Affiliation: FIU Miami

Contribution: Oral

Title: Galaxy Quenching at the High-z Frontier with JWST-CEERS

Abstract: In the local Universe there is distinct bimodality observed in galaxy properties, such that most local systems are either actively star forming or non-star forming (quenched). Quenched galaxies are observed up to the first Gyr in the Universes history in unprecedented JWST observations. In this talk we identify the key testable predictions from AGN feedback driven quenching from contemporary cosmological models (e.g., EAGLE & IllustrisTNG). We then test these predictions across cosmic time with the SDSS (at z~0), HST-CANDELS (at z~0.5-2), and JWST-CEERS (at z~2-8). Simulations predict that AGN feedback driven quenching will ultimately depend on the supermassive black hole (SMBH) mass, with little dependence on accretion rate or AGN luminosity. This has profound implications for the empirical study of quenching at all epochs. In lieu of dynamical measurements of SMBH masses for large statistical samples, the models predict that the galaxy stellar potential should appear as the key driver of quiescence in machine learning classification analyses, which carefully remove spurious inter-correlations between galaxy properties. This prediction is met precisely across 13 Gyrs of cosmic history (from z =0-8). Hence, we conclude that AGN feedback has likely been quenching star formation in massive galaxies since the first Gyr of the Universes history.

This contribution can be found here (pdf).