; 0.00015 pi+ pi- PHSP; 0.0130 gamma eta_c PHSP; 0.0083 gamma pi+ pi- pi0 pi0 PHSP; 0.0061 gamma eta pi+ pi- PHSP; 0.0023 gamma rho+ rho- PHSP; 0.0023 gamma rho0 rho0 PHSP; 0.0043 gamma eta' PHSP; 0.0028 gamma pi+ pi- pi+ pi- PHSP; 0.0021 gamma K+ K- pi+ pi- PHSP; 0.0016 gamma omega omega PHSP; 0.0014 gamma f_2 PHSP; 0.0040 gamma K*0 anti-K*0 PHSP; 0.73925 rndmflav anti-rndmflav JETSET 12; Enddecay # Decay psi(2S) 0.0073 e+ e- PHOTOS VLL; 0.0070 mu+ mu- PHOTOS VLL; 0.0270 tau+ tau- PHOTOS VLL; 0.3050 J/psi pi+ pi- VVPIPI; 0.1820 J/psi pi0 pi0 VVPIPI; 0.0313 J/psi eta VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0010 J/psi pi0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0870 gamma chi_c0 PHSP; 0.0840 gamma chi_c1 PHSP; 0.0680 gamma chi_c2 PHSP; 0.0028 gamma eta_c PHSP; 0.1976 rndmflav anti-rndmflav JETSET 12; Enddecay Decay psi(4040) 0.000014 e+ e- PHOTOS VLL; 0.000014 mu+ mu- PHOTOS VLL; 0.000005 tau+ tau- VLL; 0.0021 D0 anti-D0 VSS; 0.0009 D+ D- VSS; 0.1679 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1679 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1815 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1815 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.1597 D*0 anti-D*0 PHSP; 0.0982 D*+ D*- PHSP; 0.0000 D0 anti-D0 pi0 PHSP; 0.0000 D+ D- pi0 PHSP; 0.0000 D0 D- pi+ PHSP; 0.0000 anti-D0 D+ pi- PHSP; 0.0000 D*+ D- pi0 PHSP; 0.0000 D*- D+ pi0 PHSP; 0.0000 D*+ anti-D0 pi- PHSP; 0.0000 D*- D0 pi+ PHSP; 0.0000 D+ anti-D*0 pi- PHSP; 0.0000 D- D*0 pi+ PHSP; 0.0403 D_s+ D_s- VSS; Enddecay # Decay psi(4160) 0.00001 e+ e- PHOTOS VLL; 0.00001 mu+ mu- PHOTOS VLL; 0.000006 tau+ tau- VLL; 0.0397 D0 anti-D0 VSS; 0.0387 D+ D- VSS; 0.0520 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0520 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0515 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0515 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.29863 D*0 anti-D*0 PHSP; 0.3082 D*+ D*- PHSP; 0.0000 D0 anti-D0 pi0 PHSP; 0.0000 D+ D- pi0 PHSP; 0.0000 D0 D- pi+ PHSP; 0.0000 anti-D0 D+ pi- PHSP; 0.0000 D*+ D- pi0 PHSP; 0.0000 D*- D+ pi0 PHSP; 0.0000 D*+ anti-D0 pi- PHSP; 0.0000 D*- D0 pi+ PHSP; 0.0000 D+ anti-D*0 pi- PHSP; 0.0000 D- D*0 pi+ PHSP; 0.0100 D_s+ D_s- VSS; 0.0489 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0489 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0000 D_s+ D_s- pi0 PHSP; Enddecay # Decay psi(4415) 0.000011 e+ e- PHOTOS VLL; 0.000011 mu+ mu- PHOTOS VLL; 0.000007 tau+ tau- VLL; 0.0244 D0 anti-D0 VSS; 0.0219 D+ D- VSS; 0.0320 D*0 anti-D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0320 anti-D*0 D0 VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0343 D*+ D- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0343 D*- D+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.3451 D*0 anti-D*0 PHSP; 0.3539 D*+ D*- PHSP; 0.0000 D0 anti-D0 pi0 PHSP; 0.0000 D+ D- pi0 PHSP; 0.0000 D0 D- pi+ PHSP; 0.0000 anti-D0 D+ pi- PHSP; 0.0000 D*+ D- pi0 PHSP; 0.0000 D*- D+ pi0 PHSP; 0.0000 D*+ anti-D0 pi- PHSP; 0.0000 D*- D0 pi+ PHSP; 0.0000 D+ anti-D*0 pi- PHSP; 0.0000 D- D*0 pi+ PHSP; 0.0118 D_s+ D_s- VSS; 0.0420 D_s*+ D_s- VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0420 D_s*- D_s+ VVS_PWAVE 1.0 0.0 0.0 0.0 0.0 0.0; 0.0263 D_s*+ D_s*- PHSP; 0.0000 D_s+ D_s- pi0 PHSP; 0.0000 D_s*+ D_s- pi0 PHSP; 0.0000 D_s+ D_s*- pi0 PHSP; 0.0000 D_s+ D- anti-K0 PHSP; 0.0000 D_s- D+ anti-K0 PHSP; 0.0000 D0 D_s- K+ PHSP; 0.0000 anti-D0 D_s+ K- PHSP; Enddecay # Decay chi_c0 0.0102 gamma J/psi PHSP; 0.00022 p+ anti-p- PHSP; 0.00019 gamma gamma PHSP; 0.0050 pi+ pi- PHSP; 0.0149 pi+ pi- pi+ pi- PHSP; 0.0017 K+ K- K+ K- PHSP; 0.0124 pi+ pi- pi+ pi- pi+ pi- PHSP; 0.0095 rho0 pi+ pi- PHSP; 0.0095 rho+ pi- pi0 PHSP; 0.0095 rho- pi+ pi0 PHSP; 0.0059 K+ K- PHSP; 0.0020 K_S0 K_S0 PHSP; 0.0009 phi phi PHSP; 0.0036 anti-K*0 K+ pi- PHSP; 0.0036 K*0 K- pi+ PHSP; 0.0036 K*+ anti-K0 pi- PHSP; 0.0036 K*- K0 pi+ PHSP; 0.0131 pi+ pi- K+ K- PHSP; 0.0018 pi+ pi- p+ anti-p- PHSP; 0.88879 rndmflav anti-rndmflav JETSET 12; Enddecay # Decay chi_c1 0.316 J/psi gamma VVP 1.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0; 0.0043 pi+ pi- pi+ pi- PHSP; 0.000072 p+ anti-p- PHSP; 0.0063 pi+ pi- pi+ pi- pi+ pi- PHSP; 0.00375 pi+ pi- K+ K- PHSP; 0.0013 rho0 pi+ pi- PHSP; 0.0013 rho+ pi- pi0 PHSP; 0.0013 rho- pi+ pi0 PHSP; 0.00086 anti-K*0 K+ pi- PHSP; 0.00086 K*0 K- pi+ PHSP; 0.00086 K*+ anti-K0 pi- PHSP; 0.00086 K*- K0 pi+ PHSP; 0.0014 pi+ pi- p+ anti-p- PHSP; 0.0025 K+ anti-K0 pi- PHSP; 0.0025 K- K0 pi+ PHSP; 0.655838 rndmflav anti-rndmflav JETSET 12; Enddecay # Decay chi_c2 0.187 gamma J/psi PHSP; 0.00022 gamma gamma PHSP; 0.000068 p+ anti-p- PHSP; 0.0015 pi+ pi- TSS; 0.0097 pi+ pi- pi+ pi- PHSP; 0.00102 K+ K- K+ K- PHSP; 0.0092 pi+ pi- pi+ pi- pi+ pi- PHSP; 0.0083 pi+ pi- K+ K- PHSP; 0.00437 rho0 pi+ pi- PHSP; 0.00437 rho+ pi- pi0 PHSP; 0.00437 rho- pi+ pi0 PHSP; 0.0008 K+ K- TSS; 0.0006 K_S0 K_S0 PHSP; 0.0020 phi phi PHSP; 0.00125 anti-K*0 K+ pi- PHSP; 0.00125 K*0 K- pi+ PHSP; 0.00125 K*+ anti-K0 pi- PHSP; 0.00125 K*- K0 pi+ PHSP; 0.0014 pi+ pi- p+ anti-p- PHSP; 0.759976 rndmflav anti-rndmflav JETSET 12; Enddecay # Decay psi(3770) 0.4260 D+ D- VSS; 0.5740 D0 anti-D0 VSS; Enddecay # # # bb= Mesons # Decay eta_b 1.000 rndmflav anti-rndmflav JETSET 12; Enddecay # Decay Upsilon 0.0256 e+ e- PHOTOS VLL; 0.0256 mu+ mu- PHOTOS VLL; 0.0256 tau+ tau- VLL; 0.01500 d anti-d JETSET 32; 0.04500 u anti-u JETSET 32; 0.01500 s anti-s JETSET 32; 0.04500 c anti-c JETSET 32; 0.77420 g g g JETSET 4; 0.02900 gamma g g JETSET 4; Enddecay # Decay Upsilon(2S) 0.0150 e+ e- PHOTOS VLL; 0.0150 mu+ mu- PHOTOS VLL; 0.0150 tau+ tau- VLL; 0.1850 Upsilon pi+ pi- PHSP; 0.0900 Upsilon pi0 pi0 PHSP; # V-> gamma S Partial wave (L,S)=(0,1) 0.0430 gamma chi_b0 HELAMP 1. 