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Study of $B_{c} \rightarrow ψ(2S) K$, $η_{c}(2S)K$, $ψ(3770)K$ decays with perturbative QCD approach

arXiv:1712.02955 · doi:10.1103/PhysRevD.97.096008

Abstract

We study the $B_{c}$$\rightarrow$$ψ(2S)$K, $η_{c}(2S)$K, $ψ(3770)$K decays with perturbative QCD approach (pQCD) based on $k_T$ factorization. The new orbitally excited charmonium distribution amplitudes $ψ(1^{3}D_{1})$ based on the Schrödinger wave function of the $n=1$, $l=2$ state for the harmonic-oscillator potential are employed. By using the corresponding distribution amplitudes, we calculate the branching ratio of $B_{c}$$\rightarrow$$ψ(2S)$K, $η_{c}(2S)$K, $ψ(3770)$K decays and the form factors $A_{0,1,2}$ and $V$ for the transition $B_{c}$$\rightarrow$$ψ(1^{3}D_{1})$. We obtain the branching ratio of both $B_{c}$$\rightarrow$$ψ(2S)$K and $B_{c}$$\rightarrow$$η_{c}(2S)$K are at the order of $10^{-5}$. The effects of two sets of the S-D mixing angle $θ=-12^{\circ}$ and $θ=27^{\circ}$ for the decay $B_{c}$$\rightarrow$$ψ(3770)$K are studied firstly in this paper. Our calculations show that the branching ratio of the decay $B_{c}$$\rightarrow$$ψ(3770)$K can be raised from the order of $10^{-6}$ to the order of $10^{-5}$ at the mixing angle $θ=-12^{\circ}$, which can be tested by the running LHC-b experiments.

12pages, 2 figures