Study of the Bs φf0(980) φ\,π+π- decay with perturbative QCD approach

Abstract

The rare cascade Bs φf0(980) φ\,π+π- decay is studied with the perturbative QCD approach based on the formula for the quasi two-body decay, where the two-pion pair originates from the S-wave resonant f0(980) state. It is found that with the introduction of the nonperturbative two-pion distribution amplitudes and the Flatt\'e parameterization of the scalar form factor for the f0(980) resonance, the branching ratio in the mass range 400 MeV < m(π+π-) < 1600 MeV is B theo(Bs0\, \,φ\,f0(980)\,\,φ\,π+\,π-) = [1.31-0.31+0.40(aππ)-0.16+0.19(mb) -0.09+0.10(CKM)]×10-6, where the uncertainties come from the parameter aππ of the two-pion distribution amplitudes, the b quark mass mb, the Cabibbo-Kobayashi-Maskawa (CKM) factors, respectively. This result agrees with the recent LHCb measurement within uncertainties, B exp(Bs0\,\,φ\, f0(980)\,\,φ\,π+\,π-) = (1.120.16+0.09-0.080.11)×10-6, where the errors are statistical, systematic and from the normalization, respectively.