# The ALMA Spectroscopic Survey in the Hubble Ultra Deep Field: Evolution   of the molecular gas in CO-selected galaxies

**Authors:** Manuel Aravena, Roberto Decarli, Jorge G\'onzalez-L\'opez, Leindert, Boogaard, Fabian Walter, Chris Carilli, Gerg\"o Popping, Axel Weiss, Roberto, J. Assef, Roland Bacon, Franz Erik Bauer, Frank Bertoldi, Richard Bouwens,, Thierry Contini, Paulo C. Cortes, Pierre Cox, Elisabete da Cunha, Emanuele, Daddi, Tanio D\'iaz-Santos, David Elbaz, Jacqueline Hodge, Hanae Inami, Rob, Ivison, Olivier Le F\`evre, Benjamin Magnelli, Pascal Oesch, Dominik, Riechers, Ian Smail, Rachel S. Somerville, A. M. Swinbank, Bade Uzgil, Paul, van der Werf, Jeff Wagg, Lutz Wisotzki

arXiv: 1903.09162 · 2019-09-25

## TL;DR

This study investigates the properties and evolution of molecular gas in CO-selected galaxies at redshifts 1-3, revealing their relation to star formation, gas depletion, and cosmic molecular gas density contributions.

## Contribution

It provides the first detailed analysis of CO-selected galaxies' interstellar medium properties across a broad range of star formation rates and stellar masses at high redshift.

## Key findings

- Most galaxies follow established gas scaling relations.
- Approximately 30% of galaxies are offset from the main sequence.
- Main sequence galaxies dominate the cosmic molecular gas density.

## Abstract

We analyze the interstellar medium properties of a sample of sixteen bright CO line emitting galaxies identified in the ALMA Spectroscopic Survey in the Hubble Ultra Deep Field (ASPECS) Large Program. This CO$-$selected galaxy sample is complemented by a couple of additional CO line emitters in the UDF that are identified based on their MUSE optical spectroscopic redshifts. The ASPECS CO$-$selected galaxies cover a larger range of star-formation rates and stellar masses compared to literature CO emitting galaxies at $z>1$ for which scaling relations have been established previously. Most of ASPECS CO-selected galaxies follow these established relations in terms of gas depletion timescales and gas fractions as a function of redshift, as well as the star-formation rate-stellar mass relation (`galaxy main sequence'). However, we find that $\sim30\%$ of the galaxies (5 out of 16) are offset from the galaxy main sequence at their respective redshift, with $\sim12\%$ (2 out of 16) falling below this relationship. Some CO-rich galaxies exhibit low star-formation rates, and yet show substantial molecular gas reservoirs, yielding long gas depletion timescales. Capitalizing on the well-defined cosmic volume probed by our observations, we measure the contribution of galaxies above, below, and on the galaxy main sequence to the total cosmic molecular gas density at different lookback times. We conclude that main sequence galaxies are the largest contributor to the molecular gas density at any redshift probed by our observations (z$\sim$1$-$3). The respective contribution by starburst galaxies above the main sequence decreases from z$\sim$2.5 to z$\sim$1, whereas we find tentative evidence for an increased contribution to the cosmic molecular gas density from the passive galaxies below the main sequence.

## Full text

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## Figures

25 figures with captions in the complete paper: https://tomesphere.com/paper/1903.09162/full.md

## References

125 references — full list in the complete paper: https://tomesphere.com/paper/1903.09162/full.md

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Source: https://tomesphere.com/paper/1903.09162