超爱丁顿星系中心黑洞群的电磁特征

Leandro Abaroa, Gustavo E. Romero
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摘要

位于活动星系中心的超大质量黑洞(SMBHs)由从红外或光学波段辐射到X射线波段的增殖盘提供能量。这些黑洞预计会在SMBH周围形成一个星团,这是由于内银河区恒星形成率的提高和引力动力摩擦引起的黑洞迁移的结果。然而,除了偶发的背景恒星的微光效应或双BH合并产生的引力波之外,BH群的存在很难得到验证。在本文中,我们探讨了当中心 SMBH 的吸积速率大于爱丁顿速率时,探测中心 BH 星团电磁特征的可能性。在这些超临界系统中,吸积盘会发射强大的风,与围绕 SMBH 运行的物体相互作用。孤立的超大质量天体可以从这种高密度风中捕获物质,从而在其周围形成小型吸积盘。如果在这些 "单个 "微类星体中产生了喷流,它们就可能成为粒子加速到相对论能量的场所。这些粒子反过来又会通过各种辐射过程冷却。因此,SMBH 的风可能会通过产生热辐射和非热辐射来照亮 BHs。我们的结论是,在这种情况下,可以在附近的超埃丁通天星系中心用X射线(钱德拉和XMM-牛顿)和射电波长(例如,用甚大阵列和平方公里阵列)探测到孤立的BH群。
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Electromagnetic signatures of black hole clusters in the center of super-Eddington galaxies
Supermassive black holes (SMBHs) at the centers of active galaxies are fed by accretion disks that radiate from the infrared or optical to the X-ray bands. Several types of objects can orbit SMBHs, including massive stars, neutron stars, clouds from the broad- and narrow-line regions, and X-ray binaries. Isolated black holes with a stellar origin (BHs of $\sim10\,M_{\odot}$) should also be present in large numbers within the central parsec of the galaxies. These BHs are expected to form a cluster around the SMBH as a result of the enhanced star formation rate in the inner galactic region and the BH migration caused by gravitational dynamical friction. However, except for occasional microlensing effects on background stars or gravitational waves from binary BH mergers, the presence of a BH population is hard to verify. In this paper, we explore the possibility of detecting electromagnetic signatures of a central cluster of BHs when the accretion rate onto the central SMBH is greater than the Eddington rate. In these supercritical systems, the accretion disk launches powerful winds that interact with the objects orbiting the SMBH. Isolated BHs can capture matter from this dense wind, leading to the formation of small accretion disks around them. If jets are produced in these "single" microquasars, they could be sites of particle acceleration to relativistic energies. These particles in turn are expected to cool by various radiative processes. Therefore, the wind of the SMBH might illuminate the BHs through the production of both thermal and nonthermal radiation. We conclude that, under these circumstances, a cluster of isolated BHs could be detected at X-rays (with Chandra and XMM-Newton) and radio wavelengths (e.g., with the Very Large Array and the Square Kilometer Array) in the center of nearby super-Eddington galaxies.
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