Molecular states from (*)cD(*)-cD(*) interaction

Abstract

In this work, we systemically investigate the molecular states from the (*)cD(*)-cD(*) interaction with the help of the Lagrangians with heavy quark and chiral symmetries in a quasipotential Bethe-Salpeter equation (qBSE) approach. The molecular states are produced from isodoublet (I=1/2) cD interaction with spin parity JP=1/2- and cD* interaction with 1/2- and 3/2-. Their masses and widths are consistent with the Pc(4312), Pc(4440) and Pc(4457) observed at LHCb. The states, c*D*(1/2-), c*D*(3/2-) and *cD(3/2-), are also produced with the same parameters. The isodoublet c*D* interaction with 5/2-, as well as the isoquartet (I=3/2) cD* interactions with 1/2- and 3/2-, c*D* interaction with 3/2- and 5/2-, are also attractive while very large cutoff is required to produce a molecular state. We also investigate the origin of the widths of these molecular states in the same qBSE frame. The D* channel is dominant in the decays of the states, cD*(1/2-), cD*(3/2-), c*D(3/2-), and cD(1/2-). The *cD*(1/2-) state has large coupling to cD channel while the cD*, *cD and cD* channels provide similar contributions to the width of the *cD*(3/2-) state. These results will be helpful to understand the current LHCb experimental results, and the three predicted states and the decay pattern of these hidden-charmed molecular pentaquarks can be checked in future experiments.