Gravitational Wave Memory Imprints on the CMB from Populations of Massive Black Hole Mergers

Abstract

Aims: To showcase and characterise the rich phenomenology of temperature fluctuation patterns that are imprinted on the CMB by the gravitational wave memory (GWM) of massive black hole (BH) mergers. Methods: We analyse both individual binaries as well as populations of binaries, distributed in local cosmological boxes at a given redshift. Results: The magnitude of the temperature fluctuations scales primarily as a function of binary total mass and pattern angular scale, and accumulates as a random-walk process when populations of mergers are considered. Fluctuations of order 10-10 K are easily reached across scales of 1' to 1 for realistic volumetric merger rates of 10-3 Mpc-3 Gyr-1, as appropriate for massive galaxies at z=1. We determine numerically that GWM temperature fluctuations result in a universal power spectrum with a scaling of P(k) k-2.7. Conclusion: While not detectable given the limitations of current all-sky CMB surveys, our work explicitly shows how every black hole merger in the Universe left us its unique faint signature.

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