Probing modified Hawking evaporation with gravitational waves from the primordial black hole dominated universe

IF 5.3 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Shyam Balaji, Guillem Domènech, Gabriele Franciolini, Alexander Ganz and Jan Tränkle
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Abstract

It has been recently proposed that Hawking evaporation might slow down after a black hole has lost about half of its mass. Such an effect, called “memory burden”, is parameterized as a suppression in the mass loss rate by negative powers n of the black hole entropy and could considerably extend the lifetime of a black hole. We study the impact of memory burden on the Primordial Black Hole (PBH) reheating scenario. Modified PBH evaporation leads to a significantly longer PBH dominated stage. Requiring that PBHs evaporate prior enough to Big Bang Nucleosynthesis shrinks the allowed PBH mass range. Indeed, we find that for n > 2.5 the PBH reheating scenario is not viable. The frequency of the Gravitational Waves (GWs) induced by PBH number density fluctuations is bound to be larger than about a Hz, while the amplitude of the GW spectrum is enhanced due to the longer PBH dominated phase. Interestingly, we show that, in some models, the slope of the induced GW spectrum might be sensitive to the modifications to Hawking evaporation, proving it may be possible to test the “memory burden” effect via induced GWs. Lastly, we argue that our results could also apply to general modifications of Hawking evaporation.
用来自原始黑洞主导宇宙的引力波探测修正的霍金蒸发
最近有人提出,霍金蒸发可能会在黑洞失去大约一半质量后减慢。这种效应被称为 "记忆负担",其参数是黑洞熵的负幂次n对质量损失率的抑制,可以大大延长黑洞的寿命。我们研究了记忆负担对原始黑洞(PBH)再热情景的影响。修改后的 PBH 蒸发会导致 PBH 主导阶段明显延长。要求 PBH 在大爆炸核合成之前就蒸发,缩小了允许的 PBH 质量范围。事实上,我们发现当 n > 2.5 时,PBH 再加热方案是不可行的。由 PBH 数量密度波动诱发的引力波(GWs)的频率必然大于大约 1 赫兹,而由于 PBH 主导阶段较长,引力波频谱的振幅也会增强。有趣的是,我们发现在某些模型中,诱导 GW 频谱的斜率可能对霍金蒸发的修正很敏感,这证明通过诱导 GW 来检验 "记忆负担 "效应是可能的。最后,我们认为我们的结果也可能适用于对霍金蒸发的一般修改。
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来源期刊
Journal of Cosmology and Astroparticle Physics
Journal of Cosmology and Astroparticle Physics 地学天文-天文与天体物理
CiteScore
10.20
自引率
23.40%
发文量
632
审稿时长
1 months
期刊介绍: Journal of Cosmology and Astroparticle Physics (JCAP) encompasses theoretical, observational and experimental areas as well as computation and simulation. The journal covers the latest developments in the theory of all fundamental interactions and their cosmological implications (e.g. M-theory and cosmology, brane cosmology). JCAP''s coverage also includes topics such as formation, dynamics and clustering of galaxies, pre-galactic star formation, x-ray astronomy, radio astronomy, gravitational lensing, active galactic nuclei, intergalactic and interstellar matter.
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