Saved in:
Bibliographic Details
Main Authors: Bollo, Victoria, Péroux, Céline, Zwaan, Martin, Hamanowicz, Aleksandra, Chen, Jianhang, Weng, Simon, Lagos, Claudia del P., Bravo, Matías, Ivison, R. J., Biggs, Andrew
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2502.06778
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866915203569942528
author Bollo, Victoria
Péroux, Céline
Zwaan, Martin
Hamanowicz, Aleksandra
Chen, Jianhang
Weng, Simon
Lagos, Claudia del P.
Bravo, Matías
Ivison, R. J.
Biggs, Andrew
author_facet Bollo, Victoria
Péroux, Céline
Zwaan, Martin
Hamanowicz, Aleksandra
Chen, Jianhang
Weng, Simon
Lagos, Claudia del P.
Bravo, Matías
Ivison, R. J.
Biggs, Andrew
contents Cold molecular gas, largely traced by CO emission, is the primary fuel for star formation, making it essential for understanding galaxy evolution. ALMA has made significant progress in the study of the cosmic evolution of cold molecular gas. Here, we exploit the ALMACAL survey to address issues relating to small sample sizes and cosmic variance, utilising calibration data from ALMA to compile a statistically significant and essentially unbiased sample of CO-selected galaxies. By employing a novel statistical approach to emission-line classification using semi-analytical models, we place strong constraints on the CO luminosity function and the cosmic evolution of molecular gas mass density ($ρ_{H_2}$) back to $z \sim 6$. The cosmic molecular gas mass density increases with redshift, peaking around $z \sim 1.5$, then slowly declines towards higher redshifts by $\sim 1$ dex. Our findings confirm the key role of molecular gas in fuelling star formation. The new $ρ_{H_2}$ estimates allow us to revisit the cosmic baryon cycle, showing that the ratio of molecular gas-to-stellar mass density is consistent with the so-called 'bathtub model' of baryons, which implies a continuous replenishment of gas. The cosmic gas depletion timescale, estimated on a global scale, is shown to be fairly constant at all redshifts. We emphasise the importance of surveys using multiple small fields rather than a single contiguous area to mitigate the effects of cosmic variance.
format Preprint
id arxiv_https___arxiv_org_abs_2502_06778
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle ALMACAL XIII. Evolution of the CO luminosity function and the molecular gas mass density out to $z$ ~ 6
Bollo, Victoria
Péroux, Céline
Zwaan, Martin
Hamanowicz, Aleksandra
Chen, Jianhang
Weng, Simon
Lagos, Claudia del P.
Bravo, Matías
Ivison, R. J.
Biggs, Andrew
Astrophysics of Galaxies
Cold molecular gas, largely traced by CO emission, is the primary fuel for star formation, making it essential for understanding galaxy evolution. ALMA has made significant progress in the study of the cosmic evolution of cold molecular gas. Here, we exploit the ALMACAL survey to address issues relating to small sample sizes and cosmic variance, utilising calibration data from ALMA to compile a statistically significant and essentially unbiased sample of CO-selected galaxies. By employing a novel statistical approach to emission-line classification using semi-analytical models, we place strong constraints on the CO luminosity function and the cosmic evolution of molecular gas mass density ($ρ_{H_2}$) back to $z \sim 6$. The cosmic molecular gas mass density increases with redshift, peaking around $z \sim 1.5$, then slowly declines towards higher redshifts by $\sim 1$ dex. Our findings confirm the key role of molecular gas in fuelling star formation. The new $ρ_{H_2}$ estimates allow us to revisit the cosmic baryon cycle, showing that the ratio of molecular gas-to-stellar mass density is consistent with the so-called 'bathtub model' of baryons, which implies a continuous replenishment of gas. The cosmic gas depletion timescale, estimated on a global scale, is shown to be fairly constant at all redshifts. We emphasise the importance of surveys using multiple small fields rather than a single contiguous area to mitigate the effects of cosmic variance.
title ALMACAL XIII. Evolution of the CO luminosity function and the molecular gas mass density out to $z$ ~ 6
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2502.06778