Dust continuum, CO, and [C I] 1-0 lines: self-consistent H2 mass estimates and the possibility of globally CO-dark galaxies at z = 0.35

Abstract

We present ALMA observations of a small but statistically complete sample of twelve 250 micron selected galaxies at z=0.35 designed to measure their dust submillimeter continuum emission as well as their CO(1-0) and atomic carbon [CI](3P1-3P0) spectral lines. This is the first sample of galaxies with global measures of all three H2-mass tracers and which show star formation rates (4-26 Msun yr-1) and infra-red luminosities (1-6×1011 Lsun) typical of star forming galaxies in their era. We find a surprising diversity of morphology and kinematic structure; one-third of the sample have evidence for interaction with nearby smaller galaxies, several sources have disjoint dust and gas morphology. Moreover two galaxies have very high LCI/LCO ratios for their global molecular gas reservoirs; if confirmed, such extreme intensity ratios in a sample of dust selected, massive star forming galaxies presents a challenge to our understanding of ISM. Finally, we use the emission of the three molecular gas tracers, to determine the carbon abundance, Xci, and CO-H2 conversion αco in our sample, using a weak prior that the gas-to-dust ratio is similar to that of the Milky Way for these massive and metal rich galaxies. Using a likelihood method which simultaneously uses all three gas tracer measurements, we find mean values and errors on the mean of αco=3.00.5\,Msun\,(K\,kms-1\,pc2)-1 and Xci=1.60.1× 10-5 (or αci=18.8\,K kms-1\,pc2 (Msun)-1) and δGDR=12816 (or α850=5.9×1012\,W\,Hz-1\, Msun-1), where our starting assumption is that these metal rich galaxies have an average gas-to-dust ratio similar to that of the Milky Way centered on δGDR=135.