The role of adiabatic sound speeds in neutron star radial oscillations and stability

IF 5.9 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Journal of Cosmology and Astroparticle Physics Pub Date : 2025-09-09 DOI:10.1088/1475-7516/2025/09/025

Sayantan Ghosh, Tianqi Zhao, Bharat Kumar and Sailesh Ranjan Mohanty

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Abstract

We investigate the impact of adiabatic sound speed on the radial oscillations and stability of neutron stars (NSs), using five representative equations of state (EOSs): three hadronic (FSU2R, HPUC, SINPA) and two hybrid (Gibbs 40, KW 55). The adiabatic case, which assumes fixed particle composition during compression, corresponds to slow reaction scenarios and leads to an extension of the stable branch toward smaller radii and higher compactness, even beyond the maximum mass configuration. This extended regime, known as the “slow stable” branch, remains dynamically stable only when reactions are sufficiently slow. To assess stability, we subject the NSs to radial perturbations and examine their fundamental radial (f-mode) oscillations, identifying the transition point where the mode frequency vanishes. The adiabatic sound speed, compared to the equilibrium sound speed, delays the onset of instability, allowing NSs to sustain stability at higher compactness and thus exhibit smaller radii — a more physically realistic outcome for slow reaction rates. Notably, the delays in the onset of instability are more pronounced for hybrid EOSs than for hadronic ones.

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绝热声速在中子星径向振荡和稳定性中的作用

本文研究了绝热声速对中子星（NSs）径向振荡和稳定性的影响，采用了5个具有代表性的状态方程：3个强子态方程（FSU2R， HPUC， SINPA）和2个混合态方程（Gibbs 40, KW 55）。在绝热情况下，假设压缩过程中粒子组成固定，对应于慢反应情景，并导致稳定分支向更小的半径和更高的紧致度延伸，甚至超过最大质量配置。这个扩展的体系，被称为“慢稳定”分支，只有当反应足够慢时才保持动态稳定。为了评估稳定性，我们对NSs进行了径向扰动，并检查了它们的基本径向（f模）振荡，确定了模态频率消失的过渡点。与平衡声速相比，绝热声速延缓了不稳定性的发生，使纳米粒子在更高的致密度下保持稳定，从而表现出更小的半径——这是慢反应速率下更现实的物理结果。值得注意的是，与强子eos相比，混合eos在不稳定性开始的延迟更为明显。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Cosmology and Astroparticle Physics 地学天文-天文与天体物理

CiteScore

10.20

自引率

23.40%

发文量

632

审稿时长

1 months

期刊介绍： Journal of Cosmology and Astroparticle Physics (JCAP) encompasses theoretical, observational and experimental areas as well as computation and simulation. The journal covers the latest developments in the theory of all fundamental interactions and their cosmological implications (e.g. M-theory and cosmology, brane cosmology). JCAP''s coverage also includes topics such as formation, dynamics and clustering of galaxies, pre-galactic star formation, x-ray astronomy, radio astronomy, gravitational lensing, active galactic nuclei, intergalactic and interstellar matter.