Stripping of a Neutron Star in a Close Binary System in a Pair with a Black Hole

IF 1.1 4区物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS

Astronomy Letters-A Journal of Astronomy and Space Astrophysics Pub Date : 2024-09-11 DOI:10.1134/S1063773724700166

N. I. Kramarev, A. G. Kuranov, A. V. Yudin, K. A. Postnov

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Abstract

We consider the final evolutionary stages of a neutron star–black hole pair. According to the current paradigm, such systems eventually coalesce, which in some cases is accompanied by neutron-star tidal disruption. Using analytical methods, we show that the scenario of slow (of the order of several seconds) neutron-star stripping by the black hole is also possible, depending on the system parameters (the initial masses and intrinsic angular momenta of the components, the equation of state for the neutron star). Reaching the lower mass limit (about one tenth of the solar mass), the neutron star explodes to produce a comparatively powerful electromagnetic transient. Our population calculations show that the stripping mechanism is possible in 50–90\(\%\) of the cases among all coalescing neutron star–black hole pairs, depending on the model assumptions about the evolution of close binary systems (the common-envelope efficiency parameter, the supernova explosion mechanism) and the initial metallicity of the stellar population. Because of the large mass of the ejected material, the kilonova emission in this scenario has good prospects of detection.

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与黑洞成对的近双星系统中中子星的剥离

摘要我们考虑了一对中子星-黑洞的最终演化阶段。根据目前的范式，这类系统最终会发生凝聚，在某些情况下伴随着中子星潮汐破坏。利用分析方法，我们证明了中子星被黑洞缓慢（几秒量级）剥离的情况也是可能的，这取决于系统参数（各组成部分的初始质量和本征角矩，中子星的状态方程）。达到质量下限（约为太阳质量的十分之一）时，中子星会发生爆炸，产生相对强大的电磁瞬变。我们的种群计算显示，在所有凝聚中子星-黑洞对中，剥离机制在50-90（\%\）的情况下是可能的，这取决于关于近双星系统演化的模型假设（共包效率参数、超新星爆炸机制）和恒星群的初始金属性。由于喷出物质的质量很大，这种情况下的千新星发射有很好的探测前景。

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

Astronomy Letters-A Journal of Astronomy and Space Astrophysics 地学天文-天文与天体物理

CiteScore

1.70

自引率

22.20%

发文量

审稿时长

6-12 weeks

期刊介绍： Astronomy Letters is an international peer reviewed journal that publishes the results of original research on all aspects of modern astronomy and astrophysics including high energy astrophysics, cosmology, space astronomy, theoretical astrophysics, radio astronomy, extragalactic astronomy, stellar astronomy, and investigation of the Solar system.