A massive HI-absorption-selected galaxy at z≈2.356

Abstract

We use the Karl G. Jansky Very Large Array (VLA) and the Atacama Large Millimeter/submillimeter Array (ALMA) to detect CO(1-0), CO(3-2), and rest-frame 349-GHz continuum emission from an HI-selected galaxy, DLA1020+2733g, at z≈2.3568 in the field of the z=2.3553 damped Lyman-α absorber (DLA) towards QSO J1020+2733. The VLA CO(1-0) detection yields a molecular gas mass of (2.840.42)×1011×(α CO/4.36)\,M, the largest ever measured in an HI-selected galaxy. The DLA metallicity is +0.28 0.16, from the ZnII\, λ2026A absorption line detected in a Keck Echellette Spectrograph and Imager spectrum. This continues the trend of high-metallicity DLAs being frequently associated with massive galaxies. We obtain a star-formation rate (SFR) of 400~M~yr-1 from the rest-frame 349-GHz continuum emission, and a relatively long molecular gas depletion timescale of 0.6~Gyr. The excitation of the J=3 rotational level is sub-thermal, with r31L'CO(3-2)/L'CO(1-0)=0.5130.081, suggesting that DLA1020+2733g has a low SFR surface density. The large velocity spread of the CO lines, ≈500~ km~s-1, and the long molecular gas depletion timescale suggest that DLA1020+2733g is likely to be a cold rotating-disk galaxy.

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