0. +1. 0.; # V-> gamma V Partial wave (L,S)=(0,1) 0.0660 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma T Partial wave (L,S)=(0,1) 0.0670 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; 0.00500 d anti-d JETSET 32; 0.02000 u anti-u JETSET 32; 0.00500 s anti-s JETSET 32; 0.02000 c anti-c JETSET 32; 0.43800 g g g JETSET 4; 0.01600 gamma g g JETSET 4; Enddecay # Decay Upsilon(3S) 0.0181 e+ e- PHOTOS VLL; 0.0181 mu+ mu- PHOTOS VLL; 0.0150 tau+ tau- VLL; 0.0448 Upsilon pi+ pi- PHSP; 0.0206 Upsilon pi0 pi0 PHSP; 0.0280 Upsilon(2S) pi+ pi- PHSP; 0.0200 Upsilon(2S) pi0 pi0 PHSP; 0.0500 Upsilon(2S) gamma gamma PHSP; # V-> gamma S Partial wave (L,S)=(0,1) 0.0540 gamma chi_b0(2P) HELAMP 1. 0. 1. 0.; # V-> gamma V Partial wave (L,S)=(0,1) 0.1140 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma T Partial wave (L,S)=(0,1) 0.1130 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; 0.00700 d anti-d JETSET 32; 0.02800 u anti-u JETSET 32; 0.00700 s anti-s JETSET 32; 0.02800 c anti-c JETSET 32; 0.41940 g g g JETSET 4; 0.01500 gamma g g JETSET 4; Enddecay # Decay chi_b0 # S-> gamma V Partial wave (L,S)=(0,0) 0.0500 gamma Upsilon HELAMP 1. 0. 1. 0.; 0.9500 rndmflav anti-rndmflav JETSET 12; Enddecay # Decay chi_b1 # V-> gamma V Partial wave (L,S)=(0,1) 0.3500 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; 0.6500 g g JETSET 32; Enddecay # Decay chi_b2 # T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. 0.2200 gamma Upsilon PHSP; #0.2200 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; 0.7800 g g JETSET 32; Enddecay # Decay chi_b0(2P) # S-> gamma V Partial wave (L,S)=(0,0) 0.0090 gamma Upsilon HELAMP 1. 0. 1. 0.; 0.0460 gamma Upsilon(2S) HELAMP 1. 0. 1. 0.; # S-> gamma V Partial wave (L,S)=(0,0) 0.00150 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0.; 0.94350 g g JETSET 32; Enddecay # Decay chi_b1(2P) # V-> gamma V Partial wave (L,S)=(0,1) 0.0850 gamma Upsilon HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; 0.2100 gamma Upsilon(2S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma V Partial wave (L,S)=(0,1) 0.0097 gamma Upsilon_1(1D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma T Partial wave (L,S)=(0,1) 0.0236 gamma Upsilon_2(1D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; 0.6717 g g JETSET 32; Enddecay # Decay chi_b2(2P) # T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. 0.0710 gamma Upsilon PHSP; #0.0710 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; 0.1620 gamma Upsilon(2S) PHSP; #0.1620 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; # T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. 0.00023 gamma Upsilon_1(1D) PHSP; #0.00023 gamma Upsilon_1(1D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; # T -> gamma T Partial wave (L,S)=(0,2) 0.00290 gamma Upsilon_2(1D) PHSP; #0.00290 gamma Upsilon_2(1D) HELAMP -1. 0. -1.2247449 0. # -1.2247449 0. -1. 0. # 1. 0. 1.2247449 0. # 1.2247449 0. 1. 0.; # spin 3 not yet in HELAMP. 0.01420 gamma Upsilon_3(1D) JETSET 0; # T-> gamma 3 Partial wave (L,S)=(0,2) #0.01420 gamma Upsilon_3(1D) HELAMP 3.8729833 0. 3.1622777 0. # 2.4494897 0. 1.7320508. 0. 1. 0. # 1. 0. 1.7320508 0. 2.4494897 0. # 3.1622777 0. 3.8729833 0.; 0.74967 g g JETSET 32; Enddecay # Decay h_b 1.00000 g g JETSET 32; Enddecay Decay chi_b0(3P) #see Kwong and Rosner, PRD 38,279 (1988) # S-> gamma V Partial wave (L,S)=(0,0) 0.01700 gamma Upsilon(3S) HELAMP 1. 0. 1. 0.; # S-> gamma V Partial wave (L,S)=(0,0) 0.00400 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0.; 0.97900 g g JETSET 32; Enddecay Decay chi_b1(3P) #see Kwong and Rosner, PRD 38,279 (1988) # V-> gamma V Partial wave (L,S)=(0,1) 0.15000 gamma Upsilon(3S) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma T Partial wave (L,S)=(0,1) 0.03100 gamma Upsilon_2(2D) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; # V-> gamma V Partial wave (L,S)=(0,1) 0.01300 gamma Upsilon_1(2D) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; 0.80600 g g JETSET 32; Enddecay Decay chi_b2(3P) #see Kwong and Rosner, PRD 38,279 (1988) # T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. 0.08700 gamma Upsilon(3S) PHSP; 0.00000 gamma Upsilon(2S) PHSP; 0.00000 gamma Upsilon PHSP; #0.08700 gamma Upsilon(3S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; #0.00000 gamma Upsilon(2S) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; #0.00000 gamma Upsilon HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; # spin 3 not yet in HELAMP 0.02200 Upsilon_3(2D) gamma PHSP; # T -> gamma 3 Partial wave (L,S)=(0,2) #0.02200 gamma Upsilon_3(2D) HELAMP 3.8729833 0. 