kpc以下尺度的燃料过程

IF 3.2 Q2 ASTRONOMY & ASTROPHYSICS Galaxies Pub Date : 2023-11-06 DOI:10.3390/galaxies11060120
F. Combes
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引用次数: 0

摘要

自 20 世纪 70 年代以来,天文学家一直在苦苦思索如何增殖物质以促进黑洞生长的问题。虽然低角动量恒星可能会被黑洞吞噬,但它们并不是可持续的燃料来源。气体有可能提供丰富的燃料来源,但由于其巨大的角动量,它也面临着另一个挑战。虽然粘滞力矩并不显著,但气体会受到非轴对称势能(如条状和螺旋状)产生的重力力矩的影响。原生条带可以与冠层内的气体交换角动量,导致气体向内螺旋,直至达到内部林德布拉德共振。然后,内嵌的核棒就会接替它。当气体到达黑洞的影响范围时,扭矩就会变成负值,为中心提供动力。动力摩擦也会加速气体云向更靠近核的方向下坠。然而,由于爱丁顿极限的存在,从恒星质量的种子生长出黑洞是一个缓慢的过程。早期宇宙中是否存在超大质量黑洞仍然是一个谜题,有可能通过大质量云直接坍缩成黑洞或超爱丁顿吸积来解决。
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Fueling Processes on (Sub-)kpc Scales
Since the 1970s, astronomers have struggled with the issue of how matter can be accreted to promote black-hole growth. While low-angular-momentum stars may be devoured by a black hole, they are not a sustainable source of fuel. Gas, which could potentially provide an abundant fuel source, presents another challenge due to its enormous angular momentum. While viscous torques are not significant, gas is subject to gravity torques from non-axisymmetric potentials such as bars and spirals. Primary bars can exchange angular momentum with the gas within corotation, causing it to spiral inwards until reaching the inner Lindblad resonance. An embedded nuclear bar can then take over. As the gas reaches the black hole’s sphere of influence, the torque becomes negative, fueling the center. Dynamical friction also accelerates the infall of gas clouds closer to the nucleus. However, because of the Eddington limit, growing a black hole from a stellar-mass seed is a slow process. The existence of very massive black holes in the early universe remains a puzzle that could potentially be solved through direct collapse of massive clouds into black holes or super-Eddington accretion.
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来源期刊
Galaxies
Galaxies Physics and Astronomy-Astronomy and Astrophysics
CiteScore
4.90
自引率
12.00%
发文量
100
审稿时长
11 weeks
期刊介绍: Es una revista internacional de acceso abierto revisada por pares que proporciona un foro avanzado para estudios relacionados con astronomía, astrofísica y cosmología. Areas temáticas Astronomía Astrofísica Cosmología Astronomía observacional: radio, infrarrojo, óptico, rayos X, neutrino, etc. Ciencia planetaria Equipos y tecnologías de astronomía. Ingeniería Aeroespacial Análisis de datos astronómicos. Astroquímica y Astrobiología. Arqueoastronomía Historia de la astronomía y cosmología. Problemas filosóficos en cosmología.
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