S-wave resonance contributions to the B0(s) ηc(2S)π+π- in the perturbative QCD factorization approach

Abstract

By employing the perturbative QCD (PQCD) factorization approach, we study the quasi-two-body B0(s) ηc(2S)π+π- decays, where the pion pair comes from the S-wave resonance f0(X). The Breit-Wigner formula for the f0(500) and f0(1500) resonances, and the Flatt\'e model for the f0(980) resonance are adopted to parameterize the time-like scalar form factors in the two-pion distribution amplitudes. As a comparison, Bugg's model is also used for the wide f0(500) in this work. For decay rates, we found the following PQCD predictions: (a) B(B0s ηc(2S) f0(X)[π+π-]s )= ( 2.67+1.78-1.08 )× 10-5 when the contributions from f0(980) and f0(1500) are all taken into account; (b) B(B0 ηc(2S) f0(500)[π+π-]s)= ( 1.40 +0.92-0.56 ) × 10-6 in the Breit-Wigner model and ( 1.53 +0.97-0.61 ) × 10-6 in the Bugg's model.