Journal
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
Volume 493, Issue 2, Pages 1888-1906Publisher
OXFORD UNIV PRESS
DOI: 10.1093/mnras/staa374
Keywords
galaxies: evolution; galaxies: general; galaxies: star formation
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Funding
- National Science Foundation Graduate Research Fellowship [DGE1256260]
- Simons Foundation
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Supermassive black hole feedback is thought to be responsible for the lack of star formation, or quiescence, in a significant fraction of galaxies. We explore how observable correlations between the specific star formation rate (sSFR), stellar mass (M-star), and black hole mass (M-BH) are sensitive to the physics of black hole feedback in a galaxy formation model. We use the Illusiris'ING simulation suite, specifically the TNG100 simulation and 10 model variations that alter the parameters of the black hole model. Focusing on central galaxies at z = 0 with M-star > 10(10) M-circle dot, we find that the sSFR of galaxies in IllustrisTNG decreases once the energy from black hole kinetic winds at low accretion rates becomes larger than the gravitational binding energy of gas within the galaxy stellar radius. This occurs at a particular M-BH threshold above which galaxies are found to sharply transition from being mostly star forming to mostly quiescent. As a result of this behaviour, the fraction of quiescent galaxies as a function of M-star is sensitive to both the normalization of the M-BH-M-star relation and the M-BH threshold for quiescence in IllustrisTNG. Finally, we compare these model results to observations of 91 central galaxies with dynamical M-BH measurements with the caveat that this sample is not representative of the whole galaxy population. While IllustrisTNG reproduces the observed trend that quiescent galaxies host more massive black holes, the observations exhibit a broader scatter in M-BH at a given M-star and show a smoother decline in sSFR with M-BH.
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