Calculation of the B K0,2*(1430)f0(980)/σ decays in the Perturbative QCD Approach

Abstract

Motivated by the observations of the decays B0 K0*(1430)0 f0(980) and B0 K2*(1430)0 f0(980) from BaBar collaboration, we study the B0(+) K0,2*(1430)0(+) f0(980)/σ decays in the perturbative QCD approach for the first time. In the absence of reliable nonperturbative wave functions we only assume the scalar meson f0(980) and σ are two-quark ground states. In our calculations, these decays are all dominated by the hard-scattering emission and annihilation diagrams, while the factorizable emission diagrams are forbidden or suppressed heavily by the vector decay constants. Furthermore, the branching fractions are sensitive to the mixing between f0(980) and σ. Comparing our results with the experimental data, a large mixing angle θ is favored. Taking θ=145, the orders of branching fractions of B K0*(1430)0 σ, B K2*(1430)0 σ and B K0,2*(1430)0 f0(980) are predicted to be 10-4, 10-5 and 10-6, respectively, which can be measured in the current experiments such as LHCb and Belle-2. In addition, although these decays are penguin dominant, the mixing also leads to large direct CP asymmetries in these decays. With the precise data in future, our results could shed light on the inner structure of the scalar mesons and can be used to determine the mixing angle of the σ-f0(980) system.