An improved perturbative QCD study of the decays $B_c^+ \to η_c L^+$
Abstract: We perform an improved perturbative QCD study of the decays $B_c+ \to \eta_c L+$ ($L$ denotes the light ground state pseudoscalar, vector mesons and the corresponding $p$-wave scalar, axial-vector, and tensor ones) and predict their branching ratios (BRs) associated with relative ratios at leading order in the strong coupling $\alpha_s$. Our results ${\rm BR}(B_c+ \to \eta_c \pi+) =(2.03{+0.53}_{-0.41}) \times 10{-3}$ and ${\rm BR}(B_c+ \to \eta_c \pi+)/{\rm BR}(B_c+ \to J/\psi \pi+) = 1.74{+0.66}_{-0.50}$ are consistent with several available predictions in different approaches within uncertainties. Inputting the measured $\eta_c \to p\bar p$ and $\eta_c \to \pi+\pi- (\pi+\pi-, K+ K-, p\bar p)$ BRs with $p$ here being a proton, we derive the multibody $B_c+ \to \eta_c (\pi, \rho)+$ BRs through secondary decay chains via resonance $\eta_c$ under the narrow-width approximation, which might facilitate the (near) future tests of $B_c \to \eta_c$ decays. Under the $q\bar q$ assignment of light scalars, different to $B_c$ decaying into $J/\psi$ plus a scalar meson and other $B_c+ \to \eta_c L+$ modes, surprisingly small BRs around ${\cal O}(10{-7}-10{-9})$ of $\Delta S =0$ modes and highly large ratios near ${\cal O}(10{2})$ between the BRs of $\Delta S=1$ and $\Delta S=0$ modes are found in the $B_c$ decays to $\eta_c$ plus light scalars. Many large BRs and interesting ratios presented in this work could be tested at the LHC experiments, which would help us to examine the reliability of this improved perturbative QCD formalism for $B_c$-meson decays and further understand the QCD dynamics in the considered decay modes, as well as in the related hadrons.
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