Compact hidden charm pentaquark states and QCD isomers

Abstract

We make an exhaustive investigation on the pentaquark states qqqcc (q=u, d and s) and discuss the effect of color structures in a multiquark color flux-tube model. We exhibit a novel picture of the structure and properties of the states Pc and Pcs observed by the LHCb Collaboration. We can describe the states as the compact pentaquark states in the model. The spin-parity of the group of Pc(4312)+ and Pc(4337)+ is 12- while that of the group of Pc(4380)+, Pc(4440)+ and Pc(4457)+ is 32-. Their structures are pentagon, diquark, pentagon, diquark, and octet, respectively. The members in each group can be analogically called QCD isomers because of their the same spin-parity and quark content but different color structures. The singlet Pcs(4459)0 has pentagon structure and spin-parity of 12-. In addition, we also predict the Pcs, Pc ss and Pcsss families in the model. The five-body confinement potential based on the color flux-tube picture, which is a collective degree of freedom and induces QCD isomer phenomenon, plays an important role in the formation of the compact states.