Determining the effective Wilson coefficient a2 in terms of BR(Bs ηcφ) and evaluating BR(Bs ηcf0(980))

Abstract

In this work, we investigate decays of Bs ηcφ and Bs ηcf0(980) in a theoretical framework. The calculation is based on the postulation that f0(980) and f0(500) are mixtures of pure quark states 1 2 ( uu+ dd) and ss. The hadronic matrix elements for Bs φ and Bs f0(980) are calculated in the light-front quark model and the important Wilson coefficient a2 which is closely related to non-perturbative QCD is extracted. However, our numerical results indicate that no matter how to adjust the mixing parameter to reconcile contributions of f0(980) and f0(500), one cannot make the theoretical prediction on Bs ηc+π+π- to meet the data. Moreover, the new measurement of BR(Bs J/+f0(500))<1.7× 10-6 also negates the mixture scenario. Thus, we conclude that the recent data suggest that f0(980) is a four quark state ( tetraquark or K K molecule ), at least the fraction of its pure quark constituents is small.