3.1622777 0. # 2.4494897 0. 1.7320508. 0. 1. 0. # 1. 0. 1.7320508 0. 2.4494897 0. # 3.1622777 0. 3.8729833 0.; # T -> gamma T Partial wave (L,S)=(0,2) 0.00400 gamma Upsilon_2(2D) PHSP; #0.00400 gamma Upsilon_2(2D) HELAMP -1. 0. -1.2247449 0. # -1.2247449 0. -1. 0. # 1. 0. 1.2247449 0. # 1.2247449 0. 1. 0.; # T-> gamma V Partial wave (L,S)=(0,2) 0.00040 gamma Upsilon_1(2D) PHSP; #0.00040 gamma Upsilon_1(2D) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; 0.88660 g g JETSET 32; Enddecay Decay Upsilon_1(1D) #see Kwong and Rosner, PRD 38,279 (1988) 0.00140 Upsilon pi+ pi- PHSP; 0.00070 Upsilon pi0 pi0 PHSP; # V-> gamma S Partial wave (L,S)=(0,1) 0.60200 gamma chi_b0 HELAMP 1. 0. +1. 0.; # V-> gamma V Partial wave (L,S)=(0,1) 0.31800 gamma chi_b1 HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma T Partial wave (L,S)=(0,1) 0.02600 gamma chi_b2 HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; 0.05190 g g g JETSET 4; Enddecay Decay Upsilon_2(1D) #see Kwong and Rosner, PRD 38,279 (1988) 0.00140 Upsilon pi+ pi- PHSP; 0.00070 Upsilon pi0 pi0 PHSP; # T-> gamma T Partial wave (L,S)=(0,2) 0.20300 gamma chi_b2 PHSP; #0.20300 gamma chi_b2 HELAMP -1. 0. -1.2247449 0. # -1.2247449 0. -1. 0. # 1. 0. 1.2247449 0. # 1.2247449 0. 1. 0.; # T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. 0.78500 gamma chi_b1 PHSP; #0.78500 gamma chi_b1 HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; 0.00990 g g g JETSET 4; Enddecay Decay Upsilon_3(1D) #see Kwong and Rosner, PRD 38,279 (1988) 0.00200 Upsilon pi+ pi- PHSP; 0.00100 Upsilon pi0 pi0 PHSP; 0.95400 chi_b2 gamma PHSP; 0.04300 g g g JETSET 4; Enddecay Decay Upsilon_1(2D) #see Kwong and Rosner, PRD 38,279 (1988) 0.00000 Upsilon pi+ pi- PHSP; 0.00000 Upsilon pi0 pi0 PHSP; 0.00000 Upsilon(2S) pi+ pi- PHSP; 0.00000 Upsilon(2S) pi0 pi0 PHSP; # V-> gamma S Partial wave (L,S)=(0,1) 0.51000 gamma chi_b0(2P) HELAMP 1. 0. +1. 0.; # V-> gamma V Partial wave (L,S)=(0,1) 0.26000 gamma chi_b1(2P) HELAMP 1. 0. 1. 0. -1. 0. -1. 0.; # V-> gamma T Partial wave (L,S)=(0,1) 0.01400 gamma chi_b2(2P) HELAMP 2.4494897 0. 1.7320508 0. 1. 0. 1. 0. 1.7320508 0. 2.4494897 0.; 0.21600 g g g JETSET 4; Enddecay Decay Upsilon_2(2D) #see Kwong and Rosner, PRD 38,279 (1988) 0.00000 Upsilon pi+ pi- PHSP; 0.00000 Upsilon pi0 pi0 PHSP; 0.00000 Upsilon(2S) pi+ pi- PHSP; 0.00000 Upsilon(2S) pi0 pi0 PHSP; # T-> gamma T Partial wave (L,S)=(0,2) 0.04000 gamma chi_b2(2P) PHSP; #0.04000 gamma chi_b2(2P) HELAMP -1. 0. -1.2247449 0. # -1.2247449 0. -1. 0. # 1. 0. 1.2247449 0. # 1.2247449 0. 1. 0.; # T-> gamma V Partial wave (L,S)=(0,2) Use PHSP. 0.13000 gamma chi_b1(2P) PHSP; #0.13000 gamma chi_b1(2P) HELAMP 1. 0. 1.7320508 0. 2.4494897 0. # 2.4494897 0. 1.7320508 0. 1. 0.; 0.83000 g g g JETSET 4; Enddecay Decay Upsilon_3(2D) #see Kwong and Rosner, PRD 38,279 (1988) 0.00000 Upsilon pi+ pi- PHSP; 0.00000 Upsilon pi0 pi0 PHSP; 0.00000 Upsilon(2S) pi+ pi- PHSP; 0.00000 Upsilon(2S) pi0 pi0 PHSP; 0.72000 chi_b2(2P) gamma PHSP; 0.28000 g g g JETSET 4; Enddecay Decay h_b(2P) 1.00000 g g JETSET 32; Enddecay Decay h_b(3P) 1.00000 g g JETSET 32; Enddecay Decay eta_b2(1D) 1.00000 g g JETSET 32; Enddecay Decay eta_b2(2D) 1.00000 g g JETSET 32; Enddecay # # Charm Baryons # Decay Lambda_c+ 0.01800 e+ nu_e Lambda0 JETSET 42; 0.00500 e+ nu_e Sigma0 JETSET 42; 0.00500 e+ nu_e Sigma*0 JETSET 42; 0.00300 e+ nu_e n0 JETSET 42; 0.00200 e+ nu_e Delta0 JETSET 42; 0.00600 e+ nu_e p+ pi- JETSET 42; 0.00600 e+ nu_e n0 pi0 JETSET 42; 0.01800 mu+ nu_mu Lambda0 JETSET 42; 0.00500 mu+ nu_mu Sigma0 JETSET 42; 0.00500 mu+ nu_mu Sigma*0 JETSET 42; 0.00300 mu+ nu_mu n0 JETSET 42; 0.00200 mu+ nu_mu Delta0 JETSET 42; 0.00600 mu+ nu_mu p+ pi- JETSET 42; 0.00600 mu+ nu_mu n0 pi0 JETSET 42; 0.00660 Delta++ K- JETSET 0; 0.02500 Delta++ K*- JETSET 0; 0.02300 p+ anti-K0 JETSET 0; 0.04000 p+ anti-K*0 JETSET 0; 0.00500 Delta+ anti-K0 JETSET 0; 0.00500 Delta+ anti-K*0 JETSET 0; 0.00580 Lambda0 pi+ JETSET 0; 0.00500 Lambda0 rho+ JETSET 0; 0.00550 Sigma0 pi+ JETSET 0; 0.00400 Sigma0 rho+ JETSET 0; 0.00400 Sigma*0 pi+ JETSET 0; 0.00400 Sigma*0 rho+ JETSET 0; 0.00400 Sigma+ pi0 JETSET 0; 0.00200 Sigma+ eta JETSET 0; 0.00200 Sigma+ eta' JETSET 0; 0.00400 Sigma+ rho0 JETSET 0; 0.00400 Sigma+ omega JETSET 0; 0.00300 Sigma*+ pi0 JETSET 0; 0.00200 Sigma*+ eta JETSET 0; 0.00300 Sigma*+ rho0 JETSET 0; 0.00300 Sigma*+ omega JETSET 0; 0.00200 Xi0 K+ JETSET 0; 0.00200 Xi0 K*+ JETSET 0; 0.00200 Xi*0 K+ JETSET 0; 0.00100 Delta++ pi- JETSET 0; 0.00100 Delta++ rho- JETSET 0; 0.00200 p+ pi0 JETSET 0; 0.00100 p+ eta JETSET 0; 0.00100 p+ eta' JETSET 0; 0.00200 p+ rho0 JETSET 0; 0.00200 p+ omega JETSET 0; 0.00130 p+ phi JETSET 0; 0.00180 p+ f_0 JETSET 0; 0.00100 Delta+ pi0 JETSET 0; 0.00100 Delta+ eta JETSET 0; 0.00100 Delta+ eta' JETSET 0; 0.00100 Delta+ rho0 JETSET 0; 0.00100 Delta+ omega JETSET 0; 0.00300 n0 pi+ JETSET 