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| Main Authors: | , , , , , , , , |
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| Format: | Preprint |
| Published: |
2024
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2409.16347 |
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Table of Contents:
- We infer supermassive black hole (SMBH) accretion rates and Eddington ratios as a function of SMBH/host galaxy mass and redshift with the empirical TRINITY model of dark matter halo--galaxy--SMBH connection. The galaxy--SMBH mass and growth rate connection from TRINITY matches galaxy observables from $0<z<13$ and SMBH observables from $0<z<6.5$. Key findings include: 1) the ratio between cosmic SMBH accretion rate and galaxy star formation rate stays constant at $\sim 2\times 10^{-3}$ from $z=0-4$, and decreases by 2 orders of magnitude from $z=4-10$; 2) the average SMBH Eddington ratio $\overlineη$ increases towards higher redshifts, nearly reaching $\overlineη=1$ at $z\sim 10$; 3) at fixed redshift for $z<3$, SMBHs/galaxies with higher masses have lower $\overlineη$, consistent with AGN downsizing; 4) the average ratio of specific SMBH accretion rate ($\overline{\mathrm{SBHAR}}$) to average specific star formation rate ($\overline{\mathrm{SSFR}}$) is nearly mass-independent, with a value $\overline{\mathrm{SBHAR}}/\overline{\mathrm{SSFR}}\sim 1$, which decreases slightly from $z=10$ to $z=0$; 5) similar to galaxies, SMBHs reach their peak efficiency to convert baryons into mass when host halos reach $10^{12} M_\odot$; 6) given galaxy and SMBH growth histories from TRINITY, the local descendants of $1<z<11$ overmassive JWST AGNs will remain outliers from the local SMBH mass--galaxy mass relation. These findings combine to give a simple explanation for massive ($10^9-10^{10}M_\odot$) quasars at $z>6$: at these redshifts, dark matter halos grow with an $e$-folding time of $\sim 45$ Myrs, driving similar growth rates in both galaxies and SMBHs.