Enhanced Sub-kpc Scale Star-formation: Results From A JWST Size Analysis of 341 Galaxies At 5<z<14

Abstract

We present a comprehensive search and analysis of high-redshift galaxies in a suite of nine public JWST extragalactic fields taken in Cycle 1, covering a total effective search area of 358 arcmin2. Through conservative (8σ) photometric selection, we identify 341 galaxies at 5<z<14, with 109 having spectroscopic redshift measurements from the literature, including recent JWST NIRSpec observations. Our regression analysis reveals that the rest-frame UV size-stellar mass relation follows R eff M*0.190.03, similar to that of star-forming galaxies at z3, but scaled down in size by 0.7dex. We find a much slower rate for the average size evolution over the redshift range, R eff(1+z)-0.40.2, than that derived in the literature. A fraction (13\,\%) of our sample are marginally resolved even in the NIRCam imaging (<100pc), located at >1.5\,σ below the derived size-mass slope. These compact sources exhibit a high star formation surface density SFR>10\,M\, yr-1\,kpc-2, a range in which only <0.01\,\% of the local star-forming galaxy sample is found. For those with available NIRSpec data, no evidence of ongoing supermassive black hole accretion is observed. A potential explanation for the observed high [OIII]-to-Hbeta ratios could be high shock velocities, likely originating within intense star-forming regions characterized by high SFR. Lastly, we find that the rest-frame UV and optical sizes of our sample are comparable. Our results are consistent with these early galaxies building up their structures inside-out and yet to exhibit the strong color gradient seen at lower redshift.