The ALMA Spectroscopic Survey in the HUDF: CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History

Roberto Decarli; Fabian Walter; Jorge Gónzalez-López; Manuel Aravena; Leindert Boogaard; Chris Carilli; Pierre Cox; Emanuele Daddi; Gergö Popping; Dominik Riechers; Bade Uzgil; Axel Weiss; Roberto J. Assef; Roland Bacon; Franz Erik Bauer; Frank Bertoldi; Rychard Bouwens; Thierry Contini; Paulo C. Cortes; Elisabete Da Cunha; Tanio Diáz-Santos; David Elbaz; Hanae Inami; Jacqueline Hodge; Rob Ivison; Olivier Le Fèvre; Benjamin Magnelli; Mladen Novak; Pascal Oesch; Hans Walter Rix; Mark T. Sargent; Ian Smail; A. Mark Swinbank; Rachel S. Somerville; Paul Van Der Werf; Jeff Wagg; Lutz Wisotzki

doi:10.3847/1538-4357/ab30fe

The ALMA Spectroscopic Survey in the HUDF: CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History

Roberto Decarli^*, Fabian Walter, Jorge Gónzalez-López, Manuel Aravena, Leindert Boogaard, Chris Carilli, Pierre Cox, Emanuele Daddi, Gergö Popping, Dominik Riechers, Bade Uzgil, Axel Weiss, Roberto J. Assef, Roland Bacon, Franz Erik Bauer, Frank Bertoldi, Rychard Bouwens, Thierry Contini, Paulo C. Cortes, Elisabete Da CunhaTanio Diáz-Santos, David Elbaz, Hanae Inami, Jacqueline Hodge, Rob Ivison, Olivier Le Fèvre, Benjamin Magnelli, Mladen Novak, Pascal Oesch, Hans Walter Rix, Mark T. Sargent, Ian Smail, A. Mark Swinbank, Rachel S. Somerville, Paul Van Der Werf, Jeff Wagg, Lutz Wisotzki

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

133 Citations (Scopus)

Abstract

We use the results from the ALMA large program ASPECS, the spectroscopic survey in the Hubble Ultra Deep Field (HUDF), to constrain CO luminosity functions of galaxies and the resulting redshift evolution of ρ(H₂). The broad frequency range covered enables us to identify CO emission lines of different rotational transitions in the HUDF at z > 1. We find strong evidence that the CO luminosity function evolves with redshift, with the knee of the CO luminosity function decreasing in luminosity by an order of magnitude from ∼2 to the local universe. Based on Schechter fits, we estimate that our observations recover the majority (up to ∼90%, depending on the assumptions on the faint end) of the total cosmic CO luminosity at z = 1.0-3.1. After correcting for CO excitation, and adopting a Galactic CO-to-H₂ conversion factor, we constrain the evolution of the cosmic molecular gas density ρ(H₂): This cosmic gas density peaks at z ∼ 1.5 and drops by a factor of to the value measured locally. The observed evolution in ρ(H₂), therefore, closely matches the evolution of the cosmic star formation rate density ρ _SFR. We verify the robustness of our result with respect to assumptions on source inclusion and/or CO excitation. As the cosmic star formation history can be expressed as the product of the star formation efficiency and the cosmic density of molecular gas, the similar evolution of ρ(H₂) and ρ _SFR leaves only little room for a significant evolution of the average star formation efficiency in galaxies since z ∼ 3 (85% of cosmic history).

Original language	English
Article number	138
Journal	Astrophysical Journal
Volume	882
Issue number	2
DOIs	https://doi.org/10.3847/1538-4357/ab30fe
Publication status	Published - 10 Sept 2019

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Decarli, R., Walter, F., Gónzalez-López, J., Aravena, M., Boogaard, L., Carilli, C., Cox, P., Daddi, E., Popping, G., Riechers, D., Uzgil, B., Weiss, A., Assef, R. J., Bacon, R., Bauer, F. E., Bertoldi, F., Bouwens, R., Contini, T., Cortes, P. C., ... Wisotzki, L. (2019). The ALMA Spectroscopic Survey in the HUDF: CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History. Astrophysical Journal, 882(2), Article 138. https://doi.org/10.3847/1538-4357/ab30fe