0; 0.00300 n0 rho+ JETSET 0; 0.00300 Delta0 pi+ JETSET 0; 0.00300 Delta0 rho+ JETSET 0; 0.00500 Lambda0 K+ JETSET 0; 0.00500 Lambda0 K*+ JETSET 0; 0.00200 Sigma0 K+ JETSET 0; 0.00200 Sigma0 K*+ JETSET 0; 0.00100 Sigma*0 K+ JETSET 0; 0.00100 Sigma*0 K*+ JETSET 0; 0.00200 Sigma+ K0 JETSET 0; 0.00200 Sigma+ K*0 JETSET 0; 0.00100 Sigma*+ K0 JETSET 0; 0.00100 Sigma*+ K*0 JETSET 0; 0.13000 u anti-d d su_0 JETSET 13; 0.05700 u anti-d d su_1 JETSET 13; 0.03500 u anti-s d su_0 JETSET 13; 0.03500 u anti-d d ud_0 JETSET 13; 0.09500 s uu_1 JETSET 13; 0.14000 u su_0 JETSET 13; 0.14000 u su_1 JETSET 13; 0.03000 d uu_1 JETSET 13; 0.01500 u ud_0 JETSET 13; 0.01500 u ud_1 JETSET 13; Enddecay CDecay anti-Lambda_c- # Decay Xi_c0 1.000 JETSET 84; Enddecay Decay anti-Xi_c0 1.000 JETSET 84; Enddecay # Decay c-hadron 0.08000 e+ nu_e s specflav JETSET 42; 0.08000 mu+ nu_mu s specflav JETSET 42; 0.76000 u anti-d s specflav JETSET 11; 0.08000 u anti-s s specflav JETSET 11; Enddecay CDecay anti-c-hadron # Decay Sigma_c0 1.0000 Lambda_c+ pi- PHSP; Enddecay Decay anti-Sigma_c0 1.0000 anti-Lambda_c- pi+ PHSP; Enddecay # Decay Sigma_c+ 1.0000 Lambda_c+ pi0 PHSP; Enddecay Decay anti-Sigma_c- 1.0000 anti-Lambda_c- pi0 PHSP; Enddecay # Decay Xi_c+ 1.000 JETSET 84; Enddecay Decay anti-Xi_c- 1.000 JETSET 84; Enddecay # Decay Sigma_c++ 1.0000 Lambda_c+ pi+ PHSP; Enddecay Decay anti-Sigma_c-- 1.0000 anti-Lambda_c- pi- PHSP; Enddecay # Decay Xi'_c+ 0.1000 Lambda0 K- pi+ pi+ PHSP; 0.0800 Sigma0 K- pi+ pi+ PHSP; 0.8200 gamma Xi_c+ PHSP; Enddecay Decay anti-Xi'_c- 0.1000 anti-Lambda0 K+ pi- pi- PHSP; 0.0800 anti-Sigma0 K+ pi- pi- PHSP; 0.8200 gamma anti-Xi_c- PHSP; Enddecay # Decay Xi'_c0 1.0000 gamma Xi_c0 PHSP; Enddecay Decay anti-Xi'_c0 1.0000 gamma anti-Xi_c0 PHSP; Enddecay # # Light Baryons # Decay Lambda0 0.6390 p+ pi- PHSP; 0.3580 n0 pi0 PHSP; 0.0018 n0 gamma PHSP; 0.0005 p+ pi- gamma PHSP; 0.0006 p+ e- anti-nu_e PHOTOS PHSP; 0.0001 p+ mu- anti-nu_mu PHOTOS PHSP; Enddecay Decay anti-Lambda0 0.6390 anti-p- pi+ PHSP; 0.3580 anti-n0 pi0 PHSP; 0.0018 anti-n0 gamma PHSP; 0.0005 anti-p- pi+ gamma PHSP; 0.0006 anti-p- e+ nu_e PHOTOS PHSP; 0.0001 anti-p- mu+ nu_mu PHOTOS PHSP; Enddecay # Decay Lambda(1405)0 0.3333 Sigma+ pi- PHSP; 0.3333 Sigma- pi+ PHSP; 0.3333 Sigma0 pi0 PHSP; Enddecay # Decay anti-Lambda(1405)0 0.3333 anti-Sigma+ pi- PHSP; 0.3333 anti-Sigma- pi+ PHSP; 0.3333 anti-Sigma0 pi0 PHSP; Enddecay # Decay Lambda(1520)0 0.23 p+ K- PHSP; 0.23 n0 anti-K0 PHSP; 0.14 Sigma+ pi- PHSP; 0.14 Sigma- pi+ PHSP; 0.14 Sigma0 pi0 PHSP; 0.0333 Lambda0 pi0 pi0 PHSP; 0.0667 Lambda0 pi+ pi- PHSP; 0.003 Sigma+ pi- pi0 PHSP; 0.003 Sigma- pi+ pi0 PHSP; 0.001 Sigma0 pi0 pi0 PHSP; 0.002 Sigma0 pi+ pi- PHSP; 0.011 Lambda0 gamma PHSP; Enddecay # Decay anti-Lambda(1520)0 0.23 anti-p- K+ PHSP; 0.23 anti-n0 K0 PHSP; 0.14 anti-Sigma- pi+ PHSP; 0.14 anti-Sigma+ pi- PHSP; 0.14 anti-Sigma0 pi0 PHSP; 0.0333 anti-Lambda0 pi0 pi0 PHSP; 0.0667 anti-Lambda0 pi+ pi- PHSP; 0.003 anti-Sigma+ pi- pi0 PHSP; 0.003 anti-Sigma- pi+ pi0 PHSP; 0.001 anti-Sigma0 pi0 pi0 PHSP; 0.002 anti-Sigma0 pi+ pi- PHSP; 0.011 anti-Lambda0 gamma PHSP; Enddecay # Decay Lambda(1600)0 0.176 p+ K- PHSP; 0.176 n0 anti-K0 PHSP; 0.216 Sigma+ pi- PHSP; 0.216 Sigma- pi+ PHSP; 0.216 Sigma0 pi0 PHSP; Enddecay # Decay anti-Lambda(1600)0 0.176 anti-p- K+ PHSP; 0.176 anti-n0 K0 PHSP; 0.216 anti-Sigma+ pi- PHSP; 0.216 anti-Sigma- pi+ PHSP; 0.216 anti-Sigma0 pi0 PHSP; Enddecay # Decay Lambda(1670)0 0.10 p+ K- PHSP; 0.10 n0 anti-K0 PHSP; 0.16 Sigma+ pi- PHSP; 0.16 Sigma- pi+ PHSP; 0.16 Sigma0 pi0 PHSP; 0.32 Lambda0 eta PHSP; Enddecay # Decay anti-Lambda(1670)0 0.10 anti-p- K+ PHSP; 0.10 anti-n0 K0 PHSP; 0.16 anti-Sigma+ pi- PHSP; 0.16 anti-Sigma- pi+ PHSP; 0.16 anti-Sigma0 pi0 PHSP; 0.32 anti-Lambda0 eta PHSP; Enddecay # Decay Lambda(1690)0 0.125 p+ K- PHSP; 0.125 n0 anti-K0 PHSP; 0.10 Sigma+ pi- PHSP; 0.10 Sigma- pi+ PHSP; 0.10 Sigma0 pi0 PHSP; 0.0833 Lambda0 pi0 pi0 PHSP; 0.1667 Lambda0 pi+ pi- PHSP; 0.067 Sigma+ pi- pi0 PHSP; 0.067 Sigma- pi+ pi0 PHSP; 0.022 Sigma0 pi0 pi0 PHSP; 0.044 Sigma0 pi+ pi- PHSP; Enddecay # Decay anti-Lambda(1690)0 0.125 anti-p- K+ PHSP; 0.125 anti-n0 K0 PHSP; 0.10 anti-Sigma+ pi- PHSP; 0.10 anti-Sigma- pi+ PHSP; 0.10 anti-Sigma0 pi0 PHSP; 0.0833 anti-Lambda0 pi0 pi0 PHSP; 0.1667 anti-Lambda0 pi+ pi- PHSP; 0.067 anti-Sigma+ pi- pi0 PHSP; 0.067 anti-Sigma- pi+ pi0 PHSP; 0.022 anti-Sigma0 pi0 pi0 PHSP; 0.044 anti-Sigma0 pi+ pi- PHSP; Enddecay # Decay Lambda(1800)0 0.165 p+ K- PHSP; 0.165 n0 anti-K0 PHSP; 0.08 Sigma+ pi- PHSP; 0.08 Sigma- pi+ PHSP; 0.08 Sigma0 pi0 PHSP; 0.003 Sigma*+ pi- PHSP; 0.003 Sigma*- pi+ PHSP; 0.004 Sigma*0 pi0 PHSP; 0.21 p+ K*- PHSP; 0.21 n0 anti-K*0 PHSP; Enddecay # Decay anti-Lambda(1800)0 0.165 anti-p- K+ PHSP; 0.165 anti-n0 K0 PHSP; 0.08 anti-Sigma+ pi- PHSP; 0.08 anti-Sigma- pi+ PHSP; 0.08 anti-Sigma0 pi0 PHSP; 0.003 anti-Sigma*+ pi- PHSP; 0.003 anti-Sigma*- pi+ PHSP; 0.004 anti-Sigma*0 pi0 PHSP; 0.21 anti-p- K*+ PHSP; 0.21 anti-n0 K*0 PHSP; Enddecay # Decay Lambda(1810)0 0.165 p+ K- PHSP; 0.165 n0 anti-K0 PHSP; 0.08 Sigma+ pi- PHSP; 