Mass spectra of N dibaryons in the 3S1 and 5S2 channels

Abstract

We study the mass spectra of the N dibaryons in the 3S1 and 5S2 channels with JP=1+ and 2+ respectively, by using the method of QCD sum rules. We construct two dibaryon interpolating currents in the molecular picture and calculate their correlation functions and spectral densities up to dimension-16 condensates. Our results indicate that there may exist an N dibaryon bound state in the 5S2 channel with a binding energy of about 21\ MeV. The masses of the 3S1 N dibaryons with JP=1+ are predicted to be higher than the N and thresholds, and thus can decay into these final states directly in S-wave. The N (5S2) dibaryon bound state can decay into the octet-octet final states and in D-wave via the quark rearrangement mechanism. The existence of these N dibaryons may be identified in the relativistic heavy-ion collision experiments in the future.