Low star formation efficiency in typical galaxies at z=5-6

Abstract

Using the VLA and ALMA, we have obtained CO(2-1), [C II], [N II] line emission and multiple dust continuum measurements in a sample of "normal" galaxies at z=5-6. We report the highest redshift detection of low-J CO emission from a Lyman Break Galaxy, at z5.7. The CO line luminosity implies a massive molecular gas reservoir of (1.30.3)(α CO/4.5\,M (K km s-1 pc2)-1)×1011\,M, suggesting low star formation efficiency, with a gas depletion timescale of order 1 Gyr. This efficiency is much lower than traditionally observed in z5 starbursts, indicating that star forming conditions in Main Sequence galaxies at z6 may be comparable to those of normal galaxies probed up to z3 to-date, but with rising gas fractions across the entire redshift range. We also obtain a deep CO upper limit for a Main Sequence galaxy at z5.3 with 3 times lower SFR, perhaps implying a high α CO conversion factor, as typically found in low metallicity galaxies. For a sample including both CO targets, we also find faint [N II] 205\,μm emission relative to [C II] in all but the most IR-luminous "normal" galaxies at z=5-6, implying more intense or harder radiation fields in the ionized gas relative to lower redshift. These radiation properties suggest that low metallicity may be common in typical 1010\,M galaxies at z=5-6. While a fraction of Main Sequence star formation in the first billion years may take place in conditions not dissimilar to lower redshift, lower metallicity may affect the remainder of the population.