Scale-Invariant Hidden Local Symmetry, Topology Change and Dense Baryonic Matter II

Abstract

Exploiting certain robust topological inputs from the skyrmion description of compressed baryonic matter with a scale-chiral symmetric Lagrangian, we predict the equation of state that is consistent with the properties of nuclear matter at the equilibrium density, supports the maximum mass of massive compact star 2 M and surprisingly gives the sound velocity close to the "conformal velocity" 1/3 at densities 3 n0. At the core of this result is the observation that parity-doubling occurs in the nucleon structure as density goes above 2n0 with a chiral-singlet mass m0 (0.6-0.9) mN, hinting at a possible up-to-date unsuspected source of proton mass and an emergence at high density of scale symmetry and flavor local symmetry, both hidden in the QCD vacuum.