QCD sum rule study of hidden-charm pentaquarks

TL;DR

This paper uses QCD sum rules to analyze the mass spectra of hidden-charm pentaquarks, identifying known states and predicting new ones with specific quantum numbers and masses.

Contribution

It systematically constructs hidden-charm pentaquark currents and provides mass predictions, clarifying the nature of observed pentaquark states and proposing new candidates.

Findings

P_c(4380) and P_c(4450) are identified as hidden-charm pentaquarks.

Predicted lowest-lying states with specific J^P quantum numbers and masses.

Mass estimates for various pentaquark states consistent with experimental data.

Abstract

We study the mass spectra of hidden-charm pentaquarks having spin $J = {1\over2}/{3\over2}/{5\over2}$ and quark contents $uud c \bar c$. We systematically construct all the relevant local hidden-charm pentaquark currents, and select some of them to perform QCD sum rule analyses. We find that the $P_c(4380)$ and $P_c(4450)$ can be identified as hidden-charm pentaquark states composed of an anti-charmed meson and a charmed baryon. Besides them, we also find a) the lowest-lying hidden-charm pentaquark state of $J^P = 1/2^-$ has the mass $4.33^{+0.17}_{-0.13}$ GeV, while the one of $J^P = 1/2^+$ is significantly higher, that is around $4.7-4.9$ GeV; b) the lowest-lying hidden-charm pentaquark state of $J^P = 3/2^-$ has the mass $4.37^{+0.18}_{-0.13}$ GeV, consistent with the $P_c(4380)$ of $J^P = 3/2^-$, while the one of $J^P = 3/2^+$ is also significantly higher, that is above $4.6$ GeV; c) the hidden-charm pentaquark state of $J^P = 5/2^-$ has a mass around $4.5-4.6$ GeV, slightly larger than the $P_c(4450)$ of $J^P = 5/2^+$.