Quasi-two-body decays Bc D*h Dπ h in the perturbative QCD

Abstract

In this work, we investigate the quasi-two-body decays Bc D*h Dπ h with h = (K0,π0,η,η) using the perturbative QCD(PQCD) approach. The description of final state interactions between the Dπ pair is achieved through the two-meson distribution amplitudes(DAs), which are normalized to the time-like form factor. The PQCD predictions on the branching ratios of the quasi-two-body decays Bc D*h Dπ h show an obvious hierarchy: Br(Bc+ D*+ K0 D0π+K0)=(5.22-0.74+0.86)×10-6, Br(Bc+ D*+ π0 D0π+π0)=(0.930.26)×10-7, Br(Bc+ D*+ η D0π+η) =(2.83-0.52+0.59)×10-8 and Br(Bc+ D*+ η D0π+η)=(1.89-0.36+0.40)×10-8. From the invariant mass mDπ-dependence of the decay spectrum for each channel, one can find that the branching fraction is concentrated in a narrow region around the D* pole mass. So one can obtain the branching ratios for the corresponding two-body decays Bc D*+h under the narrow width approximation. We find that the branching ratios of the decays Bc D*+h are consistent well with the previous PQCD calculations within errors. These predictions will be tested by the future experiments.