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Combined CO and dust scaling relations of depletion time and molecular gas fractions with cosmic time, specific star-formation rate, and stellar mass

Authors :
Genzel, R
Genzel, R
Tacconi, LJ
Lutz, D
Saintonge, A
Berta, S
Magnelli, B
Combes, F
García-Burillo, S
Neri, R
Bolatto, A
Contini, T
Lilly, S
Boissier, J
Boone, F
Bouché, N
Bournaud, F
Burkert, A
Carollo, M
Colina, L
Cooper, MC
Cox, P
Feruglio, C
Förster Schreiber, NM
Freundlich, J
Gracia-Carpio, J
Juneau, S
Kovac, K
Lippa, M
Naab, T
Salome, P
Renzini, A
Sternberg, A
Walter, F
Weiner, B
Weiss, A
Wuyts, S
Genzel, R
Genzel, R
Tacconi, LJ
Lutz, D
Saintonge, A
Berta, S
Magnelli, B
Combes, F
García-Burillo, S
Neri, R
Bolatto, A
Contini, T
Lilly, S
Boissier, J
Boone, F
Bouché, N
Bournaud, F
Burkert, A
Carollo, M
Colina, L
Cooper, MC
Cox, P
Feruglio, C
Förster Schreiber, NM
Freundlich, J
Gracia-Carpio, J
Juneau, S
Kovac, K
Lippa, M
Naab, T
Salome, P
Renzini, A
Sternberg, A
Walter, F
Weiner, B
Weiss, A
Wuyts, S
Source :
Astrophysical Journal; vol 800, iss 1, 20-20; 0004-637X
Publication Year :
2015

Abstract

We combine molecular gas masses inferred from CO emission in 500 star-forming galaxies (SFGs) between z = 0 and 3, from the IRAM-COLDGASS, PHIBSS1/2, and other surveys, with gas masses derived from Herschel far-IR dust measurements in 512 galaxy stacks over the same stellar mass/redshift range. We constrain the scaling relations of molecular gas depletion timescale (tdepl) and gas to stellar mass ratio (Mmol gas/M∗) of SFGs near the star formation "main-sequence" with redshift, specific star-formation rate (sSFR), and stellar mass (M∗). The CO- and dust-based scaling relations agree remarkably well. This suggests that the CO → H2 mass conversion factor varies little within ±0.6 dex of the main sequence (sSFR(ms, z, M∗)), and less than 0.3 dex throughout this redshift range. This study builds on and strengthens the results of earlier work. We find that tdepl scales as (1 + z)-0.3 × (sSFR/sSFR(ms, z, M∗))-0.5, with little dependence on M∗. The resulting steep redshift dependence of Mmol gas/M∗≈ (1 + z)3 mirrors that of the sSFR and probably reflects the gas supply rate. The decreasing gas fractions at high M∗are driven by the flattening of the SFR-M∗relation. Throughout the probed redshift range a combination of an increasing gas fraction and a decreasing depletion timescale causes a larger sSFR at constant M∗. As a result, galaxy integrated samples of the Mmol gas-SFR rate relation exhibit a super-linear slope, which increases with the range of sSFR. With these new relations it is now possible to determine Mmol gas with an accuracy of ±0.1 dex in relative terms, and ±0.2 dex including systematic uncertainties.

Details

Database :
OAIster
Journal :
Astrophysical Journal; vol 800, iss 1, 20-20; 0004-637X
Notes :
application/pdf, Astrophysical Journal vol 800, iss 1, 20-20 0004-637X
Publication Type :
Electronic Resource
Accession number :
edsoai.on1367511556
Document Type :
Electronic Resource