Pc(4457)+, Pc(4440)+, and Pc(4312)+: molecules or compact pentaquarks?

Abstract

In a chromomagnetic model, we analyse the properties of the newly observed Pc(4457)+, Pc(4440)+, and Pc(4312)+ states. We estimate the masses of the (uud)8c(cc)8c and (uds)8c(cc)8c pentaquark states by considering the isospin breaking effects. Their values are determined by calculating mass distances from the c++D- and c+D- thresholds, respectively. It is found that the isospin breaking effects on the spectrum are small. From the uncertainty consideration and the rearrangement decay properties in a simple model, we find that it is possible to assign the Pc(4457)+, Pc(4440)+, and Pc(4312)+ as JP=3/2-, 1/2-, and 3/2- pentaquark states, respectively. The assignment in the molecule picture can be different, in particular for the Pc(4312)+. The information from open-charm channels, e.g. B[Pcc++D-]/ B[Pc J/ p], will play an important role in distinguishing the inner structures of the Pc states. Discussions and predictions based on the calculations are also given.