Hadronic molecules ηc ηc and c0c0

Abstract

The fully charmed hadronic scalar molecules M1=ηc ηc and M2=c0c0 are studied in the context of the QCD sum rule method. The masses m, m and current couplings f, f of these states are calculated using the two-point sum rule approach. The obtained results m=(6264 50)~MeV and m=(6954 50)~MeV are employed to determine their decay channels. It is demonstrated that the processes M1 J/ J/ and M1 η cη c are kinematically allowed decay modes of M1. The molecule M2 decays to J/ J/, J/ , η cη c, η cη c(2S), η c c1(1P), and c0 c0 mesons. The partial widths all of these processes are evaluated by means of the three-point sum rule calculations, which are necessary to extract the strong couplings gi at vertices M1J/ J/ , M 1η cη c, and others. Our estimates for the full widths of the molecules M1=(320 72)~MeV and M2=(138 18)~MeV, as well as their masses are compared with parameters of the X resonances discovered by the LHCb-ATLAS-CMS Collaborations in the di-J/ and J/ invariant mass distributions. We argue that the molecule M1 can be considered as a real candidate to the resonance X(6200). The structure M2 may be interpreted as X(6900) or one of its components in combination with a scalar tetraquark.