Black hole-neutron star binaries with high spins and large mass asymmetries: I. Properties of quasi-equilibrium sequences

arXiv - PHYS - General Relativity and Quantum Cosmology Pub Date : 2024-09-10 DOI:arxiv-2409.06767

Konrad Topolski, Samuel Tootle, Luciano Rezzolla

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引用次数: 0

Abstract

Black hole - neutron star (BHNS) mergers are a promising target of current gravitational-wave (GW) and electromagnetic (EM) searches, being the putative origin of ultra-relativistic jets, gamma-ray emission, and r-process nucleosynthesis. However, the possibility of any EM emission accompanying a GW detection crucially depends on the amount of baryonic mass left after the coalescence, i.e. whether the neutron star (NS) undergoes a `tidal disruption' or `plunges' into the black hole (BH) while remaining essentially intact. As the first of a series of two papers, we here report the most systematic investigation to date of quasi-equilibrium sequences of initial data across a range of stellar compactnesses $\mathcal{C}$, mass ratios $q$, BH spins $\chi_{_{\rm BH}}$, and equations of state satisfying all present observational constraints. Using an improved version of the elliptic initial-data solver FUKA, we have computed more than $1000$ individual configurations and estimated the onset of mass-shedding or the crossing of the innermost stable circular orbit in terms of the corresponding characteristic orbital angular velocities $\Omega_{_{\rm MS}}$ and $\Omega_{_{\rm ISCO}}$ as a function of $\mathcal{C}, q$, and $\chi_{_{\rm BH}}$. To the best of our knowledge, this is the first time that the dependence of these frequencies on the BH spin is investigated. In turn, by setting $\Omega_{_{\rm MS}} = \Omega_{_{\rm ISCO}}$ it is possible to determine the separatrix between the `tidal disruption' or `plunge' scenarios as a function of the fundamental parameters of these systems, namely, $q, \mathcal{C}$, and $\chi_{_{\rm BH}}$. Finally, we present a novel analysis of quantities related to the tidal forces in the initial data and discuss their dependence on spin and separation.

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具有高自旋和大质量不对称的黑洞-中子星双星：I. 准平衡序列的特性

黑洞-中子星（BHNS）合并是目前引力波（GW）和电磁波（EM）搜索的一个有希望的目标，是超相对论喷流、伽马射线发射和r过程核合成的推定起源。然而，伴随着GW探测的任何电磁发射的可能性关键取决于凝聚后剩余的重子质量，即中子星（NS）是经历了 "潮汐破坏 "还是 "坠落 "到黑洞（BH）中而基本上保持完好无损。作为两篇系列论文中的第一篇，我们在这里报告了迄今为止对一系列恒星紧密度$\mathcal{C}$、质量比$q$、黑洞自旋$\chi_{_\rm BH}}$以及满足所有目前观测约束条件的状态方程的准平衡序列初始数据进行的最系统的研究。使用改进版的椭圆初始数据求解器FUKA、我们计算了超过1000美元的单个构型，并根据相应的特征轨道角速度$\Omega_{_{/rm MS}}$和$\Omega_{_{/rm ISCO}}$作为$\mathcal{C}、q$和$\chi_{_{/rm BH}}$的函数，估算了质量脱落或穿越最内层稳定环轨的开始时间。据我们所知，这是第一次研究这些频率对BH自旋的依赖关系。反过来，通过设定 $\Omega_{_{\rmMS}} = \Omega_{_{\rm ISCO}}$，我们可以确定 "潮汐破坏 "和 "骤降 "两种情况之间的分离矩阵是这些系统的基本参数（即 $q、\mathcal{C}$ 和 $\chi_{_{/rm BH}}$）的函数。最后，我们对初始数据中与潮汐力相关的量进行了新的分析，并讨论了它们对自旋和分离的依赖性。

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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arXiv - PHYS - General Relativity and Quantum Cosmology

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