Study of scalar meson f0(980) and K0*(1430) from B f0(980)(ω, φ) and B K*0(1430)(ω) Decays

Abstract

In the two-quark model supposition for f0(980) and K0*(1430), the branching ratios and the direct CP-violating asymmetries for decays B0 f0(980)0(ω,φ), K*00(1430)0(ω), K*-0(1430)+ and B- f0(980)-, K*00(1430)-, K*-0(1430)0(ω) are studied by employing the perturbative QCD (PQCD)factorization approach. we find the following results: (a) if the scalar meson f0(980) is viewed as a mixture of s s and (u u+d d)/2, the branching ratios of the decays B0 f0(980)0(ω,φ) and B- f0(980)-, which are induced by b d transition, are smaller than the currently experimental upper limits, and the predictions for the decay B0 f0(980)ω, B- f0(980)- are not far away from their limits; (b) in the decays B K*0(1430)(ω), which are induced by b s transition, the branch ratio of B0 K*00(1430)0 is the smallest one in two scenarios, at the order of 10-7 for scenario I, about 4.8×10-6 for scenario II; (c) the direct CP-asymmetries of the decays B f0(980)(ω) have a strong dependent on the mixing angle θ: they are large in the range of 25<θ<40, and small in the range of 140<θ<165, while the direct CP-asymmetries of the decays B K*0(1430)(ω) are not large in both scenarios and most of them are less than 20% in size.