Interpretation of structure in the di-J/ spectrum

Abstract

Structure in the di-J/ mass spectrum observed by the LHCb experiment around 6.9 and 7.2 GeV is interpreted in terms of JPC=0++ and 2++ resonances between a cc diquark and a c c antidiquark, using a recently confirmed string-junction picture to calculate tetraquark masses. The main peak around 6.9 GeV is likely dominated by the 0++(2S) state, a radial excitation of the cc- c c tetraquark, which we predict at 6.871 0.025 GeV. The dip around 6.75 GeV is ascribed to the opening of the \ di-c0 channel, while the dip around 7.2 GeV could be correlated with the opening of the di-ηc(2S) or cc cc channel. The low-mass part of the di-J/ structure appears to require a broad resonance consistent with a predicted 2++(1S) state with invariant mass around M inv = 6400 MeV. Implications for bb b b tetraquarks are discussed.