Effect of Zb states on (3S)(1S)ππ decays

Abstract

Within the framework of dispersion theory, we analyze the dipion transitions between the lightest states, (nS) → (mS) ππ with m < n ≤ 3. In particular, we consider the possible effects of two intermediate bottomoniumlike exotic states Zb(10610) and Zb(10650). The ππ rescattering effects are taken into account in a model-independent way using dispersion theory. We confirm that matching the dispersive representation to the leading chiral amplitude alone cannot reproduce the peculiar two-peak ππ mass spectrum of the decay (3S) → (1S) ππ. The existence of the bottomoniumlike Zb states can naturally explain this anomaly. We also point out the necessity of a proper extraction of the coupling strengths for the Zb states to (nS)π, which is only possible if a Flatt\'e-like parametrization is used in the data analysis for the Zb states.