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The impact of black hole seeding in cosmological simulations

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Authors

Wang, Ella
Taylor, Philip
Federrath, Christoph
Kobayashi, Chiaki

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Blackwell Publishing Ltd

Abstract

Most cosmological simulations of galaxy evolution include active galactic nucleus (AGN) feedback, typically seeding black holes with masses of ≥105h−1M⊙ when the dark matter halo exceeds a given threshold mass. Taylor & Kobayashi introduced a new model, which seeds black holes at 103h−1M⊙ based on gas properties alone, and motivated by the channel of black hole formation due to the collapse of the most massive first stars in the Universe. We compare the black hole mass when the dark matter halo mass is 1010h−1M⊙ between the different seeding methods. We find that seeding based upon gas properties gives a distribution of black hole masses with ⟨logMBH/M⊙⟩=(5.18±0.54) when dark matter halo mass is 1010h−1M⊙⁠, consistent with the seeding criteria used in other simulations. However, the evolution of individual galaxies can be strongly affected by the different seeding mechanisms. We also find that the mean value of the distribution of black hole masses at a given halo mass evolves over time, with higher masses at higher redshifts, indicative of downsizing. Our results can inform more physically motivated black hole and AGN feedback models in cosmological simulations and semi-analytic models

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Monthly Notices of the Royal Astronomical Society

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Open Access

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