Tidal disruption events from three-body scatterings and eccentricity pumping in the disks of active galactic nuclei

Monthly Notices of the Royal Astronomical Society Pub Date : 2024-05-15 DOI:10.1093/mnras/stae1263

Chaitanya Prasad, Yihan Wang, Rosalba Perna, K. Ford, B. McKernan

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Abstract

Tidal Disruption Events (TDEs) are routinely observed in quiescent galaxies, as stars from the nuclear star cluster are scattered into the loss cone of the central supermassive black hole (SMBH). TDEs are also expected to occur in Active Galactic Nuclei (AGN), due to scattering or orbital eccentricity pumping of stars embedded in the innermost regions of the AGN accretion disk. Encounters with embedded stellar-mass black holes (BH) can result in AGN μTDEs. AGN TDEs and μTDEs could therefore account for a fraction of observed AGN variability. Here, by performing scattering experiments with the few-body code SpaceHub, we compute the probability of AGN TDEs and μTDEs as a result of 3-body interactions between stars and binary BHs. We find that AGN TDEs are more probable during the early life of the AGNs, when rates are $\sim (6\times 10^{-5}-5 \times 10^{-2}) (f_\bullet /0.01)\, \rm {AGN}^{-1}$ yr−1 (where f• is the ratio between the number density of BHs and stars), generally higher than in quiescent galactic nuclei. By contrast, μTDEs should occur throughout the AGN lifetime at a rate of $\sim (1\times 10^{-4} - 4\times 10^{-2})(f_\bullet /0.01)\, \rm {AGN}^{-1}$ yr−1. Detection and characterization of AGN TDEs and μ AGN TDEs with future surveys using Rubin and Roman will help constrain the populations of stars and compact objects embedded in AGN disks, a key input for the LVK AGN channel.

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活动星系核盘中的三体散射和偏心泵产生的潮汐破坏事件

静态星系中经常观测到潮汐扰动事件（TDEs），这是因为核星团中的恒星被散射到中央超大质量黑洞（SMBH）的损耗锥中。在活动星系核（AGN）中，由于嵌入AGN吸积盘最内侧区域的恒星发生散射或轨道偏心泵，预计也会出现TDEs。与嵌入的恒星质量黑洞（BH）相遇会导致AGN μTDEs。因此，AGN TDEs 和 μTDEs 可能是观测到的 AGN 变异性的一部分原因。在这里，我们用少体代码 SpaceHub 进行散射实验，计算了恒星和双 BH 之间的三体相互作用导致 AGN TDEs 和 μTDEs 的概率。我们发现，AGN TDEs在AGN的早期生命中更有可能发生，此时的速率为$\sim (6\times 10^{-5}-5 \times 10^{-2}) (f_\bullet /0.01)\, \rm {AGN}^{-1}$ yr-1（其中f-是BHs和恒星数量密度之比），通常高于静态星系核。相比之下，μTDEs应该在AGN的整个生命周期中以$/sim (1/times 10^{-4} - 4/times 10^{-2})(f_\bullet /0.01)/\, \rm {AGN}^{-1}$ yr-1的速率发生。未来利用Rubin和Roman巡天对AGN TDEs和μ AGN TDEs进行探测和定性，将有助于约束嵌入AGN盘的恒星和紧凑天体的种群，这是LVK AGN频道的一个关键输入。

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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Monthly Notices of the Royal Astronomical Society

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