Articulo
The ALMA Spectroscopic Survey in the HUDF: CO Luminosity Functions and the Molecular Gas Content of Galaxies through Cosmic History
ASTROPHYSICAL JOURNAL
Registro en:
1151239
1151239
Autor
Decarli, Roberto
Walter, Fabian
González-López, Jorge
Aravenu, Manuel
Boogaard, Leindert
Carilli, Chris
Cox, Pierre
Daddi, Emanuele
Popping, Gergo
Riechers, Dominik
Uzgil, Bade
Weiss, Axel
Assef, Roberto J
Bacon, Roland
Bauer, Franz Erik
Bertoldi, Frank
Bouwens, Rychard
Contini, Thierry
Cortes, Paulo C
da Cunha, Elisabete
Díaz-Santos, Tanio
Elbaz, David
Inami, Hanae
Hodge, Jacqueline
Ivison, Rob
Le Fevre, Olivier
Magnelli, Benjamin
Novak, Mladen
Oesch, Pascal
Rix, Hans-Walter
Sargent, Mark T
Smail, Ian
Swinbank, A Mark
Somerville, Rachel S
van Der Werf, Paul
Wagg, Jeff
Wisotzki, Lutz
Institución
Resumen
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 rho(H-2). 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 similar to 2 to the local universe. Based on Schechter fits, we estimate that our observations recover the majority (up to similar 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-H-2 conversion factor, we constrain the evolution of the cosmic molecular gas density rho(H-2): this cosmic gas density peaks at z similar to 1.5 and drops by a factor of 6.5(-1.4)(+1.8) to the value measured locally. The observed evolution in rho(H-2), therefore, closely matches the evolution of the cosmic star formation rate density rho(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 rho(H-2) and rho(SFR) leaves only little room for a significant evolution of the average star formation efficiency in galaxies since z similar to 3 (85% of cosmic history). Regular 2015 FONDECYT FONDECYT