Spins of Primordial Black Holes Formed in the Radiation-dominated Phase of the Universe: First-order Effect

The standard deviation of the initial values of the nondimensional Kerr parameter a* of primordial black holes (PBHs) that formed in the radiation-dominated phase of the universe is estimated to the first order of perturbation for the narrow power spectrum. Evaluating the angular momentum at turnaro...

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Veröffentlicht in:The Astrophysical journal 2021-02, Vol.908 (2), p.140
Hauptverfasser: Harada, Tomohiro, Yoo, Chul-Moon, Kohri, Kazunori, Koga, Yasutaka, Monobe, Takeru
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Sprache:eng
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Zusammenfassung:The standard deviation of the initial values of the nondimensional Kerr parameter a* of primordial black holes (PBHs) that formed in the radiation-dominated phase of the universe is estimated to the first order of perturbation for the narrow power spectrum. Evaluating the angular momentum at turnaround based on linearly extrapolated transfer functions and peak theory, we obtain the expression 〈 a * 2 〉 4.0 × 10 − 3 M M H − 1 3 1 − γ 2 1 − 0.072 log 10 ( β 0 ( M H ) ( 1.3 × 10 − 15 ) ) − 1 , where MH, β0(MH), and γ are the mass within the Hubble horizon at the horizon entry of the overdense region, the fraction of the universe which collapsed to PBHs at the scale of MH, and a quantity that characterizes the width of the power spectrum, respectively. This implies that for M MH, the higher the probability of the PBH formation, the larger the standard deviation of the spins, while PBHs of M < MH that formed through near-critical collapse may have larger spins than those of M MH. In comparison to the previous estimate, the new estimate has an explicit dependence on the ratio M/MH and no direct dependence on the current dark matter density. On the other hand, it suggests that the first-order effect can be numerically comparable to the second-order one.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/abd9b9