In the present work, we investigate the decays of Bs0→ϕπ+π− and B0→ϕπ+π− with the final state interactions based on the chiral unitary approach. In the final state interactions of the π+π− with its coupled channels, we study the effects of the ηη channel in the two-body interactions for the reproduction of the f0(980) state. Our results for the π+π− invariant mass distributions of the decay Bs0→ϕπ+π− describe the experimental data up to 1 GeV well, with the resonance contributions from the f0(980) and ρ. For the predicted invariant mass distributions of the B0→ϕπ+π− decay, we found that the contributions from the f0(500) are significant except for the ones from the f0(980) state. With some experimental branching ratios as input to determine the production vertex factors, we make some predictions for the branching ratios of the other final decay channels, including the vector mesons, in the B(s)0 decays, where some of them are consistent with the experimental ones within the uncertainties.
@article{arxiv.2011.08758,
title = {Study $B^{0}_{(s)}$ decays into $\phi$ and a scalar or vector meson},
author = {Hiwa A. Ahmed and Zhong-Yu Wang and Zhi-Feng Sun and C. W. Xiao},
journal= {arXiv preprint arXiv:2011.08758},
year = {2021}
}