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Compact hidden charm pentaquark states and QCD isomers

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arxiv 2202.13570 v2 pith:W22PJYPF submitted 2022-02-28 hep-ph

Compact hidden charm pentaquark states and QCD isomers

classification hep-ph
keywords statescolorcompactfracgroupmodelpentagonpentaquark
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We make an exhaustive investigation on the pentaquark states $qqqc\bar{c}$ ($q=u, d$ and $s$) and discuss the effect of color structures in a multiquark color flux-tube model. We exhibit a novel picture of the structure and properties of the states $P_c$ and $P_{cs}$ observed by the LHCb Collaboration. We can describe the states as the compact pentaquark states in the model. The spin-parity of the group of $P_c(4312)^+$ and $P_c(4337)^+$ is $\frac{1}{2}^-$ while that of the group of $P_c(4380)^+$, $P_c(4440)^+$ and $P_c(4457)^+$ is $\frac{3}{2}^-$. Their structures are pentagon, diquark, pentagon, diquark, and octet, respectively. The members in each group can be analogically called QCD isomers because of their the same spin-parity and quark content but different color structures. The singlet $P_{cs}(4459)^0$ has pentagon structure and spin-parity of $\frac{1}{2}^-$. In addition, we also predict the $P_{cs}$, $P_{c ss}$ and $P_{csss}$ families in the model. The five-body confinement potential based on the color flux-tube picture, which is a collective degree of freedom and induces QCD isomer phenomenon, plays an important role in the formation of the compact states.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Predicted Exotic Doubly Heavy-Strange Pentaquarks

    hep-ph 2026-05 unverdicted novelty 6.0

    Predictions of two states in u d-bar s cc, three in u d-bar s cb, and four in u d-bar s bb sectors plus virtual states, obtained via unitary coupled channels with off-diagonal binding dominance.

  2. Compactness, mass spectra, and strong stability of singly heavy tetraquarks

    hep-ph 2026-07 conditional novelty 5.0

    A radius-dependent chromoelectric interaction in the MIT bag model predicts that the state T_ncs̄n̄(0+, 2.925) is a compact tetraquark candidate corresponding to the experimentally observed T_c̄s0^a(2900).