NN and N states

Abstract

The lattice QCD analysis of the HAL QCD Collaboration has recently derived N and interacting potentials with nearly physical quark masses (mπ 146 MeV and mK 525 MeV). They found an attractive interaction in the N 5S2 channel which supports a bound state with a central binding energy of 1.54 MeV. The 1S0 channel shows an overall attraction with a bound state with a central binding energy of 1.6 MeV. In this paper we looked closely at the NN and N three-body systems making use of the latest HAL QCD Collaboration N and interactions. Our results show that the d system in the state with maximal spin (I)JP=(0)5/2+ is bound with a binding energy of about 20 MeV. The (I)JP=(1)3/2+ nn state presents a resonance decaying to n and n, with a separation energy of 1 MeV. The (I)JP=(1/2)1/2+ N state also exhibits a resonance decaying to and , with a separation energy of 4.6 MeV. We have calculated the contribution of the Coulomb potential to differentiate among the different charged states.