Systematic analysis of the transition form factors of Bc to D-wave charmonia and corresponding semileptonic decays

Abstract

In this article, the vector, axial vector and tensor form factors of Bc to D-wave charmonia ψJ (J=1,2,3) and ηc2 are analyzed within the framework of three-point QCD sum rules. With the estimated vector and axial vector form factors, we study the decay widths and branching ratios of semileptonic decays BcψJlνl and Bcηc2lνl. Our results indicate that the semileptonic decay branching ratios of Bc to D-wave charmonia decreases as the total angler momentum of the final state D-wave charmonia increases. For decay processes Bc ψ1lνl, Bc ψ2[ηc2]lνl and Bc ψ3lνl, the branching ratios can reach the order 10-3, 10-4 and 10-5, respectively, which can provide a valuable reference for future experimental measurements for Bc meson by LHCb collaboration. Furthermore, these results also can provide useful information to study the properties of Bc meson and D-wave charmonia.

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