TY - JOUR
T1 - The ALMA Spectroscopic Survey in the Hubble Ultra Deep Field
T2 - The Nature of the Faintest Dusty Star-forming Galaxies
AU - Aravena, Manuel
AU - Boogaard, Leindert
AU - Gónzalez-López, Jorge
AU - Decarli, Roberto
AU - Walter, Fabian
AU - Carilli, Chris L.
AU - Smail, Ian
AU - Weiss, Axel
AU - Assef, Roberto J.
AU - Bauer, Franz Erik
AU - Bouwens, Rychard J.
AU - Cortes, Paulo C.
AU - Cox, Pierre
AU - Da Cunha, Elisabete
AU - Daddi, Emanuele
AU - Diáz-Santos, Tanio
AU - Inami, Hanae
AU - Ivison, Rob
AU - Novak, Mladen
AU - Popping, Gergö
AU - Riechers, Dominik
AU - Van Der Werf, Paul
AU - Wagg, Jeff
N1 - Publisher Copyright:
© 2020 The American Astronomical Society. All rights reserved.
PY - 2020/9/20
Y1 - 2020/9/20
N2 - We present a characterization of the physical properties of a sample of 35 securely detected, dusty galaxies in the deep ALMA 1.2 mm image obtained as part of the ALMA Spectroscopic Survey in the Hubble Ultra Deep Field (ASPECS) Large Program. This sample is complemented by 26 additional sources identified via an optical/infrared source positional prior. Using their well-characterized spectral energy distributions, we derive median stellar masses and star formation rates (SFR) of 4.8 × 1010, M⊙ and 30 M yr-1, respectively, and interquartile ranges of (2.4-11.7) × 1010 M and 20-50 M yr-1. We derive a median spectroscopic redshift of 1.8 with an interquartile range 1.1-2.6, significantly lower than submillimeter galaxies detected in shallower, wide-field surveys. We find that 59% ± 13%, 6% ± 4%, and 34% ± 9% of our sources are within, above, and below±0.4 dex from the SFR-stellar-mass relation or main sequence (MS), respectively. The ASPECS galaxies closely follow the SFR-molecular gas mass relation and other previously established scaling relations, confirming a factor of five increase of the gas-to-stellar-mass ratio from z = 0.5 to 2.5 and a mild evolution of the gas depletion timescales with a typical value of 0.7 Gyr at z = 1-3. ASPECS galaxies located significantly below the MS, a poorly exploited parameter space, have low gas-to-stellar-mass ratios of ∼0.1-0.2 and long depletion timescales >1 Gyr. Galaxies along the MS dominate the cosmic density of molecular gas at all redshifts. Systems above the MS have an increasing contribution to the total gas reservoirs from z < 1 to z = 2.5, while the opposite is found for galaxies below the MS.
AB - We present a characterization of the physical properties of a sample of 35 securely detected, dusty galaxies in the deep ALMA 1.2 mm image obtained as part of the ALMA Spectroscopic Survey in the Hubble Ultra Deep Field (ASPECS) Large Program. This sample is complemented by 26 additional sources identified via an optical/infrared source positional prior. Using their well-characterized spectral energy distributions, we derive median stellar masses and star formation rates (SFR) of 4.8 × 1010, M⊙ and 30 M yr-1, respectively, and interquartile ranges of (2.4-11.7) × 1010 M and 20-50 M yr-1. We derive a median spectroscopic redshift of 1.8 with an interquartile range 1.1-2.6, significantly lower than submillimeter galaxies detected in shallower, wide-field surveys. We find that 59% ± 13%, 6% ± 4%, and 34% ± 9% of our sources are within, above, and below±0.4 dex from the SFR-stellar-mass relation or main sequence (MS), respectively. The ASPECS galaxies closely follow the SFR-molecular gas mass relation and other previously established scaling relations, confirming a factor of five increase of the gas-to-stellar-mass ratio from z = 0.5 to 2.5 and a mild evolution of the gas depletion timescales with a typical value of 0.7 Gyr at z = 1-3. ASPECS galaxies located significantly below the MS, a poorly exploited parameter space, have low gas-to-stellar-mass ratios of ∼0.1-0.2 and long depletion timescales >1 Gyr. Galaxies along the MS dominate the cosmic density of molecular gas at all redshifts. Systems above the MS have an increasing contribution to the total gas reservoirs from z < 1 to z = 2.5, while the opposite is found for galaxies below the MS.
UR - http://www.scopus.com/inward/record.url?scp=85092251398&partnerID=8YFLogxK
U2 - 10.3847/1538-4357/ab99a2
DO - 10.3847/1538-4357/ab99a2
M3 - Article
SN - 0004-637X
VL - 901
JO - Astrophysical Journal
JF - Astrophysical Journal
IS - 1
M1 - 79
ER -