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Ward, S. R.; Harrison, C. M.; Costa, T. und Mainieri, V (2022): Cosmological simulations predict that AGN preferentially live in gas-rich, star-forming galaxies despite effective feedback. In: Monthly Notices of the Royal Astronomical Society, Bd. 514, Nr. 2: S. 2936-2957

Volltext auf 'Open Access LMU' nicht verfügbar.

Abstract

Negative feedback from active galactic nuclei (AGN) is the leading mechanism for the quenching of massive galaxies in the vast majority of modern galaxy evolution models. However, direct observational evidence that AGN feedback causes quenching on a population scale is lacking. Studies have shown that luminous AGN are preferentially located in gas-rich and star-forming galaxies, an observation that has sometimes been suggested to be in tension with a negative AGN feedback picture. We investigate three of the current cosmological simulations (IllustrisTNG, EAGLE, and SIMBA) along with post-processed models for molecular hydrogen gas masses and perform similar tests to those used by observers. We find that the simulations predict: (i) no strong negative trends between L-bol and f(H2) or specific star formation rate (sSFR);(ii) both high-luminosity (L-bol >= 10(44) erg s(-1)) and high Eddington ratio (lambda(Edd) >= 1 per cent) AGN are preferentially located in galaxies with high molecular gas fractions and sSFR;and (iii) that the gas-depleted and quenched fractions of AGN host galaxies are lower than a control sample of non-active galaxies. These three findings are in qualitative agreement with observational samples at z = 0 and z = 2 and show that such results are not in tension with the presence of strong AGN feedback, which all simulations we employ require to produce realistic massive galaxies. However, we also find quantifiable differences between predictions from the simulations, which could allow us to observationally test the different subgrid feedback models.

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