The baryo-quarkonium picture for hidden-charm and bottom pentaquarks and LHCb P c(4380) and P c(4450) states

Abstract

We study baryo-charmonium [η c- and J/-N*, η c(2S)-, (2S)- and c(1P)-N] and baryo-bottomonium [η b(2S)-, (2S)- and b(1P)-N] bound states, where N is the nucleon and N* a nucleon resonance. In the baryo-quarkonium model, the five qqq Q Q quarks are arranged in terms of a heavy quarkonium core, Q Q, embedded in light baryonic matter, qqq, with q = u or d. The interaction between the Q Q core and the light baryon can be written in terms of the QCD multipole expansion. The spectrum of baryo-charmonium states is calculated and the results compared with the existing experimental data. In particular, we can interpret the recently discovered P c(4380) and P c(4450) pentaquarks as (2S)-N and c2(1P)-N bound states, respectively. We observe that in the baryo-bottomonium sector the binding energies are, on average, slightly larger than those of baryo-charmonia. Because of this, the hidden-bottom pentaquarks are more likely to form than their hidden-charm counterparts. We thus suggest the experimentalists to look for five-quark states in the hidden-bottom sector in the 10.4-10.9 GeV energy region.