Unveiling the Central Engine of Core-collapse Supernovae in the Local Universe: Neutron Star or Black Hole?

The Astrophysical Journal Letters Pub Date : 2024-09-05 DOI:10.3847/2041-8213/ad710f

Maurice H. P. M. van Putten, Maryam Aghaei Abchouyeh and Massimo Della Valle

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Abstract

The physical trigger powering supernovae following the core collapse of massive stars is believed to involve a neutron star (NS) or a black hole (BH), depending largely on progenitor mass. A potentially distinct signature is long-duration gravitational-wave (GW) bursts from BH central engines by their ample energy reservoir EJ in angular momentum, far more so than an NS can provide. A natural catalyst for this radiation is surrounding high-density matter in the form of a nonaxisymmetric disk or torus. Here, we derive a detailed prospect on LIGO–Virgo–KAGRA probes of core-collapse supernovae during the present observational run O4 based on their event rate, an association with normal long gamma-ray bursts (GRBs) and mass scaling of GW170817B/GRB170817A. For BH central engines of mass M, GW170817B predicts a descending GW chirp of energy at frequency , where M0 ≃ 2.8 M⊙. For a few tens of events per year well into the Local Universe within 50–100 Mpc, probes at the detector-limited sensitivity are expected to break the degeneracy between their NS or BH central engines by GW calorimetry.

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揭开局域宇宙中核心坍缩超新星的中心引擎：中子星还是黑洞？

大质量恒星核心坍缩后引发超新星的物理触发器被认为涉及中子星（NS）或黑洞（BH），这主要取决于原生体的质量。一个潜在的明显特征是来自 BH 中心引擎的长时间引力波（GW）爆发，它们拥有充足的角动量 EJ 能量储备，远远超过 NS 所能提供的能量。这种辐射的天然催化剂是周围非轴对称圆盘或环状的高密度物质。在这里，我们根据 GW170817B/GRB170817A 的事件发生率、与正常长伽马射线暴（GRBs）的关联和质量缩放，得出了 LIGO-Virgo-KAGRA 在当前观测运行 O4 期间对核心坍缩超新星探测的详细前景。对于质量为 M 的 BH 中心引擎，GW170817B 预测在频率为，M0 ≃ 2.8 M⊙的情况下会出现能量下降的 GW chirp。对于本地宇宙 50-100 Mpc 范围内每年发生的几十个事件，探测器灵敏度达到极限的探测器有望通过 GW 热量测定法打破其 NS 或 BH 中心引擎之间的退行性。

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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The Astrophysical Journal Letters

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