Chiral Invariant Mass Constraints from HESS J1731 347 in an Extended Parity Doublet Model with Isovector Scalar Meson

Abstract

The recent discovery of a central compact object (CCO) within the supernova remnant HESS J1731-347, with mass 0.77+0.20-0.17 \ M and radius 10.4+0.86-0.78 km is the lightest and smallest compact object ever observed. We identify it as an ultra-light Neutron star (NS) and constrain the chiral invariant mass of nucleon m0 from the observational data of NS using an extended parity doublet model with including the isovector scalar meson a0(980). We study the higher order asymmertic matter properties such as the symmetry incompressibility Ksym and the symmetry skewness Qsym in the presence of a0 meson. We find that Ksym and Qsym is sensitive to the chiral invariant mass of nucleon m0 in the presence of a0 meson. We show that the equation of state in the present model satisfies all observational constraints within 2σ credible region including the HESS J1731-347 observation, as well as the constraint from Ksym when 740 \, MeV m0 860 \, MeV for L0 = 57.7 MeV. Yet, the 1σ constraint from neutron stars appears to be not fully compatible with the constraint from Ksym from the present model.