GAS FRACTION AND DEPLETION TIME OF MASSIVE STAR-FORMING GALAXIES AT z similar to 3.2: NO CHANGE IN GLOBAL STAR FORMATION PROCESS OUT TO z > 3
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Authors
Schinnerer, E.
Groves, Brent Allan
Sargent, M. T.
Karim, A
Oesch, P. A.
Magnelli, B
LeFevre, O.
Tasca, L.
Civano, F.
Cassata, P.
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IOP Publishing
Abstract
The observed evolution of the gas fraction and its associated depletion time in main-sequence (MS) galaxies provides insights on how star formation proceeds over cosmic time. We report ALMA detections of the rest-frame ∼300 μm continuum observed at 240 GHz for 45 massive (álog 10.7 ( ( )) M M ñ = ), normal star-forming (álog sSFR yr 8.6 ( ( )) -1 ñ=- ), i.e., MS, galaxies at z » 3.2 in the COSMOS field. From an empirical calibration between cold neutral, i.e., molecular and atomic, gas mass Mgas and monochromatic (rest-frame) infrared luminosity, the gas mass for this sample is derived. Combined with stellar mass M and star formation rate (SFR) estimates (from MAGPHYS fits) we obtain a median gas fraction of m = = - M M + 1.65 gas gas 0.19 0.18 and a median gas depletion time ( ) = = - + t M depl. gas SFR Gyr 0.68 ; 0.08 0.07 correction for the location on the MS will only slightly change the values. The reported uncertainties are the 1s error on the median. Our results are fully consistent with the expected flattening of the redshift evolution from the 2-SFM (2 star formation mode) framework which empirically prescribes the evolution assuming a universal, log-linear relation between SFR and gas mass coupled to the redshift evolution of the specific star formation rate (sSFR) of MS galaxies. While tdepl. shows only a mild dependence on location within the MS, a clear trend of increasing mgas across the MS is observed (as known from previous studies). Further, we comment on trends within the MS and (in)consistencies with other studies.
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The Astrophysical Journal
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Open Access