0.08 Sigma- pi+ PHSP; 0.08 Sigma0 pi0 PHSP; 0.003 Sigma*+ pi- PHSP; 0.003 Sigma*- pi+ PHSP; 0.004 Sigma*0 pi0 PHSP; 0.21 p+ K*- PHSP; 0.21 n0 anti-K*0 PHSP; Enddecay # Decay anti-Lambda(1810)0 0.165 anti-p- K+ PHSP; 0.165 anti-n0 K0 PHSP; 0.08 anti-Sigma+ pi- PHSP; 0.08 anti-Sigma- pi+ PHSP; 0.08 anti-Sigma0 pi0 PHSP; 0.003 anti-Sigma*+ pi- PHSP; 0.003 anti-Sigma*- pi+ PHSP; 0.004 anti-Sigma*0 pi0 PHSP; 0.21 anti-p- K*+ PHSP; 0.21 anti-n0 K*0 PHSP; Enddecay # Decay Lambda(1820)0 0.34 p+ K- PHSP; 0.34 n0 anti-K0 PHSP; 0.06 Sigma+ pi- PHSP; 0.06 Sigma- pi+ PHSP; 0.06 Sigma0 pi0 PHSP; 0.04 Sigma*+ pi- PHSP; 0.04 Sigma*- pi+ PHSP; 0.04 Sigma*0 pi0 PHSP; 0.01 Lambda0 eta PHSP; 0.003 Sigma+ pi- pi0 PHSP; 0.004 Sigma- pi+ pi0 PHSP; 0.001 Sigma0 pi0 pi0 PHSP; 0.002 Sigma0 pi+ pi- PHSP; Enddecay # Decay anti-Lambda(1820)0 0.34 anti-p- K+ PHSP; 0.34 anti-n0 K0 PHSP; 0.06 anti-Sigma+ pi- PHSP; 0.06 anti-Sigma- pi+ PHSP; 0.06 anti-Sigma0 pi0 PHSP; 0.04 anti-Sigma*+ pi- PHSP; 0.04 anti-Sigma*- pi+ PHSP; 0.04 anti-Sigma*0 pi0 PHSP; 0.01 anti-Lambda0 eta PHSP; 0.003 anti-Sigma+ pi- pi0 PHSP; 0.004 anti-Sigma- pi+ pi0 PHSP; 0.001 anti-Sigma0 pi0 pi0 PHSP; 0.002 anti-Sigma0 pi+ pi- PHSP; Enddecay # Decay Lambda(1830)0 0.05 p+ K- PHSP; 0.05 n0 anti-K0 PHSP; 0.24 Sigma+ pi- PHSP; 0.24 Sigma- pi+ PHSP; 0.24 Sigma0 pi0 PHSP; 0.06 Sigma*+ pi- PHSP; 0.06 Sigma*- pi+ PHSP; 0.06 Sigma*0 pi0 PHSP; Enddecay # Decay anti-Lambda(1830)0 0.05 anti-p- K+ PHSP; 0.05 anti-n0 K0 PHSP; 0.24 anti-Sigma+ pi- PHSP; 0.24 anti-Sigma- pi+ PHSP; 0.24 anti-Sigma0 pi0 PHSP; 0.06 anti-Sigma*+ pi- PHSP; 0.06 anti-Sigma*- pi+ PHSP; 0.06 anti-Sigma*0 pi0 PHSP; Enddecay # # Decay Sigma(1660)0 0.07 p+ K- PHSP; 0.07 n0 anti-K0 PHSP; 0.16 Lambda0 pi0 PHSP; 0.35 Sigma+ pi- PHSP; 0.35 Sigma- pi+ PHSP; Enddecay # Decay anti-Sigma(1660)0 0.07 anti-p- K+ PHSP; 0.07 anti-n0 K0 PHSP; 0.16 anti-Lambda0 pi0 PHSP; 0.35 anti-Sigma+ pi- PHSP; 0.35 anti-Sigma- pi+ PHSP; Enddecay # Decay Sigma(1670)0 0.07 p+ K- PHSP; 0.07 n0 anti-K0 PHSP; 0.16 Lambda0 pi0 PHSP; 0.35 Sigma+ pi- PHSP; 0.35 Sigma- pi+ PHSP; Enddecay # Decay anti-Sigma(1670)0 0.07 anti-p- K+ PHSP; 0.07 anti-n0 K0 PHSP; 0.16 anti-Lambda0 pi0 PHSP; 0.35 anti-Sigma+ pi- PHSP; 0.35 anti-Sigma- pi+ PHSP; Enddecay # Decay Sigma(1775)0 0.215 p+ K- PHSP; 0.215 n0 anti-K0 PHSP; 0.20 Lambda0 pi0 PHSP; 0.02 Sigma+ pi- PHSP; 0.02 Sigma- pi+ PHSP; 0.055 Sigma*+ pi- PHSP; 0.055 Sigma*- pi+ PHSP; 0.22 Lambda(1520)0 pi0 PHSP; Enddecay # Decay anti-Sigma(1775)0 0.215 anti-p- K+ PHSP; 0.215 anti-n0 K0 PHSP; 0.20 anti-Lambda0 pi0 PHSP; 0.02 anti-Sigma+ pi- PHSP; 0.02 anti-Sigma- pi+ PHSP; 0.055 anti-Sigma*+ pi- PHSP; 0.055 anti-Sigma*- pi+ PHSP; 0.22 anti-Lambda(1520)0 pi0 PHSP; Enddecay Decay Sigma+ 0.5157 p+ pi0 PHSP; 0.4831 n0 pi+ PHSP; 0.0012 p+ gamma PHSP; Enddecay Decay anti-Sigma- 0.5157 anti-p- pi0 PHSP; 0.4831 anti-n0 pi- PHSP; 0.0012 anti-p- gamma PHSP; Enddecay # Decay Delta+ 0.6630 p+ pi0 PHSP; 0.3310 n0 pi+ PHSP; 0.0060 p+ gamma PHSP; Enddecay Decay anti-Delta- 0.6630 anti-p- pi0 PHSP; 0.3310 anti-n0 pi- PHSP; 0.0060 anti-p- gamma PHSP; Enddecay # Decay Delta++ 1.0000 p+ pi+ PHSP; Enddecay Decay anti-Delta-- 1.0000 anti-p- pi- PHSP; Enddecay # Decay Xi*0 0.3330 Xi0 pi0 PHSP; 0.6670 Xi- pi+ PHSP; Enddecay Decay anti-Xi*0 0.3330 anti-Xi0 pi0 PHSP; 0.6670 anti-Xi+ pi- PHSP; Enddecay # Decay Delta0 0.3310 p+ pi- PHSP; 0.6630 n0 pi0 PHSP; 0.0060 n0 gamma PHSP; Enddecay Decay anti-Delta0 0.3310 anti-p- pi+ PHSP; 0.6630 anti-n0 pi0 PHSP; 0.0060 anti-n0 gamma PHSP; Enddecay # Decay Delta- 1.0000 n0 pi- PHSP; Enddecay Decay anti-Delta+ 1.0000 anti-n0 pi+ PHSP; Enddecay # Decay Sigma- 1.0000 n0 pi- PHSP; Enddecay Decay anti-Sigma+ 1.0000 anti-n0 pi+ PHSP; Enddecay # Decay Sigma0 1.0000 gamma Lambda0 PHSP; Enddecay Decay anti-Sigma0 1.0000 gamma anti-Lambda0 PHSP; Enddecay # Decay Sigma*- 0.8800 Lambda0 pi- PHSP; 0.0600 Sigma0 pi- PHSP; 0.0600 Sigma- pi0 PHSP; Enddecay Decay anti-Sigma*+ 0.8800 anti-Lambda0 pi+ PHSP; 0.0600 anti-Sigma0 pi+ PHSP; 0.0600 anti-Sigma+ pi0 PHSP; Enddecay # Decay Sigma*+ 0.8800 Lambda0 pi+ PHSP; 0.0600 Sigma+ pi0 PHSP; 0.0600 Sigma0 pi+ PHSP; Enddecay Decay anti-Sigma*- 0.8800 anti-Lambda0 pi- PHSP; 0.0600 anti-Sigma- pi0 PHSP; 0.0600 anti-Sigma0 pi- PHSP; Enddecay # Decay Sigma*0 0.8800 Lambda0 pi0 PHSP; 0.0600 Sigma+ pi- PHSP; 0.0600 Sigma- pi+ PHSP; Enddecay Decay anti-Sigma*0 0.8800 anti-Lambda0 pi0 PHSP; 0.0600 anti-Sigma- pi+ PHSP; 0.0600 anti-Sigma+ pi- PHSP; Enddecay # Decay Xi0 1.0000 Lambda0 pi0 PHSP; Enddecay Decay anti-Xi0 1.0000 anti-Lambda0 pi0 PHSP; Enddecay # Decay Xi- 1.0000 Lambda0 pi- PHSP; Enddecay Decay anti-Xi+ 1.0000 anti-Lambda0 pi+ PHSP; Enddecay # Decay Xi*- 0.6670 Xi0 pi- PHSP; 0.3330 Xi- pi0 PHSP; Enddecay Decay anti-Xi*+ 0.6670 anti-Xi0 pi+ PHSP; 0.3330 anti-Xi+ pi0 PHSP; Enddecay # Decay Omega- 0.6780 Lambda0 K- PHSP; 0.2360 Xi0 pi- PHSP; 0.0860 Xi- pi0 PHSP; Enddecay Decay anti-Omega+ 0.6780 anti-Lambda0 K+ PHSP; 0.2360 anti-Xi0 pi+ PHSP; 0.0860 anti-Xi+ pi0 PHSP; Enddecay # # Decay Sigma_c*0 1.0000 Lambda_c+ pi- PHSP; Enddecay CDecay