Precision calculations of the D(s)D(s)V and B(s)B(s)V couplings from light-cone sum rules

Abstract

We present an improved calculation of the HHV (H=D(s),\, B(s), V= , K, ω, and φ) coupling constants gHHV beyond leading order in αs from QCD light-cone sum rules (LCSRs) by means of the light-cone distribution amplitudes (LCDAs) of light vector mesons. Near the light-cone, the next-to-leading order QCD corrections for the vacuum-to-vector-meson correlation function are included at leading power in δV = mV/mQ (Q=b,c) within the framework of hard-collinear factorization. The higher-twist corrections from two-particle and three-particle vector meson LCDAs are systematically incorporated at leading order in αs by applying the method of background field in LCSRs. Based on these improvements, we perform a systematic computation of the strong coupling constants gH HV and extract the effective coupling β of the heavy meson chiral perturbation theory (HM). Furthermore, we accomplish the analysis for the relation between the coupling gHHV and the residue of the H V transition form factor A0 at heavy pseudoscalar pole. Additionally, we provide a detailed investigation of the SU(3) flavour symmetry breaking effects and conduct a comparative analysis with results from previous studies.