Fully-strange tetraquarks: fall-apart decays and experimental candidates

Abstract

We presents a systematic analysis of the fall-apart decays for the 1S, 1P, and 2S-wave fully-strange tetraquark states. It shows that most of the fully-strange tetraquark states have a relatively narrow fall-apart decay width of O(10) MeV. The newly observed axial-vector state X(2300) at BESIII may favor the low-lying 1S-wave 1+- state T(4s)1+-(2323), while the X(2500) resonance observed in the earlier BESIII experiment may favor the low-lying 1P-wave 0-+ state T(4s)0-+(2481). Some fully-strange tetraquark states predicted in theory can be searched for in their dominant fall-apart decay channels in experiment, such as φφ, φφ(1680), η()φ, η()h1(1415), and φ f2(1525), to which they have relatively large couplings.