On LHCb pentaquarks as a baryon-psi(2S) bound state -- prediction of isospin 3/2 pentaquarks with hidden charm

Abstract

The pentaquark Pc+(4450) recently discovered by LHCb has been interpreted as a bound state of (2S) and nucleon. The charmonium-nucleon interaction which provides the binding mechanism is given, in the heavy quark limit, in terms of charmonium chromoelectric polarizabilities and densities of the nucleon energy-momentum tensor (EMT). In this work we show in model-independent way, by exploring general properties of the effective interaction, that (2S) can form bound states with nucleon and . Using the Skyrme model to evaluate the effective interaction in the large-Nc limit and estimate 1/Nc corrections, we confirm the results from prior work which were based on a different effective model (chiral quark soliton model). This shows that the interpretation of Pc+(4450) is remarkably robust and weakly dependent on the details of the effective theories for the nucleon EMT. We explore the formalism further and present robust predictions of isospin 32 bound states of (2S) and with masses around 4.5\, GeV and widths around 70\, MeV. The approach also predicts broader resonances in the (2S)- channel at 4.9\, GeV with widths of the order of 150\, MeV. We discuss in which reactions these new isospin 32 pentaquarks with hidden charm can be observed.