COSMOS-Web: Galaxy Size and Surface Brightness Evolution at Rest-Frame 1.22 μm Since z=3

Abstract

We present the evolution of galaxy size and surface brightness in the rest-frame J band (1.22 μm), tracing the stellar mass distribution, over 0.5 ≤ z ≤ 3, using a sample of 15,420 galaxies with stellar masses M=1010-1011.5\ M from the JWST COSMOS-Web survey. The rest-frame J-band effective radius (Re,J) is obtained from previous measurements and mapped from the available JWST/NIRCam filters, while the surface brightness (μJ) is corrected for dust extinction and cosmological dimming. At a characteristic mass of M = 5 × 1010\ M, star-forming galaxies exhibit a size evolution of Re,J (1+z)β with β= -0.92 0.04, falling between previously reported shallower and steeper measurements. Quiescent galaxies evolve more rapidly, with β= -1.34 0.05, consistent with earlier studies. Among star-forming galaxies, lower-mass systems (1010 to 1010.5\ M) show slower (β=-0.660.02) size evolution compared to their higher-mass counterparts. Furthermore, the surface brightness brightens toward higher redshifts, scaling as μJ -2.5 (1+z)γ. We find γ= 3.07 0.08 for star-forming galaxies and γ= 3.70 0.08 for quiescent galaxies. We also find that massive star-forming galaxies (M > 1010.5\ M) exhibit similar μJ values at fixed redshift, independent of mass. Finally, we demonstrate that the observed surface brightness evolution is driven by the combined evolution of galaxy luminosity and size.