Non-leptonic two-body decays of b0 in light-front quark model

Abstract

We study the non-leptonic two-body weak decays of b0 p M with M=(π-,K-) and (-,K*-) in the light-front quark model under the generalized factorization ansatz. By considering the Fermi statistic between quarks and determining spin-flavor structures in baryons, we calculate the branching ratios ( Bs) and CP-violating rate asymmetries (ACPs) in the decays. Explicitly, we find that B( b0 p π- ,pK-)=(4.180.150.30, 5.760.880.23)×10-6 and ACP( b0 p π- ,\,pK-)=(-3.600.140.14, 6.360.210.18)\% in comparison with the data of B( b0 p π- ,pK-)=(4.50.8, 5.41.0)×10-6 and ACP( b0 p π- ,pK-)=(-2.5 2.9, -2.52.2)\% given by the Particle Data Group, respectively. We also predict that B( b0 p -,pK*- )=(12.133.270.91, 2.580.870.13)× 10-6 and ACP( b0 p -,pK*- )=(-3.320.000.14,19.250.000.80)\%, which could be observed by the experiments at LHCb.