Exclusive Bs decays to the charmed mesons Ds+(1968,2317) in the standard model

Abstract

The transition form factors of Bs0 Ds+(2317) and Bs0 Ds+(1968) at large recoil region are investigated in the light cone sum rules approach, where the heavy quark effective theory is adopted to describe the form factors at small recoil region. With the form factors obtained, we carry out a detailed analysis on both the semileptonic decays Bs0 Ds+(1968,2317) l l and nonleptonic decays Bs Ds+(1968,2317) M with M being a light meson or a charmed meson under the factorization approach. Our results show that the branching fraction of Bs0 Ds+(2317) μ μ is around 2.3 × 10-3, which should be detectable with ease at the Tevatron and LHC. It is also found that the branching fractions of Bs0 Ds+(1968) l l are almost one order larger than those of the corresponding Bs0 Ds+(2317) l l decays. The consistency of predictions for Bs Ds+(1968,2317) L (L denotes a light meson) in the factorization assumption and kT factorization also supports the success of color transparency mechanism in the color allowed decay modes. Most two-charmed meson decays of Bs meson possess quite large branching ratios that are accessible in the experiments. These channels are of great importance to explore the hadronic structure of charmed mesons as well as the nonperturbative dynamics of QCD.