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Main Authors: Wang, Jun-Shuai, Yang, Li-Kang, Liu, Yin-Fang, Ma, Yong-Liang
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.18659
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_version_ 1866909888812154880
author Wang, Jun-Shuai
Yang, Li-Kang
Liu, Yin-Fang
Ma, Yong-Liang
author_facet Wang, Jun-Shuai
Yang, Li-Kang
Liu, Yin-Fang
Ma, Yong-Liang
contents We investigate properties of nuclear matter, equation of state (EOS) of neutron stars and its mass-radius relation in a hard-wall AdS/QCD model by regarding baryons as solitonic configurations in gauge fields. Compared with previous approaches, we employ a different homogeneous approximation that takes into account the equations of motion for the pure gauge fields. By choosing appropriate parameters, we realize a chiral phase transition within the baryonic phase, where the chiral condensate decreases with the baryon chemical potential, until it reaches zero -- chiral symmetry is restored. In addition, independent of the existence of chiral phase transition, we also find that the speed of sound converges to the conformal limit at the density relevant to cores of massive stars but the trace of energy-momentum tensor does not vanish which indicates the pseudoconformal structure and intrinsic manifestation of scale symmetry in compact star matter. Through calculations, we obtain an equation of state that is more tightly constrained than previous works, and the resulting mass-radius relation of neutron stars is consistent with current observations.
format Preprint
id arxiv_https___arxiv_org_abs_2508_18659
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Finite density nuclear matter and neutron stars in hard-wall AdS/QCD model
Wang, Jun-Shuai
Yang, Li-Kang
Liu, Yin-Fang
Ma, Yong-Liang
Nuclear Theory
Computational Physics
We investigate properties of nuclear matter, equation of state (EOS) of neutron stars and its mass-radius relation in a hard-wall AdS/QCD model by regarding baryons as solitonic configurations in gauge fields. Compared with previous approaches, we employ a different homogeneous approximation that takes into account the equations of motion for the pure gauge fields. By choosing appropriate parameters, we realize a chiral phase transition within the baryonic phase, where the chiral condensate decreases with the baryon chemical potential, until it reaches zero -- chiral symmetry is restored. In addition, independent of the existence of chiral phase transition, we also find that the speed of sound converges to the conformal limit at the density relevant to cores of massive stars but the trace of energy-momentum tensor does not vanish which indicates the pseudoconformal structure and intrinsic manifestation of scale symmetry in compact star matter. Through calculations, we obtain an equation of state that is more tightly constrained than previous works, and the resulting mass-radius relation of neutron stars is consistent with current observations.
title Finite density nuclear matter and neutron stars in hard-wall AdS/QCD model
topic Nuclear Theory
Computational Physics
url https://arxiv.org/abs/2508.18659