Spectrum of the strange hidden charm molecular pentaquarks in chiral effective field theory

Abstract

We calculate the effective potentials of the cD(), cD() and cD() systems with the chiral effective field theory up to the next-to-leading order. We simultaneously consider the short-, intermediate- and long-range interactions. With the newly observed Pc spectra as inputs, we construct the quark-level contact Lagrangians to relate the low energy constants to those of cD() with the help of quark model. Our calculation indicates there are seven bound states in the I=0 strange hidden charm [cD()]J~(J=12,32) and [cD()]J~(J=12,32,52) systems. Our analyses also disfavor the cD() bound states. However, we obtain three new hadronic molecules in the isoscalar [cD()]J~(J=12,32) systems. The masses of [cD]1/2, [cD]1/2 and [cD]3/2 are predicted to be 4319.4+2.8-3.0 MeV, 4456.9+3.2-3.3 MeV and 4463.0+2.8-3.0 MeV, respectively. We also notice the one-eta-exchange influence is rather feeble. Binding solutions in the I=1 channels are nonexistent. We hope the future analyses at LHCb can seek for these new Pcss in the J final states, especially near the thresholds of cD().