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| Autor principal: | |
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| Formato: | Preprint |
| Publicado: |
2026
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| Materias: | |
| Acceso en línea: | https://arxiv.org/abs/2602.17125 |
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- To decode the near-threshold dynamics of the $X_{0,\,1}(4140)$ and $X_{1}(4685)$ states, we investigate the OZI-suppressed $\{D_{s}\bar{D}_{s},\, J/ψϕ,\, D_{s}^{\ast}\bar{D}_{s}^{\ast}\}$ coupled-channel scattering in $B\to D_{s}\bar{D}_{s} K$ decays using the effective range expansion. We demonstrate that the $X_{0}(4140)$, associated with a dip in the lineshape, corresponds to a dynamically generated pole near the $J/ψϕ$ threshold. The single-channel $J/ψϕ$ scattering length is extracted to be $1.11\pm 0.65\,\rm{fm}$, yielding an effective scattering length of $0.12^{+0.20}_{-0.10}+i0.78^{+0.20}_{-0.40} \, \rm{fm}$ when coupled channels are included. By treating the spin-spin interaction as a subleading effect, we predict a $J^{PC}=1^{++}$ virtual state near the $J/ψϕ$ threshold, which naturally resolves the empirical ambiguities surrounding the $X_{1}(4140)$ width. Extending this framework via heavy quark spin symmetry, we further interpret the $X_{1}(4685)$ as a $ψ(2S)ϕ$ hadronic molecule. Ultimately, these findings highlight how the $X(4140)$ family and $X_{1}(4685)$ serve as unique theoretical windows into the Fierz rearrangement and OZI suppression mechanisms in low-energy strong interactions.