Large non-factorizable contributions in B a0 a0 decays

Abstract

We investigate three tree-dominated B a0 a0 decays for the first time in the perturbative QCD(pQCD) approach at leading order in the standard model, with a0 standing for the light scalar a0(980) state, which is assumed as a meson based on the model of conventional two-quark(q q) structure. All the topologies of the Feynman diagrams such as the non-factorizable spectator ones and the annihilation ones are calculated in the pQCD approach. It is of great interest to find that, contrary to the known B π π decays, the B a0 a0 decays are governed by the large non-factorizable contributions, which give rise to the large B a0 a0 decay rates in the order of 10-6 10-5, although the a0 meson has an extremely small vector decay constant fa0. Also observed are large direct CP-violating asymmetries around 15\% and 30\% for the B0 a00 a00 and a0+ a0- modes. These sizable predictions could be easily examined at the running Large Hadron Collider and the near future Super-B/Belle-II experiments. The future precision measurements combined with these pQCD predictions might be helpful to explore the complicated QCD dynamics and the inner structure of the light scalar a0, as well as to complementarily constrain the unitary angle α.