Dust Obscured Star Forming Galaxies in the Early Universe

Abstract

Motivated by recent observational constraints on dust reprocessed emission in star forming galaxies at z 6 and above we use the very-large cosmological hydrodynamical simulation \ to explore predictions for the amount of dust obscured star formation in the early Universe (z>8). \ matches current observational constraints on both the UV luminosity function and galaxy stellar mass function and predicts that approximately 90\% of the star formation in high-mass (M*>1010\, M) galaxies at z=8 is already obscured by dust. The relationship between dust attenuation and stellar mass predicted by \ is consistent with that observed at lower redshift. However, observations of several individual objects at z>6 are discrepant with the predictions, though it is possible their uncertainties may have been underestimated. We find that the predicted surface density of z 8 sub-mm sources is below that accessible to current Herschel, SCUBA-2, and ALMA sub-mm surveys. However, as ALMA continues to accrue additional surface area the population of z>8 dust-obscured galaxies may become accessible in the near future.