@article{a47beb268a4e4b7e9699772a7531ef47,

title = "The ALMA Spectroscopic Survey in the HUDF: CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History",

abstract = "We use the results from the ALMA large program ASPECS, the spectroscopic survey in the Hubble Ultra Deep Field (HUDF), to constrain CO luminosity functions of galaxies and the resulting redshift evolution of ρ(H2). The broad frequency range covered enables us to identify CO emission lines of different rotational transitions in the HUDF at z > 1. We find strong evidence that the CO luminosity function evolves with redshift, with the knee of the CO luminosity function decreasing in luminosity by an order of magnitude from ∼2 to the local universe. Based on Schechter fits, we estimate that our observations recover the majority (up to ∼90%, depending on the assumptions on the faint end) of the total cosmic CO luminosity at z = 1.0-3.1. After correcting for CO excitation, and adopting a Galactic CO-to-H2 conversion factor, we constrain the evolution of the cosmic molecular gas density ρ(H2): This cosmic gas density peaks at z ∼ 1.5 and drops by a factor of to the value measured locally. The observed evolution in ρ(H2), therefore, closely matches the evolution of the cosmic star formation rate density ρ SFR. We verify the robustness of our result with respect to assumptions on source inclusion and/or CO excitation. As the cosmic star formation history can be expressed as the product of the star formation efficiency and the cosmic density of molecular gas, the similar evolution of ρ(H2) and ρ SFR leaves only little room for a significant evolution of the average star formation efficiency in galaxies since z ∼ 3 (85% of cosmic history).",

keywords = "Galaxies: Evolution-galaxies: High-redshift-galaxies: Ism-galaxies: Luminosity function, Mass function-surveys",

author = "Roberto Decarli and Fabian Walter and Jorge G{\'o}nzalez-L{\'o}pez and Manuel Aravena and Leindert Boogaard and Chris Carilli and Pierre Cox and Emanuele Daddi and Gerg{\"o} Popping and Dominik Riechers and Bade Uzgil and Axel Weiss and Assef, {Roberto J.} and Roland Bacon and Bauer, {Franz Erik} and Frank Bertoldi and Rychard Bouwens and Thierry Contini and Cortes, {Paulo C.} and Cunha, {Elisabete Da} and Tanio Di{\'a}z-Santos and David Elbaz and Hanae Inami and Jacqueline Hodge and Rob Ivison and F{\`e}vre, {Olivier Le} and Benjamin Magnelli and Mladen Novak and Pascal Oesch and Rix, {Hans Walter} and Sargent, {Mark T.} and Ian Smail and Swinbank, {A. Mark} and Somerville, {Rachel S.} and Werf, {Paul Van Der} and Jeff Wagg and Lutz Wisotzki",

year = "2019",

month = sep,

day = "10",

doi = "10.3847/1538-4357/ab30fe",

language = "English",

volume = "882",

journal = "Astrophysical Journal",

issn = "0004-637X",

publisher = "American Astronomical Society",

number = "2",

}

Decarli, R, Walter, F, Gónzalez-López, J, Aravena, M, Boogaard, L, Carilli, C, Cox, P, Daddi, E, Popping, G, Riechers, D, Uzgil, B, Weiss, A, Assef, RJ, Bacon, R, Bauer, FE, Bertoldi, F, Bouwens, R, Contini, T, Cortes, PC, Cunha, ED, Diáz-Santos, T, Elbaz, D, Inami, H, Hodge, J, Ivison, R, Fèvre, OL, Magnelli, B, Novak, M, Oesch, P, Rix, HW, Sargent, MT, Smail, I, Swinbank, AM, Somerville, RS, Werf, PVD, Wagg, J & Wisotzki, L 2019, 'The ALMA Spectroscopic Survey in the HUDF: CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History', Astrophysical Journal, vol. 882, no. 2, 138. https://doi.org/10.3847/1538-4357/ab30fe

TY - JOUR

T1 - The ALMA Spectroscopic Survey in the HUDF

T2 - CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History

AU - Decarli, Roberto

AU - Walter, Fabian

AU - Gónzalez-López, Jorge

AU - Aravena, Manuel

AU - Boogaard, Leindert

AU - Carilli, Chris

AU - Cox, Pierre

AU - Daddi, Emanuele

AU - Popping, Gergö

AU - Riechers, Dominik

AU - Uzgil, Bade

AU - Weiss, Axel

AU - Assef, Roberto J.

