Covariant Light-Front Approach for Bc transition form factors

Abstract

In the covariant light-front quark model, we investigate the form factors of Bc decays into D, D*, Ds, Ds*, ηc, J/, B, B*, Bs, Bs* mesons. The form factors in the spacelike region q2<0 are directly evaluated. To extrapolate the form factors to the full kinematic region, we fit the form factors by adopting a three-parameter form from the spacelike region. b u,d,s transition form factors at maximally recoiling point (q2=0) are smaller than b c and c d,s transition form factors, while the b d,s,c form factors at zero recoiling point are close to each other. In the fitting procedure, we find the parameters for the form factors A2(Bc B*) and A2(Bc B*s) strongly depend on the decay constants of B* and Bs* mesons. Fortunately, the semileptonic and nonleptonic Bc decays are not sensitive to these form factors. With the form factors, we also investigate the branching fractions, polarizations of the semileptonic Bc Ml decays. Semileptonic Bc (ηc,J/)l and Bc (Bs,Bs*)l decays have much larger branching fractions than Bc (D,D*,B,B*)l. In the three kinds of Bc Vl decays, contributions from the longitudinal polarized vector is comparable with those from the transversely polarized vector. These predictions will be tested at the ongoing and forthcoming hadron colliders.