B.J. Carr , S. Clesse , J. García-Bellido , M.R.S. Hawkins , F. Kühnel
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More generally, providing the mass and dark matter fraction of the PBHs is large enough, the associated Poisson fluctuations could generate the first bound objects at a much earlier epoch than in the standard cosmological scenario. This simultaneously explains the recent detection of high-redshift dwarf galaxies, puzzling correlations of the source-subtracted infrared and X-ray cosmic backgrounds, the size and the mass-to-light ratios of ultra-faint-dwarf galaxies, the dynamical heating of the Galactic disc, and the binary coalescences observed by LIGO/Virgo/KAGRA in a mass range not usually associated with stellar remnants. Even if PBHs provide only a small fraction of the dark matter, they could explain various other observational conundra, and sufficiently large ones could seed the supermassive black holes in galactic nuclei or even early galaxies themselves. 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引用次数: 0
摘要
我们根据来自各种透镜效应、动力学效应、吸积效应和引力波效应的观测证据,回顾了有关原始黑洞(PBHs)的大量论据。这代表了对通常强调的原始黑洞约束的一种转变,并提供了我们称之为实证主义的视角。对恒星和类星体的微透镜观测表明,1M⊙左右的PBH可以提供星系晕中的大部分暗物质,如果PBH具有扩展的质量函数,大麦哲伦云的微透镜观测也允许这样做。更一般地说,只要PBHs的质量和暗物质部分足够大,相关的泊松波动就可以在比标准宇宙学假设更早的时间产生第一个束缚天体。这同时也解释了最近探测到的高红移矮星系、源折减红外和 X 射线宇宙背景的令人费解的相关性、超淡矮星系的大小和质量光比、银河系盘的动态加热,以及 LIGO/Virgo/KAGRA 在通常与恒星残余物无关的质量范围内观测到的双星凝聚现象。即使PBH只提供了暗物质的一小部分,它们也可以解释其他各种观测难题,足够大的PBH可以为星系核甚至早期星系本身的超大质量黑洞提供种子。我们认为,当声速不可避免地下降时,PBH 会在电弱、量子色动力学和电子-正电子湮灭时代前后自然形成。这将导致一个扩展的PBH质量函数,其中有许多明显的凸起,最突出的凸起在1M⊙左右,这将使PBH能够以统一的方式解释许多观测结果。
Observational evidence for primordial black holes: A positivist perspective
We review numerous arguments for primordial black holes (PBHs) based on observational evidence from a variety of lensing, dynamical, accretion and gravitational-wave effects. This represents a shift from the usual emphasis on PBH constraints and provides what we term a positivist perspective. Microlensing observations of stars and quasars suggest that PBHs of around could provide much of the dark matter in galactic halos, this being allowed by the Large Magellanic Cloud microlensing observations if the PBHs have an extended mass function. More generally, providing the mass and dark matter fraction of the PBHs is large enough, the associated Poisson fluctuations could generate the first bound objects at a much earlier epoch than in the standard cosmological scenario. This simultaneously explains the recent detection of high-redshift dwarf galaxies, puzzling correlations of the source-subtracted infrared and X-ray cosmic backgrounds, the size and the mass-to-light ratios of ultra-faint-dwarf galaxies, the dynamical heating of the Galactic disc, and the binary coalescences observed by LIGO/Virgo/KAGRA in a mass range not usually associated with stellar remnants. Even if PBHs provide only a small fraction of the dark matter, they could explain various other observational conundra, and sufficiently large ones could seed the supermassive black holes in galactic nuclei or even early galaxies themselves. We argue that PBHs would naturally have formed around the electroweak, quantum chromodynamics and electron–positron annihilation epochs, when the sound-speed inevitably dips. This leads to an extended PBH mass function with a number of distinct bumps, the most prominent one being at around , and this would allow PBHs to explain many of the observations in a unified way.
期刊介绍:
Physics Reports keeps the active physicist up-to-date on developments in a wide range of topics by publishing timely reviews which are more extensive than just literature surveys but normally less than a full monograph. Each report deals with one specific subject and is generally published in a separate volume. These reviews are specialist in nature but contain enough introductory material to make the main points intelligible to a non-specialist. The reader will not only be able to distinguish important developments and trends in physics but will also find a sufficient number of references to the original literature.