Study of Nonleptonic B(s) M1 M2 (M=D, Ds, π, K) Weak Decays with Factorization Approach

Abstract

Motivated by the experiments of heavy flavor physics at running LHC and upgrading SuperKEKB/Belle-II in the future, the nonleptonic B(s) M1 M2 (M=D, Ds, π, K) weak decays are studied in this paper. The amplitudes are calculated with factorization approach, and the transition form factors A0B(s) M1(0) are evaluated within BSW model. With the reasonable approximation tot(B*(s)) (B*(s) B(s)γ), our predictions of branching fractions are presented. Numerically, the CKM-favored tree-dominated B*0 D+D-s and B*0s D+sD-s decays have the largest branching fractions of the order O(10-8), and hence will be firstly observed by forthcoming Belle-II experiment. However, most of the other decay modes have the branching fractions~< O(10-9) and thus are hardly to be observed soon. Besides, for the possible detectable B(s) decays with branching fractions O(10-9), some useful ratios, such as RD et al., are presented and discussed in detail.