Pion radiative decays of excited hidden-charm pentaquark molecules: from Σc(*)D(*)(2S) molecules to the reported Pc states

Abstract

The discovery of the hidden-charm pentaquarks \(Pc(4312)\), \(Pc(4440)\) and \(Pc(4457)\) by the LHCb collaboration are very likely to identify as the \(Σc(*)D(*)\) molecules. A natural and crucial extension is the existence of excited molecular partners built from a ground-state charmed baryon and a radially excited anti-charmed meson, namely \(Σc(*)D(*)(2S)\) molecules. In a framework of chiral quark model, we systematic study pion-emission decays of such excited molecules into the known ground-state \(Pc\) molecules. Our results show that the decay widths are sensitive to the spin structures and the coupled-channel interferences, i.e., the \(ΣcD(2S)/ΣcD*(2S)/Σc*D*(2S)[1/2(1/2-)]\) state decays to \(Pc(4440)\) with a width of several MeV, while the width to \(Pc(4457)\) is suppressed below \(0.3\) MeV due to destructive interference. The pion-emission decay can be the key to unveiling the excited molecular spectrum of hidden-charm pentaquarks and provides decisive experimental signatures. We expect the future experiments such as the LHCb and PANDA can verify our predictions.