Detection of a Lensed z≈11 Galaxy in the Rest-Optical with Spitzer/IRAC and the Inferred SFR, Stellar Mass, and Physical Size

Abstract

We take advantage of new 100-hour Spitzer/IRAC observations available for MACS0647-JD, a strongly lensed z≈11 galaxy candidate, to provide improved constraints on its physical properties. Probing the physical properties of galaxies at z>8 is challenging due to the inherent faintness of such sources and the limited wavelength coverage available. Thanks to the high ≈2-6× lensing magnification of the multiple images of MACS0647-JD, we can use the sensitive Spitzer/IRAC data to probe the rest-frame optical fluxes of MACS0647-JD and investigate its physical properties including the age and the stellar mass. In deriving Spitzer/IRAC fluxes for MACS0647-JD, great care is taken in coping with the impact of three bright (≈8-16 mag) stars in our field to ensure robust results. Assuming a constant star formation rate, the age, stellar mass, and rest-frame UV slope we estimate for MACS0647-JD based on a stack of the photometry are log10(age/yr) = 8.6+0.1-2.1, log10(M*/M) = 9.1+0.2-1.4, and β = -1.30.6, respectively. We compare our results with expectations from the EAGLE simulation and find that MACS0647-JD has properties consistent with corresponding to the most massive and rapidly star-forming galaxies in the simulation. We also find that its radius, 10528 pc, is a factor of ≈2 smaller than the mean size in a separate simulation project DRAGONS. Interestingly enough, the observed size is similar to the small sizes seen in very low-luminosity z≈6-10 galaxies behind lensing clusters.