The nonleptonic decays of b-flavored mesons to S-wave charmonium and charm meson states

Abstract

The detection of radially excited heavy meson \ in recent years and measurement of heavy meson decays, particularly Bc+ J/ Ds+ and Bc+ J/ Ds*+, by the LHCb and ATLAS Collaborations, have aroused a lot of theoretical interest in the nonleptonic decays of b-flavored mesons. In this paper, we study the exclusive two-body nonleptonic B0, Bs0, B- and Bc--meson decays to two vector meson (V1(nS)V2) states. Assuming the factorization hypothesis, we calculate the weak-decay form factors from the overlapping integrals of meson wave functions, in the framework of the relativistic independent quark (RIQ) model. We find a few dominant decay modes: B- D*0-, B0 D*+-, Bs0 Ds*+-, B- J/ K*- and Bc- J/ Ds*- with predicted branching fractions of 1.54, 1.42, 1.17, 0.53 and 0.52 (in \%), which are experimentally accessible. The predicted branching fractions for corresponding decay modes to excited (2S) states, obtained in the order O (10-3-10-4) lie within the detection accuracy of the current experiments at LHCb and Tevatron. The sizeable CP-odd fractions predicted for Bc--meson decay to two charmful states: D*0D*-(s) and D*0D*-(s) indicate significant CP-violation hinting at the so-called new physics beyond the standard model.