Author:
Kasai Kentaro,Kawasaki Masahiro,Kitajima Naoya,Murai Kai,Neda Shunsuke,Takahashi Fuminobu
Abstract
Abstract
We study the clustering of primordial black holes (PBHs) and axion miniclusters produced
in the model proposed to explain the LIGO/Virgo events or the seeds of the supermassive black
holes (SMBHs) in ref. [1]. It is found that this model predicts large
isocurvature perturbations due to the clustering of PBHs and axion miniclusters, from which we
obtain stringent constraints on the model parameters. Specifically, for the axion decay constant
fa
= 1016 GeV, which potentially accounts for the seeds of the SMBHs, the PBH
fraction in dark matter should be f
PBH ≲ 7 × 10-10. Assuming that the
mass of PBHs increases by more than a factor of 𝒪(10) due to accretion, this is
consistent with the observed abundance of SMBHs. On the other hand, for
fa
= 1017 GeV required to produce PBHs of masses detected in the LIGO/Virgo, the PBH
fraction should be f
PBH ≲ 6 × 10-8, which may be too small to explain the
LIGO/Virgo events, although there is a significant uncertainty in calculating the merger rate in
the presence of clustering.
Subject
Astronomy and Astrophysics
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