The ALMA Spectroscopic Survey in the HUDF: The Cosmic Dust and Gas Mass Densities in Galaxies up to z similar to 3

Publikation: Bidrag til tidsskriftTidsskriftartikelfagfællebedømt

  • Benjamin Magnelli
  • Leindert Boogaard
  • Roberto Decarli
  • Jorge Gonzalez-Lopez
  • Mladen Novak
  • Gergo Popping
  • Ian Smail
  • Fabian Walter
  • Manuel Aravena
  • Roberto J. Assef
  • Franz Erik Bauer
  • Frank Bertoldi
  • Chris Carilli
  • Paulo C. Cortes
  • Elisabete da Cunha
  • Emanuele Daddi
  • Tanio Diaz-Santos
  • Hanae Inami
  • Robert J. Ivison
  • Olivier Le Fevre
  • Dominik Riechers
  • Hans-Walter Rix
  • Mark T. Sargent
  • Paul van der Werf
  • Jeff Wagg
  • Axel Weiss

Using the deepest 1.2 mm continuum map to date in the Hubble Ultra Deep Field, which was obtained as part of the ALMA Spectroscopic Survey (ASPECS) large program, we measure the cosmic density of dust and implied gas (H-2+H i) mass in galaxies as a function of look-back time. We do so by stacking the contribution from all H-band selected galaxies above a given stellar mass in distinct redshift bins, M decreases down to 10(10) M, but this growth slows down toward lower stellar masses. This flattening implies that at our stellar mass-completeness limits (10(8) M and 10(8.9) M at z similar to 0.4 and z similar to 3), both quantities converge toward the total cosmic dust and gas mass densities in galaxies. The cosmic dust and gas mass densities increase at early cosmic time, peak around z similar to 2, and decrease by a factor similar to 4 and 7, when compared to the density of dust and molecular gas in the local universe, respectively. The contribution of quiescent galaxies (i.e., with little on-going star formation) to the cosmic dust and gas mass densities is minor (less than or similar to 10%). The redshift evolution of the cosmic gas mass density resembles that of the SFR density, as previously found by CO-based measurements. This confirms that galaxies have relatively constant star formation efficiencies (within a factor similar to 2) across cosmic time. Our results also imply that by z similar to 0, a large fraction (similar to 90%) of dust formed in galaxies across cosmic time has either been destroyed or ejected to the intergalactic medium.

OriginalsprogEngelsk
Artikelnummer66
TidsskriftAstrophysical Journal
Vol/bind892
Udgave nummer1
Antal sider22
ISSN0004-637X
DOI
StatusUdgivet - 20 mar. 2020

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