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

Published 7 Jan 2026 in hep-ph | (2601.03614v1)

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 $\mathcal{O}(10)$ 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 $φφ$, $φφ(1680)$, $η{(\prime)}φ$,{(\prime)}h_1(1415)$, and $φf_2{\prime}(1525)$, to which they have relatively large couplings.

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