Bulletin of the American Physical Society
APS April Meeting 2022
Volume 67, Number 6
Saturday–Tuesday, April 9–12, 2022; New York
Session H03: Primordial Black HolesInvited Live Streamed
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Sponsoring Units: DAP DGRAV Chair: Emanuele Berti, Johns Hopkins University Room: Salon 1 |
Sunday, April 10, 2022 10:45AM - 11:21AM |
H03.00001: Primordial black holes in the era of gravitational-wave astronomy Invited Speaker: Mairi Sakellariadou Primordial black holes (PBHs), one of the oldest and least speculative candidates for the elusive dark matter, attracted a renewed interest recently as various studies investigate whether the LIGO/Virgo interferometers has observed the fraction of the dark matter comprised of PBHs. To address correctly this question one must consider a realistic description of primordial black holes that incorporates the effects of cosmological expansion prior to the PBH decoupling from the Hubble flow. Adopting the Thakurta metric, as a more adequate description of PBHs in the early universe, we argue that the merger rate constraints on the abundance of dark matter PBHs are evaded entirely, hence reopening the possibility of LIGO mass PBH dark matter. |
Sunday, April 10, 2022 11:21AM - 11:57AM |
H03.00002: New Perspectives on Primordial Black Hole Contributions to Dark Matter Invited Speaker: Joseph Silk Cold dark matter, including a component of primordial black holes (PBHs), accumulates at early epochs in density spikes around growing supermassive black holes. The deflection of light by PBHs in the spike, in combination with the high angular resolution achieved by EHT observations of M87, allows strong limits to be set on the fractional contribution of subsolar mass PBHs to dark matter. |
Sunday, April 10, 2022 11:57AM - 12:33PM |
H03.00003: Primordial Black Holes and Gravitational Wave Observations Invited Speaker: Gabriele Franciolini Primordial Black Holes might comprise a significant fraction of dark matter in the Universe and can give rise to observable signatures at current and future gravitational wave experiments. First, we review the PBH model and discuss how accretion and clustering may affect the properties of PBH binaries. Second, we confront the PBH model with LIGO/Virgo data showing its upsides and shortcomings, by also including state-of-the-art astrophysical models in a multi-population inference. Finally, we discuss how 3G detectors, such as Einstein Telescope and Cosmic Explorer, may be able to discover a PBH population by searching for high redshift merger events. |
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