Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 747, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/2041-8205/747/2/L31
Keywords
cosmology: observations; galaxies: evolution; galaxies: luminosity function, mass function; galaxies: starburst; surveys
Categories
Funding
- ERC-StG UPGAL [240039]
- [ANR-08-JCJC-0008]
- European Research Council (ERC) [240039] Funding Source: European Research Council (ERC)
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We present a parameterless approach to predict the shape of the infrared (IR) luminosity function (LF) at redshifts z <= 2. It requires no tuning and relies on only three observables: (1) the redshift evolution of the stellarmass function for star-forming galaxies, (2) the evolution of the specific star formation rate (sSFR) of main-sequence galaxies, and (3) the double-Gaussian decomposition of the sSFR distribution at fixed stellar mass into a contribution (assumed redshift- and mass-invariant) from main-sequence and starburst activity. This self-consistent and simple framework provides a powerful tool for predicting cosmological observables: observed IR LFs are successfully matched at all z <= 2, suggesting a constant or only weakly redshift-dependent contribution (8%-14%) of starbursts to the SFR density. We separate the contributions of main-sequence and starburst activity to the global IR LF at all redshifts. The luminosity threshold above which the starburst component dominates the IR LF rises from log(L-IR/L-circle dot) = 11.4 to 12.8 over 0 < z < 2, reflecting our assumed (1+z)(2.8)-evolution of sSFR in main-sequence galaxies.
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