The S-wave resonance contributions to the three-body decays B0(s) ηc f0(X) ηcπ+π- in perturbative QCD approach

Abstract

In this paper, we study the three-body decays B0/B0s ηc f0(X) ηc π+π- by employing the perturbative QCD (PQCD) factorization approach. We evaluate the S-wave resonance contributions by using the two-pion distribution amplitude ππ S. The Breit-Wigner formula for the f0(500), f0(1500), and f0(1790) resonances and the Flatt\'e model for the f0(980) resonance are adopted to parameterize the time-like scalar form factors Fs(ω2). We also use the D.~V.~Bugg model to parameterize the f0(500) and compare the relevant theoretical predictions from different models. We found the following results: (a) the PQCD predictions for the branching ratios are B(B0 ηc f0(500)[π+π-])= ( 1.53 +0.76-0.35 ) × 10-6 for Breit-Wigner model and B(B0 ηc f0(500)[π+π-])= ( 2.31 +0.96-0.48 ) × 10-6 for D.~V.~Bugg model; (b) B(Bs ηc f0(X)[π+π-] ) = ( 5.02+1.49-1.08 )× 10-5 when the contributions from f0(X)=(f0(980),f0(1500),f0(1790)) are all taken into account; and (c) The considered decays could be measured at the ongoing LHCb experiment, consequently, the formalism of two-hadron distribution amplitudes could also be tested by such experiments.