Resonance X(7300): excited 2S tetraquark or hadronic molecule c1c1?

Abstract

We explore the first radial excitation X4c of the fully charmed diquark-antidiquark state X4c=cccc built of axial-vector components, and the hadronic molecule M =c1c1. The masses and current couplings of these scalar states are calculated in the context of the QCD two-point sum rule approach. The full widths of X4c and M are evaluated by taking into account their kinematically allowed decay channels. We find partial widths of these processes using the strong couplings gi and Gi() at the X4c(M )-conventional mesons vertices computed by means of the QCD three-point sum rule method. The predictions obtained for the parameters m=(7235 75)~ MeV, =(144 18)~MeV and m=(7180 120)~MeV, =(169 21)~MeV of these structures, are compared with the experimental data of the CMS and ATLAS Collaborations. In accordance to these results, within existing errors of measurements and uncertainties of the theoretical calculations, both the excited tetraquark and hadronic molecule may be considered as candidates to the resonance X(7300). Detailed analysis, however, demonstrates that the preferable model for X(7300) is an admixture of the molecule M and sizeable part of X4c.