Stellar Half-Mass Radii of 0.5<z<2.3 Galaxies: Comparison with JWST/NIRCam Half-Light Radii

Abstract

We use CEERS JWST/NIRCam imaging to measure rest-frame near-IR light profiles of >500 M>1010~M galaxies in the redshift range 0.5<z<2.3. We compare the resulting rest-frame 1.5-2μm half-light radii (RNIR) with stellar half-mass radii () derived with multi-color light profiles from CANDELS HST imaging. In general agreement with previous work, we find that RNIR and ~are up to 40\%~smaller than the rest-frame optical half-light radius Ropt. The agreement between RNIR and ~is excellent, with negligible systematic offset (<0.03 dex) up to z=2 for quiescent galaxies and up to z=1.5 for star-forming galaxies. We also deproject the profiles to estimate , the radius of a sphere containing 50\% of the stellar mass. We present the R-M distribution of galaxies at 0.5<z<1.5, comparing Ropt, ~and . The slope is significantly flatter for ~and ~ compared to Ropt, mostly due to downward shifts in size for massive star-forming galaxies, while ~and ~do not show markedly different trends. Finally, we show rapid size evolution (R (1+z)-1.70.1) for massive (M>1011~M) quiescent galaxies between z=0.5 and z=2.3, again comparing Ropt, ~and . We conclude that the main tenets of the size evolution narrative established over the past 20 years, based on rest-frame optical light profile analysis, still hold in the era of JWST/NIRCam observations in the rest-frame near-IR.