Hidden-charm and hidden-bottom molecular pentaquarks in chiral perturbation theory

Abstract

The newly observed Pc(4312), Pc(4440) and Pc(4457) at the LHCb experiment are very close to the cD and cD thresholds. In this work, we perform a systematic study and give a complete picture on the interactions between c() and D() systems in the framework of heavy hadron chiral perturbation theory, where the short-range contact interaction, long-range one-pion-exchange contribution, and intermediate-range two-pion-exchange loop diagrams are all considered. We first investigate the three Pc states without and with considering the c contribution in the loop diagrams. It is difficult to simultaneously reproduce the three Pcs unless the effect of c is included. The coupling between c()D() and cD() channels is crucial for the formation of these Pcs. Our calculation supports the Pc(4312), Pc(4440) and Pc(4457) to be the S-wave hidden-charm [cD]J=1/2I=1/2, [cD]J=1/2I=1/2 and [cD]J=3/2I=1/2 molecular pentaquarks, respectively. Our calculation disfavors the spin assignment JP=12- for Pc(4457) and JP=32- for Pc(4440), because the excessively enhanced spin-spin interaction is unreasonable in the present case. We obtain the complete mass spectra of the [c()D()]J systems with the fixed low energy constants. Our result indicates the existence of [cD]J~(J=12,32,52) hadronic molecules. The previously reported Pc(4380) might be a deeper bound one. Additionally, we also study the hidden-bottom b()B() systems, and predict seven bound molecular states, which could serve as a guidance for future experiments....