PHIBSS: Exploring the Dependence of the CO-H2 Conversion Factor on Total Mass Surface Density at z < 1.5

Abstract

We present an analysis of the relationship between the CO-H2 conversion factor (α CO) and total mass surface density ( tot) in star-forming galaxies at z < 1.5. Our sample, which is drawn from the IRAM Plateau de Bure HIgh-z Blue Sequence Survey (PHIBSS) and the CO Legacy Database for GASS (COLD GASS), includes 'normal,' massive star-forming galaxies that dominate the evolution of the cosmic star formation rate (SFR) at this epoch and probe the tot regime where the strongest variation in α CO is observed. We constrain α CO via existing CO observations, measurements of the star formation rate, and an assumed molecular gas depletion time (t dep=M gas/SFR) --- the latter two of which establish the total molecular gas mass independent of the observed CO luminosity. For a broad range of adopted depletion times, we find that α CO is independent of total mass surface density, with little deviation from the canonical Milky Way value. This runs contrary to a scenario in which α CO decreases as surface density increases within the extended clouds of molecular gas that potentially fuel clumps of star formation in z1 galaxies, similar to those observed in local ULIRGs. Instead, our results suggest that molecular gas, both at z0 and z1, is primarily in the form of self-gravitating molecular clouds. While CO observations suggest a factor of 3 reduction in the average molecular gas depletion time between z 0 and z1, we find that, for typical galaxies, the structure of molecular gas and the process of star formation at z 1 is otherwise remarkably similar to that observed in local star-forming systems.