Fractionized Skyrmions in Dense Compact-Star Matter

Abstract

The hadronic matter described as a skyrmion matter embedded in an FCC crystal is found to turn into a half-skyrmion matter with vanishing (in the chiral limit) quark condensate and non-vanishing pion decay constant fπ at a density n1/2 lower than or near the critical density nc at which hadronic matter changes over to a chiral symmetry restored phase with possibly deconfined quarks. When hidden local gauge fields and a dilaton scalar of spontaneously broken scale symmetry with decay constant f are incorporated, this half-skyrmion phase is characterized by f≈ fπ≠ 0 with the hidden gauge coupling g≠ 0 but 1. While chiral symmetry is restored globally in this region in the sense that space-averaged, qq vanishes, quarks are still confined in massive hadrons and massless pions. This phase is shown to play a crucial role in the model for a smooth transition from a soft EoS at low density to a stiffer EoS at high density, the changeover taking place at n1/2 2n0. It resembles the "quarkyonic phase" predicted in large Nc QCD and represents the "hadronic freedom" regime which figures as a doorway to chiral restoration. The fractionization of skyrmion matter into half-skyrmion matter has a tantalizing analogy to what appears to happen in condensed matter in (2+1) dimensions where half-skyrmions or "merons" enter as relevant degrees of freedom at the interface.