Double-strangeness hidden-charm pentaquarks
Abstract
We investigate the possible existence of double-strangeness hidden-charm pentaquark states, denoted as , within an off-shell coupled-channel formalism. Eleven meson-baryon channels with total strangeness are constructed by combining charmed mesons and singly charmed baryons. The two-body scattering amplitudes are derived from an effective Lagrangian that respects heavy-quark spin symmetry, hidden local symmetry, and flavor SU(3) symmetry. The Bethe-Salpeter equation is solved using the Blankenbecler-Sugar reduction scheme, and resonances are identified as poles in the scattering amplitudes on the complex energy plane. We find five negative-parity states with spins , , and , all located below their relevant thresholds. Three positive-parity states are also found: two with and one with , lying above the thresholds with substantial widths. The coupling strengths of each resonance to relevant meson-baryon channels are extracted. The sensitivity of the results to the cutoff parameter is examined. These results provide theoretical predictions that may assist future experimental searches for states in the channel.
Keywords
Cite
@article{arxiv.2506.23587,
title = {Double-strangeness hidden-charm pentaquarks},
author = {Samson Clymton and Hyun-Chul Kim and Terry Mart},
journal= {arXiv preprint arXiv:2506.23587},
year = {2025}
}
Comments
17 pages, 6 figures. Final version for publication