Abstract
The LHCb Collaboration announced the observation of three narrow structures consistent with hidden-charm pentaquark states. They are candidates of hadronic molecules formed of a pair of a charmed baryon and an anticharmed meson. Among them, the $P_c(4457)$ mass is consistent with earlier predictions of a $\Sigma_c\bar D^*$ molecule with $I=1/2$. We point out that if such a picture were true, one would have $\mathcal{B}(P_c(4457)\to J/\psi \Delta^+)/\mathcal{B}(P_c(4457)\to J/\psi p)$ at the level ranging from a few percent to about 30%. Such a large isospin breaking decay ratio is two to three orders of magnitude larger than that for normal hadron resonances. It is a unique feature of the $\Sigma_c\bar D^*$ molecular model, and can be checked by LHCb.
Highlights
The LHCb Collaboration announced the observation of three narrow structures consistent with hidden-charm pentaquark states
They are candidates of hadronic molecules formed of a pair of a charmed baryon and an anticharmed meson
Of particular interest here is the interpretation of the Pcð4450Þ as an I 1⁄4 1=2 ΣcD Ã molecular with JP 1⁄4 3=2− [14,15,17,18,19,23,24,26,27], which is adopted as the interpretation for the Pcð4457Þþ in Refs. [49,50]
Summary
The LHCb Collaboration announced the observation of three narrow structures consistent with hidden-charm pentaquark states. Isospin breaking decays as a diagnosis of the hadronic molecular structure of the Pcð4457Þ Such a large isospin breaking decay ratio is two to three orders of magnitude larger than that for normal hadron resonances.
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