#################################################### # # # Decay: B -> all non-charm final states # # # # Author: J. Smith # # Created: September 27, 2000 # # Modified: September 21, 2001 # # # ##################################################### # # # Decay Upsilon(4S) 0.500 B+ B- VSS; 0.500 B0 anti-B0 VSS; Enddecay #Define the B0B0bar mass difference Define dm 0.472e12 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 # 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 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*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*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!) # Number of flavor produced. 4 = udsc production (was 5 before) 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 # 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 # Decay B0 # # 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+ 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; 0.000616 Xu- e+ nu_e PHOTOS VUB 4.8 1.29 0.22 13 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 1.897 0.978 1.949 0.984 2 1; 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; 0.000616 Xu- mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 13 1.264 0.354 1.341 0.639 1.414 0.758 1.483 0.822 1.549 0.881 1.612 0.949 1.673 0.953 1.732 0.947 1.788 0.968 1.843 0.967 1.897 0.978 1.949 0.984 2 1; # 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; # # 0.000045 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; 0.000284 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; 0.00000057 K0 mu+ mu- PHOTOS BTOSLLBALL; 0.0000019 K*0 mu+ mu- PHOTOS BTOSLLBALL; 0.000004 Xsd mu+ mu- PHOTOS BTOXSLL; 0.00000013 K0 tau+ tau- PHOTOS BTOSLLBALL; 0.00000019 K*0 tau+ tau- PHOTOS BTOSLLBALL; 0.0000002 Xsd tau+ tau- PHOTOS BTOXSLL; # # B0 -> CP eigenstates (some exclusive b -> u) sum=0.00036 # (pi0pi0 -> 2x10^-6, Jim Olsen - Mar 27, 2001) # 0.000004 pi+ pi- SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000002 pi0 pi0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 pi0 eta SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 pi0 eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 pi0 a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 pi0 f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 omega pi0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 a_10 pi0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 b_10 pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 eta eta SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 eta eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 eta a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 eta f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 omega eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 rho0 eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 a_10 eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 b_10 eta SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 eta' eta' SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 eta' a_00 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 eta' f_0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 omega eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 rho0 eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 a_10 eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 b_10 eta' SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 a_00 a_00 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 a_00 f_0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 omega a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 rho0 a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 a_10 a_00 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 b_10 a_00 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 f_0 f_0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 omega f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 rho0 f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 a_10 f_0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 b_10 f_0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000030 pi- pi+ pi0 BTO3PI_CP dm alpha; # Don't use this since other Kpipi states not done #0.00000108 K+ pi- pi0 BTOKPIPI_CP dm alpha beta; # 0.000005 phi K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000025 phi K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; 0.0000025 phi K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000005 phi K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000005 phi K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 phi rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 phi eta SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 phi eta' SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 phi phi SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 