COSMOS-Web: Unraveling the Evolution of Galaxy Size and Related Properties at 2<z<10
Abstract
We measure galaxy sizes from 2 < z < 10 using COSMOS-Web, the largest-area JWST imaging survey to date, covering 0.54 deg2. We analyze the rest-frame optical (~5000A) size evolution and its scaling relation with stellar mass (Re M*α) for star-forming and quiescent galaxies. For star-forming galaxies, the slope α remains approximately 0.20 at 2 < z < 8, showing no significant evolution over this redshift range. At higher redshifts, the slopes are -0.13 0.15 and 0.37 0.36 for 8 < z < 9 and 9 < z < 10, respectively. At fixed galaxy mass, the size evolution for star-forming galaxies follows Re (1+z)-β, with β = 1.21 0.05. For quiescent galaxies, the slope is steeper α 0.5-0.8 at 2 < z < 5, and β=0.810.26. We find that the size-mass relation is consistent between UV and optical at z < 8 for star-forming galaxies. However, we observe a decrease in the slope from UV to optical at z > 8, with a tentative negative slope in the optical at 8 < z < 9, suggesting a complex interplay between intrinsic galaxy properties and observational effects such as dust attenuation. We discuss the ratio between galaxies' half-light radius, and underlying halos' virial radius, Rvir, and find the median value of Re/Rvir=2.7\%. The star formation rate surface density evolves as SFR = (0.200.08)\,z+(-0.650.51), and the SFR-M* relation remains flat at 2<z<10. Lastly, we identify a threshold in stellar mass surface density e9.5-10\, M/kpc2 marking the transition to compact, quenched galaxies from extended, star-forming progenitors. In summary, our findings show that the extensive COSMOS-Web dataset at z > 3 provides new insights into galaxy size and related properties in the rest-frame optical.
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