anti-Sigma_c*0 # Decay Sigma_c*+ 1.0000 Lambda_c+ pi0 PHSP; Enddecay CDecay anti-Sigma_c*- # Decay Sigma_c*++ 1.0000 Lambda_c+ pi+ PHSP; Enddecay CDecay anti-Sigma_c*-- # Decay Xi_c*0 0.5000 Xi_c0 pi0 PHSP; 0.5000 Xi_c0 gamma PHSP; Enddecay CDecay anti-Xi_c*0 # Decay Xi_c*+ 0.5000 Xi_c+ pi0 PHSP; 0.5000 Xi_c+ gamma PHSP; Enddecay CDecay anti-Xi_c*- # Decay Omega_c0 1.00000 JETSET 84; Enddecay # CDecay anti-Omega_c0 # Decay Omega_c*0 1.0000 Omega_c0 gamma PHSP; Enddecay # CDecay anti-Omega_c*0 # Decay Xu0 # X_u^0 -> u anti-u # 1.0 u anti-u JETSET 11; Enddecay Decay Xu+ # X_u^+ -> u anti-d # 1.0 u anti-d JETSET 11; Enddecay CDecay Xu- #lange - JETSET is making h_c mesons - better add a decay # channel for them. Decay h_c 1.0 J/psi pi0 PHSP; Enddecay # 12/08/03 RJT Update b-baryon decays... Decay Lambda_b0 # SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%) 0.05460 Lambda_c+ e- anti-nu_e PHSP; 0.01280 Lambda_c(2593)+ e- anti-nu_e PHSP; 0.00960 Lambda_c(2625)+ e- anti-nu_e PHSP; 0.00000 Sigma_c0 pi+ e- anti-nu_e PHSP; 0.00000 Sigma_c+ pi0 e- anti-nu_e PHSP; 0.00000 Sigma_c++ pi- e- anti-nu_e PHSP; 0.00000 Sigma_c*0 pi+ e- anti-nu_e PHSP; 0.00000 Sigma_c*+ pi0 e- anti-nu_e PHSP; 0.00000 Sigma_c*++ pi- e- anti-nu_e PHSP; # 0.05460 Lambda_c+ mu- anti-nu_mu PHSP; 0.01280 Lambda_c(2593)+ mu- anti-nu_mu PHSP; 0.00960 Lambda_c(2625)+ mu- anti-nu_mu PHSP; 0.00000 Sigma_c0 pi+ mu- anti-nu_mu PHSP; 0.00000 Sigma_c+ pi0 mu- anti-nu_mu PHSP; 0.00000 Sigma_c++ pi- mu- anti-nu_mu PHSP; 0.00000 Sigma_c*0 pi+ mu- anti-nu_mu PHSP; 0.00000 Sigma_c*+ pi0 mu- anti-nu_mu PHSP; 0.00000 Sigma_c*++ pi- mu- anti-nu_mu PHSP; # 0.01720 Lambda_c+ tau- anti-nu_tau PHSP; 0.00430 Lambda_c(2593)+ tau- anti-nu_tau PHSP; 0.00320 Lambda_c(2625)+ tau- anti-nu_tau PHSP; 0.00000 Sigma_c0 pi+ tau- anti-nu_tau PHSP; 0.00000 Sigma_c+ pi0 tau- anti-nu_tau PHSP; 0.00000 Sigma_c++ pi- tau- anti-nu_tau PHSP; 0.00000 Sigma_c*0 pi+ tau- anti-nu_tau PHSP; 0.00000 Sigma_c*+ pi0 tau- anti-nu_tau PHSP; 0.00000 Sigma_c*++ pi- tau- anti-nu_tau PHSP; # Hadronic Decays with Lambda_c+ 0.00600 Lambda_c+ pi- PHSP; 0.02200 Lambda_c+ pi- pi+ pi- PHSP; 0.00055 Lambda_c+ K- PHSP; 0.02200 Lambda_c+ D_s- PHSP; # 0.00047 Lambda0 J/psi PHSP; 0.00038 Lambda0 psi(2S) PHSP; 0.00080 n0 D0 PHSP; # # Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate 0.00060 Sigma_c+ pi- PHSP; 0.00060 Sigma_c0 pi0 PHSP; 0.00040 Sigma_c0 eta PHSP; 0.00050 Sigma_c0 eta' PHSP; 0.00030 Xi_c0 K0 PHSP; 0.00050 Xi'_c0 K0 PHSP; Enddecay Decay anti-Lambda_b0 # SemiLeptonic Decays (inclusive BR = 7.7 +/- 1.8%) 0.05460 anti-Lambda_c- e+ nu_e PHSP; 0.01280 anti-Lambda_c(2593)- e+ nu_e PHSP; 0.00960 anti-Lambda_c(2625)- e+ nu_e PHSP; 0.00000 anti-Sigma_c0 pi- e+ nu_e PHSP; 0.00000 anti-Sigma_c- pi0 e+ nu_e PHSP; 0.00000 anti-Sigma_c-- pi+ e+ nu_e PHSP; 0.00000 anti-Sigma_c*0 pi- e+ nu_e PHSP; 0.00000 anti-Sigma_c*- pi0 e+ nu_e PHSP; 0.00000 anti-Sigma_c*-- pi+ e+ nu_e PHSP; # 0.05460 anti-Lambda_c- mu+ nu_mu PHSP; 0.01280 anti-Lambda_c(2593)- mu+ nu_mu PHSP; 0.00960 anti-Lambda_c(2625)- mu+ nu_mu PHSP; 0.00000 anti-Sigma_c0 pi- mu+ nu_mu PHSP; 0.00000 anti-Sigma_c- pi0 mu+ nu_mu PHSP; 0.00000 anti-Sigma_c-- pi+ mu+ nu_mu PHSP; 0.00000 anti-Sigma_c*0 pi- mu+ nu_mu PHSP; 0.00000 anti-Sigma_c*- pi0 mu+ nu_mu PHSP; 0.00000 anti-Sigma_c*-- pi+ mu+ nu_mu PHSP; # 0.01720 anti-Lambda_c- tau+ nu_tau PHSP; 0.00430 anti-Lambda_c(2593)- tau+ nu_tau PHSP; 0.00320 anti-Lambda_c(2625)- tau+ nu_tau PHSP; 0.00000 anti-Sigma_c0 pi- tau+ nu_tau PHSP; 0.00000 anti-Sigma_c- pi0 tau+ nu_tau PHSP; 0.00000 anti-Sigma_c-- pi+ tau+ nu_tau PHSP; 0.00000 anti-Sigma_c*0 pi- tau+ nu_tau PHSP; 0.00000 anti-Sigma_c*- pi0 tau+ nu_tau PHSP; 0.00000 anti-Sigma_c*-- pi+ tau+ nu_tau PHSP; # Hadronic Decays with anti-Lambda_c- 0.00600 anti-Lambda_c- pi+ PHSP; 0.02200 anti-Lambda_c- pi+ pi+ pi- PHSP; 0.00055 anti-Lambda_c- K+ PHSP; 0.02200 anti-Lambda_c- D_s+ PHSP; # 0.00047 anti-Lambda0 J/psi PHSP; 0.00038 anti-Lambda0 psi(2S) PHSP; 0.00080 anti-n0 anti-D0 PHSP; # # Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate 0.00060 anti-Sigma_c- pi+ PHSP; 0.00060 anti-Sigma_c0 pi0 PHSP; 0.00040 anti-Sigma_c0 eta PHSP; 0.00050 anti-Sigma_c0 eta' PHSP; 0.00030 anti-Xi_c0 anti-K0 PHSP; 0.00050 anti-Xi'_c0 anti-K0 PHSP; Enddecay Decay Xi_b- # SemiLeptonic Decays 0.05460 Xi_c0 e- anti-nu_e PHSP; 0.05460 Xi_c0 mu- anti-nu_mu PHSP; 0.02000 Xi_c0 tau- anti-nu_tau PHSP; # Hadronic Decays with Xi_c0 0.00600 Xi_c0 pi- PHSP; 0.02200 Xi_c0 pi- pi+ pi- PHSP; 0.00055 Xi_c0 K- PHSP; 0.02200 Xi_c0 D_s- PHSP; 0.00047 Xi- J/psi PHSP; # added by D.Litvintsev 12/8/03: 0.00038 Xi- psi(2S) PHSP; 0.00018 D0 Lambda0 pi- PHSP; 0.00020 Sigma_c0 K- PHSP; 0.00020 Omega_c0 K- PHSP; # # Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate Enddecay Decay anti-Xi_b+ # SemiLeptonic Decays 0.05460 anti-Xi_c0 e+ nu_e PHSP; 0.05460 anti-Xi_c0 mu+ nu_mu PHSP; 0.02000 anti-Xi_c0 tau+ nu_tau PHSP; # Hadronic Decays with anti-Xi_c0 0.00600 anti-Xi_c0 pi+ PHSP; 0.02200 anti-Xi_c0 pi+ pi+ pi- PHSP; 0.00055 anti-Xi_c0 K+ PHSP; 0.02200 anti-Xi_c0 D_s+ PHSP; 