phi omega SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 phi pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 eta K_S0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 eta K_L0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.0000445 eta' K_S0 SSS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.0000445 eta' K_L0 SSS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.0000025 omega K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.0000025 omega K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.0000035 K*S eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.0000035 K*L eta SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.0000070 K*0T eta SVS; 0.000001 K*S eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 K*L eta' SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000002 K*0T eta' SVS; 0.000001 K*S omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 K*L omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000002 K*0T omega SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 omega omega SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 omega rho0 SVV_CP alpha dm -1 1.0 0.0 1.0 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) 0.000017 K+ pi- PHSP; 0.000003 K+ K- PHSP; 0.000004 K_S0 K_S0 PHSP; 0.000008 K_S0 K_L0 PHSP; 0.000004 K_L0 K_L0 PHSP; 0.000004 K_S0 pi0 PHSP; 0.000004 K_L0 pi0 PHSP; #3,4-body modes from Jim Smith 0.000001 rho0 K*0T SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 rho0 K*S SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 rho0 K*L SVV_CP alpha dm -1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000005 rho- K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000002 rho0 rho0 SVV_CP alpha dm 1 1.0 0.0 1.0 0.0 1.0 0.0; 0.000030 rho+ rho- SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 K*0 anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000010 a_1+ pi- SVS; 0.000010 a_1- pi+ SVS; # 0.000002 K*0 pi0 SVS; 0.000005 K*+ pi- SVS; 0.000001 rho- K+ SVS; 0.000001 rho0 K_S0 SVS_CP alpha dm 1 1.0 0.0 1.0 0.0; 0.000001 rho0 K_L0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000001 K*0 K_S0 SVS; 0.000001 K*0 K_L0 SVS; # Put in with 0 BR to keep JETSET from generating these (see BTO3PI_CP above) 0.000000 rho0 pi0 SVS_CP alpha dm -1 1.0 0.0 1.0 0.0; 0.000000 rho+ pi- PHSP; 0.000000 rho- pi+ PHSP; # 0.00600 u anti-d anti-u d JETSET 48; #Penguins from Aaron Roodman 0.00410 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 -> 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; 0.000616 Xu0 e+ nu_e PHOTOS VUB 4.8 1.29 0.22 13 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 1.897 0.989 1.949 0.99 2 1; # 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; 0.000616 Xu0 mu+ nu_mu PHOTOS VUB 4.8 1.29 0.22 13 1.264 0.3 1.341 0.43 1.414 0.242 1.483 0.693 1.549 0.812 1.612 0.9 1.673 0.939 1.732 0.947 1.788 0.96 1.843 0.982 1.897 0.989 1.949 0.99 2 1; # 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; # # 0.000045 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; 0.000284 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; 0.00000057 K+ mu+ mu- PHOTOS BTOSLLBALL; 0.0000019 K*+ mu+ mu- PHOTOS BTOSLLBALL; 0.000004 Xsu mu+ mu- PHOTOS BTOXSLL; 0.00000013 K+ tau+ tau- PHOTOS BTOSLLBALL; 0.00000019 K*+ tau+ tau- PHOTOS BTOSLLBALL; 0.0000002 Xsu tau+ tau- PHOTOS BTOXSLL; # # 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; 0.000002 eta K+ PHSP; 0.0000264 K*+ eta SVS; 0.000005 rho+ eta SVS; 0.000002 eta' pi+ PHSP; 0.000080 eta' K+ PHSP; 0.000005 K*+ eta' SVS; 0.000005 rho+ eta' SVS; 0.0000113 omega pi+ SVS; 0.000005 omega K+ SVS; 0.000005 omega K*+ PHSP; 0.000015 omega rho+ PHSP; 0.000001 phi pi+ SVS; 0.000010 phi K+ SVS; 0.000010 K*+ phi PHSP; 0.000001 phi rho+ PHSP; #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) 0.000009 K_S0 pi+ PHSP; 0.000009 K_L0 pi+ PHSP; 0.000001 K_S0 K+ PHSP; 0.000001 K_L0 K+ PHSP; 0.000005 pi+ pi0 PHSP; 0.000011 K+ pi0 PHSP; #3,4-body modes from Jim Smith 0.000010 rho+ K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000005 rho0 K*+ SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000010 rho+ rho0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000001 K*+ anti-K*0 SVV_HELAMP 1.0 0.0 1.0 0.0 1.0 0.0; 0.000010 a_10 pi+ SVS; 0.000010 a_1+ pi0 SVS; 0.000005 K*0 pi+ SVS; 0.000005 K*+ pi0 SVS; 0.000001 rho0 K+ SVS; 0.000001 rho+ K_S0 SVS; 0.000001 rho+ K_L0 SVS; 0.000001 anti-K*0 K+ SVS; 0.000001 K*+ K_S0 SVS; 0.000001 K*+ K_L0 SVS; # Put in with 0 BR to keep JETSET from generating these (see CB3PI above) 0.000000 rho+ pi0 SVS; 0.000000 rho0 pi+ SVS; # 0.00600 u anti-d anti-u u JETSET 48; #Penguins from Aaron Roodman 0.00410 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 # End