Supermassive primordial black holes for nano-Hertz gravitational waves and high-redshift JWST galaxies

Research in Astronomy and Astrophysics Pub Date : 2024-07-27 DOI:10.1088/1674-4527/ad683d
Hai-Long Huang, Yong Cai, Jun-Qian Jiang, Jun Zhang, Yun-song Piao
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Abstract

Recently, observational hints for supermassive black holes have been accumulating, prompting the question: Can primordial black holes (PBHs) be supermassive, particularly with masses $M\gtrsim 10^{9}M_\odot$? A supercritical bubble, containing an inflating baby universe, that nucleated during inflation can evolve into a PBH in our observable Universe. We find that when the inflaton slowly transitions past a neighboring vacuum, the nucleation rate of supercritical bubbles inevitably peaks, leading to a mass distribution of multiverse PBHs with a peak mass up to $M\gtrsim 10^{11}M_\odot$. Thus, our mechanism naturally provides a primordial origin for supermassive black holes.
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纳赫兹引力波和高红移 JWST 星系的超大质量原始黑洞
最近,有关超大质量黑洞的观测提示不断积累,从而引发了一个问题:原始黑洞(PBHs)会是超大质量的吗?原始黑洞(PBHs)会是超大质量的吗,尤其是质量为 $M\gtrsim 10^{9}M_\odot$ 的黑洞?在我们可观测的宇宙中,一个包含着正在膨胀的婴儿宇宙的超临界气泡可以演化成一个原始黑洞。我们发现,当膨胀子缓慢地过渡到邻近真空时,超临界气泡的成核率不可避免地达到峰值,从而导致峰值质量高达 $M\gtrsim 10^{11}M_\odot$ 的多元宇宙 PBH 的质量分布。因此,我们的机制自然为超大质量黑洞提供了原始起源。
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Research in Astronomy and Astrophysics
Research in Astronomy and Astrophysics
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