AU - Bacon, Roland

AU - Bauer, Franz Erik

AU - Bertoldi, Frank

AU - Bouwens, Rychard

AU - Contini, Thierry

AU - Cortes, Paulo C.

AU - Cunha, Elisabete Da

AU - Diáz-Santos, Tanio

AU - Elbaz, David

AU - Inami, Hanae

AU - Hodge, Jacqueline

AU - Ivison, Rob

AU - Fèvre, Olivier Le

AU - Magnelli, Benjamin

AU - Novak, Mladen

AU - Oesch, Pascal

AU - Rix, Hans Walter

AU - Sargent, Mark T.

AU - Smail, Ian

AU - Swinbank, A. Mark

AU - Somerville, Rachel S.

AU - Werf, Paul Van Der

AU - Wagg, Jeff

AU - Wisotzki, Lutz

PY - 2019/9/10

Y1 - 2019/9/10

N2 - We use the results from the ALMA large program ASPECS, the spectroscopic survey in the Hubble Ultra Deep Field (HUDF), to constrain CO luminosity functions of galaxies and the resulting redshift evolution of ρ(H2). The broad frequency range covered enables us to identify CO emission lines of different rotational transitions in the HUDF at z > 1. We find strong evidence that the CO luminosity function evolves with redshift, with the knee of the CO luminosity function decreasing in luminosity by an order of magnitude from ∼2 to the local universe. Based on Schechter fits, we estimate that our observations recover the majority (up to ∼90%, depending on the assumptions on the faint end) of the total cosmic CO luminosity at z = 1.0-3.1. After correcting for CO excitation, and adopting a Galactic CO-to-H2 conversion factor, we constrain the evolution of the cosmic molecular gas density ρ(H2): This cosmic gas density peaks at z ∼ 1.5 and drops by a factor of to the value measured locally. The observed evolution in ρ(H2), therefore, closely matches the evolution of the cosmic star formation rate density ρ SFR. We verify the robustness of our result with respect to assumptions on source inclusion and/or CO excitation. As the cosmic star formation history can be expressed as the product of the star formation efficiency and the cosmic density of molecular gas, the similar evolution of ρ(H2) and ρ SFR leaves only little room for a significant evolution of the average star formation efficiency in galaxies since z ∼ 3 (85% of cosmic history).

AB - We use the results from the ALMA large program ASPECS, the spectroscopic survey in the Hubble Ultra Deep Field (HUDF), to constrain CO luminosity functions of galaxies and the resulting redshift evolution of ρ(H2). The broad frequency range covered enables us to identify CO emission lines of different rotational transitions in the HUDF at z > 1. We find strong evidence that the CO luminosity function evolves with redshift, with the knee of the CO luminosity function decreasing in luminosity by an order of magnitude from ∼2 to the local universe. Based on Schechter fits, we estimate that our observations recover the majority (up to ∼90%, depending on the assumptions on the faint end) of the total cosmic CO luminosity at z = 1.0-3.1. After correcting for CO excitation, and adopting a Galactic CO-to-H2 conversion factor, we constrain the evolution of the cosmic molecular gas density ρ(H2): This cosmic gas density peaks at z ∼ 1.5 and drops by a factor of to the value measured locally. The observed evolution in ρ(H2), therefore, closely matches the evolution of the cosmic star formation rate density ρ SFR. We verify the robustness of our result with respect to assumptions on source inclusion and/or CO excitation. As the cosmic star formation history can be expressed as the product of the star formation efficiency and the cosmic density of molecular gas, the similar evolution of ρ(H2) and ρ SFR leaves only little room for a significant evolution of the average star formation efficiency in galaxies since z ∼ 3 (85% of cosmic history).

KW - Galaxies: Evolution-galaxies: High-redshift-galaxies: Ism-galaxies: Luminosity function

KW - Mass function-surveys

UR - http://www.scopus.com/inward/record.url?scp=85073531836&partnerID=8YFLogxK

U2 - 10.3847/1538-4357/ab30fe

DO - 10.3847/1538-4357/ab30fe

M3 - Article

SN - 0004-637X

VL - 882

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

M1 - 138

ER -

The ALMA Spectroscopic Survey in the HUDF: CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History

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