0.00047 anti-Xi+ J/psi PHSP; # added by D.Litvintsev 12/8/03: 0.00038 anti-Xi+ psi(2S) PHSP; 0.00018 anti-D0 anti-Lambda0 pi+ PHSP; 0.00020 anti-Sigma_c0 K+ PHSP; 0.00020 anti-Omega_c0 K+ PHSP; Enddecay Decay Xi_b0 # SemiLeptonic Decays 0.05460 Xi_c+ e- anti-nu_e PHSP; 0.05460 Xi_c+ mu- anti-nu_mu PHSP; 0.02000 Xi_c+ tau- anti-nu_tau PHSP; # Hadronic Decays with Xi_c+ 0.00600 Xi_c+ pi- PHSP; 0.02200 Xi_c+ pi- pi+ pi- PHSP; 0.00055 Xi_c+ K- PHSP; 0.02200 Xi_c+ D_s- PHSP; 0.00047 Xi0 J/psi PHSP; # added by D.Litvintsev 12/8/03: 0.00020 D0 Lambda0 PHSP; 0.00010 Lambda_c+ K- PHSP; 0.00020 Sigma_c0 anti-K0 PHSP; 0.00020 Omega_c0 K0 PHSP; # # Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate 0.00020 Xi'_c+ pi- PHSP; 0.00003 Xi_c0 pi0 PHSP; 0.00015 Xi_c0 eta PHSP; 0.00004 Xi_c0 eta' PHSP; 0.00020 Xi'_c0 pi0 PHSP; 0.00020 Xi'_c0 eta PHSP; 0.00030 Xi'_c0 eta' PHSP; 0.00040 Sigma_c+ K- PHSP; Enddecay Decay anti-Xi_b0 0.05460 anti-Xi_c- e+ nu_e PHSP; 0.05460 anti-Xi_c- mu+ nu_mu PHSP; 0.02000 anti-Xi_c- tau+ nu_tau PHSP; # Hadronic Decays with anti-Xi_c- 0.00600 anti-Xi_c- pi+ PHSP; 0.02200 anti-Xi_c- pi+ pi+ pi- PHSP; 0.00055 anti-Xi_c- K+ PHSP; 0.02200 anti-Xi_c- D_s+ PHSP; 0.00047 anti-Xi0 J/psi PHSP; # added by D.Litvintsev 12/8/03: 0.00020 anti-D0 anti-Lambda0 PHSP; 0.00010 anti-Lambda_c- K+ PHSP; 0.00020 anti-Sigma_c0 K0 PHSP; 0.00020 anti-Omega_c0 anti-K0 PHSP; # # Additional decays from hep-ph/9709372 scaled to the Lambda_c0 pi rate 0.00020 anti-Xi'_c- pi+ PHSP; 0.00003 anti-Xi_c0 pi0 PHSP; 0.00015 anti-Xi_c0 eta PHSP; 0.00004 anti-Xi_c0 eta' PHSP; 0.00020 anti-Xi'_c0 pi0 PHSP; 0.00020 anti-Xi'_c0 eta PHSP; 0.00030 anti-Xi'_c0 eta' PHSP; 0.00040 anti-Sigma_c- K+ PHSP; Enddecay # added by D.Litvintsev 12/8/03: Decay Omega_b- # SemiLeptonic Decays 0.05460 Omega_c0 e- anti-nu_e PHSP; 0.05460 Omega_c0 mu- anti-nu_mu PHSP; 0.02000 Omega_c0 tau- anti-nu_tau PHSP; # Hadronic Decays with Xi_c+ 0.00600 Omega_c0 pi- PHSP; 0.02200 Omega_c0 pi- pi+ pi- PHSP; 0.00055 Omega_c0 K- PHSP; 0.02200 Omega_c0 D_s- PHSP; 0.0011 D0 Xi- PHSP; # 0.00047 Omega- J/psi PHSP; 0.00038 Omega- psi(2S) PHSP; Enddecay Decay anti-Omega_b+ # SemiLeptonic Decays 0.05460 anti-Omega_c0 e+ nu_e PHSP; 0.05460 anti-Omega_c0 mu+ nu_mu PHSP; 0.02000 anti-Omega_c0 tau+ nu_tau PHSP; # Hadronic Decays with Xi_c+ 0.00600 anti-Omega_c0 pi+ PHSP; 0.02200 anti-Omega_c0 pi+ pi+ pi- PHSP; 0.00055 anti-Omega_c0 K+ PHSP; 0.02200 anti-Omega_c0 D_s+ PHSP; 0.0011 anti-D0 anti-Xi+ PHSP; # 0.00047 anti-Omega+ J/psi PHSP; 0.00038 anti-Omega+ psi(2S) PHSP; Enddecay Decay Sigma_b+ 1.00000 Lambda_b0 pi+ PHSP; Enddecay Decay anti-Sigma_b- 1.00000 anti-Lambda_b0 pi- PHSP; Enddecay Decay Sigma_b- 1.00000 Lambda_b0 pi- PHSP; Enddecay Decay anti-Sigma_b+ 1.00000 anti-Lambda_b0 pi+ PHSP; Enddecay Decay Sigma_b0 1.00000 Lambda_b0 gamma PHOTOS PHSP; Enddecay Decay anti-Sigma_b0 1.00000 anti-Lambda_b0 gamma PHOTOS PHSP; Enddecay # # B_c Mesons # Decay B_c- 0.01600 tau- anti-nu_tau SLN; # # SemiLeptonic Decays 0.01900 J/psi e- anti-nu_e PHOTOS PHSP; 0.00094 psi(2S) e- anti-nu_e PHOTOS PHSP; 0.00750 eta_c e- anti-nu_e PHOTOS PHSP; 0.00020 eta_c(2S) e- anti-nu_e PHOTOS PHSP; 0.00004 anti-D0 e- anti-nu_e PHOTOS PHSP; 0.00018 anti-D*0 e- anti-nu_e PHOTOS PHSP; 0.04030 anti-B_s0 e- anti-nu_e PHOTOS PHSP; 0.05060 anti-B_s*0 e- anti-nu_e PHOTOS PHSP; 0.00340 anti-B0 e- anti-nu_e PHOTOS PHSP; 0.00580 anti-B*0 e- anti-nu_e PHOTOS PHSP; # 0.01900 J/psi mu- anti-nu_mu PHOTOS PHSP; 0.00094 psi(2S) mu- anti-nu_mu PHOTOS PHSP; 0.00750 eta_c mu- anti-nu_mu PHOTOS PHSP; 0.00020 eta_c(2S) mu- anti-nu_mu PHOTOS PHSP; 0.00004 anti-D0 mu- anti-nu_mu PHOTOS PHSP; 0.00018 anti-D*0 mu- anti-nu_mu PHOTOS PHSP; 0.04030 anti-B_s0 mu- anti-nu_mu PHOTOS PHSP; 0.05060 anti-B_s*0 mu- anti-nu_mu PHOTOS PHSP; 0.00340 anti-B0 mu- anti-nu_mu PHOTOS PHSP; 0.00580 anti-B*0 mu- anti-nu_mu PHOTOS PHSP; # 0.00480 J/psi tau- anti-nu_tau PHSP; 0.00008 psi(2S) tau- anti-nu_tau PHSP; 0.00230 eta_c tau- anti-nu_tau PHSP; 0.000016 eta_c(2S) tau- anti-nu_tau PHSP; 0.00002 anti-D0 tau- anti-nu_tau PHSP; 0.00008 anti-D*0 tau- anti-nu_tau PHSP; # # # Hadronic Decays 0.00200 eta_c pi- PHSP; 0.00420 rho- eta_c SVS; 0.00013 eta_c K- PHSP; 0.00020 K*- eta_c SVS; 0.00130 J/psi pi- SVS; 0.00400 J/psi rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00011 J/psi K- SVS; 0.00022 J/psi K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.000053 D- D0 PHSP; 0.000075 D*0 D- SVS; 0.000049 D*- D0 SVS; 0.00033 D*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000048 D_s- D0 PHSP; 0.0000071 D*0 D_s- SVS; 0.0000045 D_s*- D0 SVS; 0.000026 D_s*- D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.0000003 D- anti-D0 PHSP; 0.0000003 anti-D*0 D- SVS; 0.0000004 D*- anti-D0 SVS; 0.0000016 anti-D*0 D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000066 D_s- anti-D0 PHSP; 0.0000063 anti-D*0 D_s- SVS; 0.0000085 D_s*- anti-D0 SVS; 0.0000404 D_s*- anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.00280 eta_c D_s- PHSP; 0.00270 D_s*- eta_c SVS; 0.00015 eta_c D- PHSP; 0.00010 D*- eta_c SVS; 0.00170 J/psi