d (2380) dibaryon from lattice QCD

Abstract

The dibaryon resonance d (2380) with (JP, I)=(3+, 0) is studied theoretically on the basis of the 3-flavor lattice QCD simulation with heavy pion masses (mπ =679, 841 and 1018 MeV). By using the HAL QCD method, the central - potential in the 7S3 channel is obtained from the lattice data with the lattice spacing a 0.121 fm and the lattice size L 3.87 fm. The resultant potential shows a strong short-range attraction, so that a quasi-bound state corresponding to d (2380) is formed with the binding energy 25-40 MeV below the threshold for the heavy pion masses. The tensor part of the transition potential from to NN is also extracted to investigate the coupling strength between the S-wave system with JP=3+ and the D-wave NN system. Although the transition potential is strong at short distances, the decay width of d (2380) to NN in the D-wave is kinematically suppressed, which justifies our single-channel analysis at the range of the pion mass explored in this study.