Quenching of Galaxies at Cosmic Noon: Understanding the Effect of Environment
Abstract
The aim of this study is to identify quiescent galaxies in the 2-deg2 COSMOS field at z 3.1 and analyze their environment. Using data from the ODIN survey and COSMOS2020 catalog, we identify 24 massive quiescent galaxies (MQGs) with stellar masses ≥ 1010.6 and derive their star formation histories and quenching timescales using SED fitting with BAGPIPES. Voronoi-based density maps trace local and large-scale environments using Lyman-α Emitters and photometric galaxies. Results indicate uniformly short quenching timescales (<500 Myr) independent of environmental density, suggesting rapid internal mechanisms such as AGN feedback dominate over environmental factors. MQGs do not correlate with protoclusters or filaments, although some are near gas-rich filaments but show no rejuvenation. These findings suggest quenching at high redshift is driven primarily by internal processes rather than environmental interactions.
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