D_s- SVS; 0.00670 J/psi D_s*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00009 J/psi D- SVS; 0.00028 J/psi D*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.16400 anti-B_s0 pi- PHSP; 0.07200 rho- anti-B_s0 SVS; 0.01060 anti-B_s0 K- PHSP; 0.00000 K*- anti-B_s0 SVS; 0.06500 anti-B_s*0 pi- SVS; 0.20200 anti-B_s*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00370 anti-B_s*0 K- SVS; 0.00000 anti-B_s*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.01060 anti-B0 pi- PHSP; 0.00960 rho- anti-B0 SVS; 0.00070 anti-B0 K- PHSP; 0.00015 K*- anti-B0 SVS; 0.00950 anti-B*0 pi- SVS; 0.02570 anti-B*0 rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00055 anti-B*0 K- SVS; 0.00058 anti-B*0 K*- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00037 B- pi0 PHSP; 0.00034 rho0 B- SVS; 0.01980 B- K0 PHSP; 0.00430 K*0 B- SVS; 0.00033 B*- pi0 SVS; 0.00090 B*- rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.01600 B*- K0 SVS; 0.01670 B*- K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # ash 10/27/03 Do not if this is correct but filling out with unknown cs #0.0200235 cs_0 anti-uu_0 JETSET 23; #0.0400470 cs_1 anti-uu_1 JETSET 23; # Enddecay # 09/15/03 A. Sanchez: Using BR's from hep-ph/0308214 # # Total Br = 0.939865 + .06135 cs Decay B_c+ 0.01600 tau+ nu_tau SLN; # # SemiLeptonic Decays 0.01900 J/psi e+ nu_e PHOTOS PHSP; 0.00094 psi(2S) e+ nu_e PHOTOS PHSP; 0.00750 eta_c e+ nu_e PHOTOS PHSP; 0.00020 eta_c(2S) e+ nu_e PHOTOS PHSP; 0.00004 D0 e+ nu_e PHOTOS PHSP; 0.00018 D*0 e+ nu_e PHOTOS PHSP; 0.04030 B_s0 e+ nu_e PHOTOS PHSP; 0.05060 B_s*0 e+ nu_e PHOTOS PHSP; 0.00340 B0 e+ nu_e PHOTOS PHSP; 0.00580 B*0 e+ nu_e PHOTOS PHSP; # 0.01900 J/psi mu+ nu_mu PHOTOS PHSP; 0.00094 psi(2S) mu+ nu_mu PHOTOS PHSP; 0.00750 eta_c mu+ nu_mu PHOTOS PHSP; 0.00020 eta_c(2S) mu+ nu_mu PHOTOS PHSP; 0.00004 D0 mu+ nu_mu PHOTOS PHSP; 0.00018 D*0 mu+ nu_mu PHOTOS PHSP; 0.04030 B_s0 mu+ nu_mu PHOTOS PHSP; 0.05060 B_s*0 mu+ nu_mu PHOTOS PHSP; 0.00340 B0 mu+ nu_mu PHOTOS PHSP; 0.00580 B*0 mu+ nu_mu PHOTOS PHSP; # 0.00480 J/psi tau+ nu_tau PHSP; 0.00008 psi(2S) tau+ nu_tau PHSP; 0.00230 eta_c tau+ nu_tau PHSP; 0.000016 eta_c(2S) tau+ nu_tau PHSP; 0.00002 D0 tau+ nu_tau PHSP; 0.00008 D*0 tau+ nu_tau PHSP; # # Hadronic Decays 0.00200 eta_c pi+ PHSP; 0.00420 rho+ eta_c SVS; 0.00013 eta_c K+ PHSP; 0.00020 K*+ eta_c SVS; 0.00130 J/psi pi+ SVS; 0.00400 J/psi rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00011 J/psi K+ SVS; 0.00022 J/psi K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.000053 D+ anti-D0 PHSP; 0.000075 anti-D*0 D+ SVS; 0.000049 D*+ anti-D0 SVS; 0.00033 D*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000048 D_s+ anti-D0 PHSP; 0.0000071 anti-D*0 D_s+ SVS; 0.0000045 D_s*+ anti-D0 SVS; 0.000026 D_s*+ anti-D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.0000003 D+ D0 PHSP; 0.0000003 D*0 D+ SVS; 0.0000004 D*+ D0 SVS; 0.0000016 D*0 D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000066 D_s+ D0 PHSP; 0.0000063 D*0 D_s+ SVS; 0.0000085 D_s*+ D0 SVS; 0.0000404 D_s*+ D*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.00280 eta_c D_s+ PHSP; 0.00270 D_s*+ eta_c SVS; 0.00015 eta_c D+ PHSP; 0.00010 D*+ eta_c SVS; 0.00170 J/psi D_s+ SVS; 0.00670 J/psi D_s*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00009 J/psi D+ SVS; 0.00028 J/psi D*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # 0.16400 B_s0 pi+ PHSP; 0.07200 rho+ B_s0 SVS; 0.01060 B_s0 K+ PHSP; 0.00000 K*+ B_s0 SVS; 0.06500 B_s*0 pi+ SVS; 0.20200 B_s*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00370 B_s*0 K+ SVS; 0.00000 B_s*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.01060 B0 pi+ PHSP; 0.00960 rho+ B0 SVS; 0.00070 B0 K+ PHSP; 0.00015 K*+ B0 SVS; 0.00950 B*0 pi+ SVS; 0.02570 B*0 rho+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00055 B*0 K+ SVS; 0.00058 B*0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.00037 B+ pi0 PHSP; 0.00034 rho0 B+ SVS; 0.01980 B+ anti-K0 PHSP; 0.00430 K*0 B+ SVS; 0.00033 B*+ pi0 SVS; 0.00090 B*+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.01600 B*+ anti-K0 SVS; 0.01670 B*+ K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; # # ash 10/27/03 Do not if this is correct but filling out with unknown cs #0.0200235 anti-cs_0 uu_0 JETSET 23; #0.0400470 anti-cs_1 uu_1 JETSET 23; # Enddecay # Add excited Lambda_c decays (R.J. Tesarek 12/9/03) # Just a guess for the last two BR [Lambda_c(2593)+]. Decay Lambda_c(2593)+ 0.24000 Sigma_c++ pi- PHSP; 0.24000 Sigma_c0 pi+ PHSP; 0.18000 Lambda_c+ pi+ pi- PHSP; 0.33000 Lambda_c+ pi0 PHSP; 0.01000 Lambda_c+ gamma PHSP; Enddecay Decay anti-Lambda_c(2593)- 0.24000 anti-Sigma_c-- pi+ PHSP; 0.24000 anti-Sigma_c0 pi- PHSP; 0.18000 anti-Lambda_c- pi- pi+ PHSP; 0.33000 anti-Lambda_c- pi0 PHSP; 0.01000 anti-Lambda_c- gamma PHSP; Enddecay # Decay Lambda_c(2625)+ 0.66000 Lambda_c+ pi+ pi- PHSP; 0.33000 Lambda_c+ pi0 PHSP; 0.01000 Lambda_c+ gamma PHSP; Enddecay Decay anti-Lambda_c(2625)- 0.66000 anti-Lambda_c- pi- pi+ PHSP; 0.33000 anti-Lambda_c- pi0 PHSP; 0.01000 anti-Lambda_c- gamma PHSP; Enddecay End