Stellar Properties of z ~ 8 Galaxies in the Reionization Lensing Cluster Survey

Abstract

Measurements of stellar properties of galaxies when the universe was less than one billion years old yield some of the only observational constraints of the onset of star formation. We present here the inclusion of Spitzer/IRAC imaging in the spectral energy distribution fitting of the seven highest-redshift galaxy candidates selected from the Hubble Space Telescope imaging of the Reionization Lensing Cluster Survey (RELICS). We find that for 6/8 HST-selected z8 sources, the z8 solutions are still strongly preferred over z1-2 solutions after the inclusion of Spitzer fluxes, and two prefer a z 7 solution, which we defer to a later analysis. We find a wide range of intrinsic stellar masses (5×106 M -- 4×109 M), star formation rates (0.2-14 M yr-1), and ages (30-600 Myr) among our sample. Of particular interest is Abell1763-1434, which shows evidence of an evolved stellar population at z8, implying its first generation of star formation occurred just < 100 Myr after the Big Bang. SPT0615-JD, a spatially resolved z10 candidate, remains at its high redshift, supported by deep Spitzer/IRAC data, and also shows some evidence for an evolved stellar population. Even with the lensed, bright apparent magnitudes of these z 8 candidates (H = 26.1-27.8 AB mag), only the James Webb Space Telescope will be able further confirm the presence of evolved stellar populations early in the universe.