Study of B0(s) decaying into D0 and π+π-, K+K-, or π0η with final state interactions

Abstract

We investigate the resonant contributions in the decays B0(s) D0 π+π-, B0(s) D0 K+K-, and B0 → D0 π0η by considering the final state interactions within the chiral unitary approach. The scalar resonances produced dynamically from the final state interactions of these decays are the ones of f0(500), f0(980), and a0(980). In addition, the vector mesons and φ produced in the p-wave are also taken into account. From the invariant mass distributions of B0 decays, one can see that the contributions of the states f0(500) and a0(980) are remarkably larger than the one of f0(980). However, for the case of B0s decays only a clear structure closed to the K+ K- threshold appears, which corresponds to the f0(980) state and has no signal for the f0(500) resonance. The dominant contributions are from the vector meson φ for the decay B0s D0 K+K-, where the results of the K+ K- invariant mass distributions are in agreement with the experimental data up to 1.1 GeV. Moreover, the branching fractions and the ratios of branching fractions are also investigated, where some of them are consistent with the experimental measurements, and the branching fraction Br(B0 → D0 a0(980) [a0(980) π0η])=(6.08 0.72)× 10-5 and the ratio of branching fractions Br(B0→ D0 f0(980))/Br(B0→ D0 a0(980))=0.13 0.03 are predicted.

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