Relativistic dynamics and extreme mass ratio inspirals

IF 26.3 2区 物理与天体物理 Q1 PHYSICS, PARTICLES & FIELDS
Pau Amaro-Seoane
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引用次数: 86

Abstract

It is now well-established that a dark, compact object, very likely a massive black hole (MBH) of around four million solar masses is lurking at the centre of the Milky Way. While a consensus is emerging about the origin and growth of supermassive black holes (with masses larger than a billion solar masses), MBHs with smaller masses, such as the one in our galactic centre, remain understudied and enigmatic. The key to understanding these holes—how some of them grow by orders of magnitude in mass—lies in understanding the dynamics of the stars in the galactic neighbourhood. Stars interact with the central MBH primarily through their gradual inspiral due to the emission of gravitational radiation. Also stars produce gases which will subsequently be accreted by the MBH through collisions and disruptions brought about by the strong central tidal field. Such processes can contribute significantly to the mass of the MBH and progress in understanding them requires theoretical work in preparation for future gravitational radiation millihertz missions and X-ray observatories. In particular, a unique probe of these regions is the gravitational radiation that is emitted by some compact stars very close to the black holes and which could be surveyed by a millihertz gravitational-wave interferometer scrutinizing the range of masses fundamental to understanding the origin and growth of supermassive black holes. By extracting the information carried by the gravitational radiation, we can determine the mass and spin of the central MBH with unprecedented precision and we can determine how the holes “eat” stars that happen to be near them.

Abstract Image

相对论动力学和极端质量比吸气
现在已经确定,银河系中心潜伏着一个黑暗、致密的物体,很可能是一个质量约为400万太阳质量的巨大黑洞(MBH)。虽然人们对超大质量黑洞(质量大于10亿个太阳质量)的起源和增长已经达成共识,但质量较小的黑洞,比如我们银河系中心的黑洞,仍然没有得到充分的研究,而且是个谜。了解这些黑洞的关键在于了解银河系附近恒星的动力学,了解其中一些黑洞的质量是如何以数量级增长的。恒星与中央MBH的相互作用主要是通过它们的逐渐吸入,这是由于引力辐射的发射。恒星也会产生气体,这些气体随后会被MBH通过碰撞和由强大的中心潮汐场带来的破坏而吸积。这些过程对MBH的质量有很大的贡献,理解它们的进展需要理论工作,为未来的引力辐射毫赫任务和x射线天文台做准备。特别地,对这些区域的一个独特探测是引力辐射,它是由一些非常接近黑洞的致密恒星发出的,可以通过毫赫引力波干涉仪进行测量,该干涉仪仔细检查质量范围,对理解超大质量黑洞的起源和生长至关重要。通过提取引力辐射所携带的信息,我们可以以前所未有的精度确定中心MBH的质量和旋转,我们可以确定黑洞是如何“吃掉”碰巧在它们附近的恒星的。
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来源期刊
Living Reviews in Relativity
Living Reviews in Relativity 物理-物理:粒子与场物理
CiteScore
69.90
自引率
0.70%
发文量
0
审稿时长
20 weeks
期刊介绍: Living Reviews in Relativity is a peer-reviewed, platinum open-access journal that publishes reviews of research across all areas of relativity. Directed towards the scientific community at or above the graduate-student level, articles are solicited from leading authorities and provide critical assessments of current research. They offer annotated insights into key literature and describe available resources, maintaining an up-to-date suite of high-quality reviews, thus embodying the "living" aspect of the journal's title. Serving as a valuable tool for the scientific community, Living Reviews in Relativity is often the first stop for researchers seeking information on current work in relativity. Written by experts, the reviews cite, explain, and assess the most relevant resources in a given field, evaluating existing work and suggesting areas for further research. Attracting readers from the entire relativity community, the journal is useful for graduate students conducting literature surveys, researchers seeking the latest results in unfamiliar fields, and lecturers in need of information and visual materials for presentations at all levels.
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