Stellar Black Holes Can “Stretch” Supermassive Black Hole Accretion Disks

The Astrophysical Journal Letters Pub Date : 2024-04-11 DOI:10.3847/2041-8213/ad3c3f

Shuying Zhou, M. Sun, Tong Liu, Jian-Min Wang, Jun-Xian Wang, Yongquan Xue

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引用次数: 1

Abstract

Stellar black holes (sBHs) are widely believed to exist in the accretion disks of active galactic nuclei (AGNs). Previous studies often focus on the transient emission produced by embedded sBHs. Here, we explore the possible observational consequences of an AGN accretion disk that contains a population of accreting sBHs. Embedded accreting sBHs change the effective temperature distribution of the AGN accretion disk by heating gas in the outer regions. Two possible observational consequences are presented. First, the spectral energy distribution has a turnover feature at ∼4700 Å when the supermassive black hole mass is ∼108 M ⊙, which can help explain the observed shallow spectral shape at wavelengths >5000 Å for the Sloan Digital Sky Survey quasar composite spectrum. Second, the half-light radius of a given relatively long wavelength is significantly larger than for an AGN disk without sBHs, which can be tested by microlensing observations. With appropriate sBH distributions, the model can be reconciled with quasar microlensing disk sizes. We propose that the half-light radius–wavelength relation can be utilized to investigate the distributions of embedded sBHs in AGN accretion disks.

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恒星黑洞能 "拉伸 "超大质量黑洞吸积盘

人们普遍认为恒星黑洞（sBHs）存在于活动星系核（AGNs）的吸积盘中。以往的研究通常集中于嵌入的恒星黑洞产生的瞬态发射。在这里，我们将探讨一个包含吸积sBHs群体的AGN吸积盘可能产生的观测结果。嵌入式吸积sBH通过加热外部区域的气体，改变了AGN吸积盘的有效温度分布。本文介绍了两种可能的观测结果。首先，当超大质量黑洞质量为 ∼108 M ⊙ 时，光谱能量分布在 ∼4700 Å 处有一个翻转特征，这有助于解释斯隆数字巡天类星体复合光谱在波长 >5000 Å 处观测到的浅光谱形状。其次，特定相对较长波长的半光半径要比没有sBHs的AGN盘大很多，这可以通过微透镜观测来检验。有了适当的sBH分布，该模型就能与类星体微透镜盘的大小相协调。我们建议利用半光速半径-波长关系来研究 AGN 吸积盘中嵌入的 sBH 的分布。

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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