A JWST/NIRCam Study of Key Contributors to Reionization: The Star-forming and Ionizing Properties of UV-faint z7-8 Galaxies

Abstract

Spitzer/IRAC imaging has revealed that the brightest z7-8 galaxies often exhibit young ages and strong nebular line emission, hinting at high ionizing efficiency among early galaxies. However, IRAC's limited sensitivity has long hindered efforts to study the fainter, more numerous population often thought largely responsible for reionization. Here we use CEERS JWST/NIRCam data to characterize 116 UV-faint (median MUV=-19.5) z6.5-8 galaxies. The SEDs are typically dominated by young (10-50 Myr), low-mass (M108\ M) stellar populations, and we find no need for extremely high stellar masses (1011 M). Considering previous studies of UV-bright (MUV-22) z7-8 galaxies, we find evidence for a strong (5-10×) increase in specific star formation rate toward lower luminosities (median sSFR=103 Gyr-1 in CEERS). The larger sSFRs imply a more dominant contribution from OB stars in the relatively numerous UV-faint population, perhaps suggesting that these galaxies are very efficient ionizing agents (median ion=1025.7 erg-1 Hz). In spite of their much larger sSFRs, we find no significant increase in [OIII]+Hβ EWs towards fainter MUV (median ≈780 A). If confirmed, this may indicate that a substantial fraction of our CEERS galaxies possess extremely low metallicities (3% Z) where [OIII] emission is suppressed. Alternatively, high ionizing photon escape fractions or bursty star formation histories can also weaken the nebular lines in a subset of our CEERS galaxies. While the majority of our objects are very blue (median β=-2.0), we identify a significant tail of very dusty galaxies (β-1) at ≈0.5LUV which may contribute significantly to the z7-8 star formation rate density.