Exotic dibaryon states in a molecular picture

Abstract

We investigate the exotic dibaryon states with JP=0+ and 2+ in a molecular picture. We construct the scalar and tensor molecular interpolating currents and calculate their masses within the method of QCD sum rules. Our results indicate that the mass of the scalar dibaryon state is m, \, 0+=(3.330.22) \,, which is about 15 \,MeV below the 2m threshold. This result suggests the existence of a loosely bound molecular state of the JP=0+ scalar dibaryon with a small binding energy around 15 MeV. The mass of the tensor dibaryon is predicted to be m,\, 2+=(3.240.23)\, GeV, which may imply a deeper molecular state of the tensor dibaryon than the scalar channel. These exotic strangeness S=-6 and doubly-charged dibaryon states may be identified in the heavy-ion collision processes.