Brane-induced Skyrmion on S^3: baryonic matter in holographic QCD

TL;DR

This paper models baryonic matter in holographic QCD using brane-induced Skyrmions on S^3, revealing pion dominance at high density, baryon swelling, and insights into deconfinement and chiral symmetry restoration.

Contribution

It introduces a truncated-resonance model for baryons in holographic QCD, analyzing their properties and phase transitions using a novel S^3 modeling approach.

Findings

Pion dominance near critical density where vector mesons vanish

Baryon swelling as a precursor to deconfinement

Comparison of truncated-resonance and instanton models

Abstract

We study baryonic matter in holographic QCD with D4/D8/\bar{D8} multi-D brane system in type IIA superstring theory. The baryon is described as the "brane-induced Skyrmion", which is a topologically non-trivial chiral soliton in the four-dimensional meson effective action induced by holographic QCD. We employ the "truncated-resonance model" approach for the baryon analysis, including pion and \rho meson fields below the ultraviolet cutoff scale M_KK \sim 1GeV, to keep the holographic duality with QCD. We describe the baryonic matter in large N_c as single brane-induced Skyrmion on the three-dimensional closed manifold S^3 with finite radius R. The interactions between baryons are simulated by the curvature of the closed manifold S^3, and the decrease of the size of S^3 represents the increase of the total baryon-number density in the medium in this modeling. We investigate the energy density, the field configuration, the mass and the root-mean-square radius of single baryon on S^3 as the function of its radius R. We find a new picture of "pion dominance" near the critical density in the baryonic matter, where all the (axial) vector meson fields disappear and only the pion field survive. We also find the "swelling" phenomena of the baryons as the precursor of the deconfinement, and propose the mechanism of the swelling in general context of QCD. The properties of the deconfinement and the chiral symmetry restoration in the baryonic matter are examined by taking the proper order parameters. We also compare our truncated-resonance model with another "instanton" description of the baryon in holographic QCD, considering the role of cutoff scale M_KK.