Scale-Chiral Symmetry, Proton Mass and Sound Velocity in Compact-Star Matter

Abstract

With a light dilaton σ and the light-quark vector mesons V=(,ω) incorporated into an effective scale-invariant hidden local symmetric Lagrangian, scale-chiral symmetry -- hidden in QCD -- arises at a high density, n1/2, as an "emergent" symmetry, a phenomenon absent in standard chiral perturbative approaches but highly relevant for massive compact stars. What takes place as the density increases beyond n1/2 2n0 in compressed baryonic matter is (1) a topology change from skyrmions to half-skyrmions, (2) parity doubling in the nucleon structure, (3) the maximum neutron star mass M 2.01 M and the radius R 12.0 km and (4) the sound velocity vs2/c2 1/3 due to the "vector manifestation (VM)" fixed point of and a "walking" dilaton condensate, which is intricately connected to the source of the proton mass.