Neutron Star Kicks plus Rockets as a Mechanism for Forming Wide Low-eccentricity Neutron Star Binaries

The Astrophysical Journal Letters Pub Date : 2024-08-29 DOI:10.3847/2041-8213/ad6e77
Ryosuke Hirai, 遼介 平井, Philipp Podsiadlowski, Alexander Heger, Hiroki Nagakura and 洋樹 長倉
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Abstract

Recent neutron star surface observations corroborate a long-standing theory that neutron stars may be accelerated over extended periods after their birth. We analyze how these prolonged rocket-like accelerations, combined with rapid birth kicks, impact binary orbits. We find that even a small contribution of rocket kicks combined with instantaneous natal kicks can allow binaries to reach period–eccentricity combinations unattainable in standard binary evolution models. We propose these kick + rocket combinations as a new channel to form wide low-eccentricity neutron star binaries such as Gaia NS1, as well as inducing stellar mergers months to years after a supernova to cause peculiar high-energy transients.
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中子星 "踢腿 "加 "火箭 "作为形成宽大的低偏心率中子星双星的机制
最近对中子星表面的观测证实了一个由来已久的理论,即中子星在诞生后可能会被长时间加速。我们分析了这些长时间火箭般的加速与快速的诞生踢相结合是如何影响双星轨道的。我们发现,即使是很小的火箭加速与瞬时诞生踢相结合,也能使双星达到标准双星演化模型无法达到的周期-同心度组合。我们建议将这些 "踢 "+"火箭 "组合作为一种新的渠道,以形成宽大的低同心度中子星双星,如 Gaia NS1,以及在超新星发生后数月至数年内诱导恒星合并,从而导致奇特的高能瞬变。
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The Astrophysical Journal Letters
The Astrophysical Journal Letters
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