Hidden-charm pentaquarks and Pc states

Abstract

Recently, the LHCb Collaboration reported three Pc states in the J/p channel. We systematically study the mass spectrum of the hidden charm pentaquark in the framework of an extended chromomagnetic model. For the nnncc pentaquark with I=1/2, we find that (i) the lowest state is Pc(4327.0,1/2,1/2-) [We use Pc(m,I,JP) to denote the nnncc pentaquark], which corresponds to the Pc(4312). Its dominant decay mode is cD*. (ii) We find two states in the vicinity of Pc(4380). The first one is Pc(4367.4,1/2,3/2-) and decays dominantly to NJ/ and cD*. The other one is Pc(4372.4,1/2,1/2-). Its dominant decay mode is cD, and its partial decay width of Nηc channel is comparable to that of NJ/. (iii) In higher mass region, we find Pc(4476.3,1/2,3/2-) and Pc(4480.9,1/2,1/2-), which correspond to Pc(4440) and Pc(4457). In the open charm channels, both of them decay dominantly to the cD*. (iv) We predict two states above 4.5~GeV, namely Pc(4524.5,1/2,3/2-) and Pc(4546.0,1/2,5/2-). The masses of the nnncc state with I=3/2 are all over 4.6~GeV. Moreover, we use the model to explore the nnscc, ssncc and ssscc pentaquark states.