CP violation in non-leptonic Bc decays to excited final states

Abstract

We study the CP violation in two-body nonleptonic decays of Bc meson. We concentrate on the decay channels which contain at least one excited heavy meson in the final states. Specifically, the following channels are considered: Bc c c(2S, 2P)+ cq(1S, 1P), Bc c c(1S)+ cq(2S, 2P), Bc c c(1P)+ cq(2S), Bc c c(1D)+ cq(1S, 1P), and Bc c c(3S)+ cq(1S). The improved Bethe-Salpeter method is applied to calculate the hadronic transition matrix element. Our results show that some decay modes have large branching ratios, which is of the order of 10-3. The CP violation effect in Bc → ηc(1S)+D(2S), Bc → ηc(1S)+D0*(2P), and Bc → J/+D*(2S) are most likely to be found. If the detection precision of the CP asymmetry in such channels can reach the 3σ level, at least 107 Bc events are needed.