Higher fully-charmed tetraquarks: Radial excitations and P-wave states

Abstract

We systematically calculate the mass spectrum of the higher excited fully-charmed tetraquark cc c c states including the S-wave radial excitations and the P-wave states with a nonrelativistic quark model. The quark model is composed of a vector one-gluon-exchange (OGE) and a scalar linear confinement interaction with the parameters determined by the charmonium spectrum. In the calculation, we consider both the 3c- 3c and the 6c-6c color representations. For the cc c c state, the 6c- 6c component is located lower than the 3c-3c one because of the stronger attractive interactions between the diquark and antidiquark. We focus on two excited modes and their properties for the P-wave tetraquarks. The mass splitting for the -mode excitations with different color configurations is large. The low-lying 6c- 6c -mode component helps to explain the small mass gap between the ground S-wave and the P-wave tetraquark states. The recently observed X(6900) state may be the candidate of the first radially excited tetraquarks with JPC=0++ or 2++, or the 1+- or 2-+ P-wave states based on the mass spectrum. Moreover, the lowest Tc states with the exotic JPC quantum numbers 0-- and 1-+ may decay into the P-wave ηc J/ and di-J/ modes, respectively. The future experimental search of these Tc states will enrich the hadronic spectrum.