S, P and D-wave resonance contributions to B(s) ηc(1S,2S) Kπ decays in the perturbative QCD approach

Abstract

In this work, we analyze the three-body B(s) ηc(1S,2S) K π decays within the framework of the perturbative QCD approach (PQCD) under the quasi-two-body approximation, where the kaon-pion invariant mass spectra are dominated by the K0*(1430)0,K0*(1950)0,K*(892)0,K*(1410)0,K*(1680)0 and K2*(1430)0 resonances. The time-like form factors are adopted to parametrize the corresponding S, P, D-wave kaon-pion distribution amplitudes for the concerned decay modes, which describe the final-state interactions between the kaon and pion in the resonant region. The Kπ S-wave component at low Kπ mass is described by the LASS line shape, while the time-like form factors of other resonances are modeled by the relativistic Breit-Wigner function. We find the following main points: (a) the PQCD predictions of the branching ratios for most considered B ηc(1S)(K*0 )K+π- decays agree well with the currently available data within errors; (b) for B(B0 ηc (K0*(1430) )K+π-) and B(B0 ηc K+π-( NR)) (here NR means nonresonant), our predictions of the branching ratios are a bit smaller than the measured ones; and (c) the PQCD results for the D-wave contributions considered in this work can be tested once the precise data from the future LHCb and Belle-II experiments are available.