Chiral partner structure of light nucleons in an extended parity doublet model

Abstract

We study chiral partner structure of four light nucleons, N(939), N(1440), N(1535) and N(1650) using an effective chiral model based on the parity doublet structure. In our model we introduce four chiral representations, ( 1, 2), ( 2, 1), ( 2, 3) and ( 3, 2) under SU(2) L SU(2) R symmetry. We determine the model parameters by fitting them to available experimental values of masses, widths and the axial charge of N(939) together with the axial charges of N(1535) and N(1650) by lattice analyses. We find five groups of solutions: In a group the chiral partner to N(939) is N(1440) having small chiral invariant mass. In another group, the chiral partner is a mixture of N(1535) and N(1650) having a large chiral invariant mass. We claim that off-diagonal elements of axial-charge matrix can be used for distinguishing these groups. We also discuss changes of masses associated with chiral symmetry restoration, which could emerge in high density matter.