Evolution of the far-infrared luminosity functions in the Spitzer Wide-area Infrared Extragalactic Legacy Survey

Afonso-Luis, A.; Rowan-Robinson, M.; Pérez-Fournon, I.; Mortlock, D. J.; Vaccari, M.; Clements, D. L.; Patel, H.
Bibliographical reference

Monthly Notices of the Royal Astronomical Society, Volume 428, Issue 1, p.291-306

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1
2013
Number of authors
7
IAC number of authors
2
Citations
27
Refereed citations
26
Description
We present new observational determination of the evolution of the rest-frame 70 and 160 μm and total infrared (TIR) galaxy luminosity functions (LFs) using 70 and 160 μm data from the Spitzer Wide-area Infrared Extragalactic (SWIRE) Legacy survey. The LFs were constructed for sources with spectroscopic redshifts only in the XMM-LSS and Lockman Hole fields from the SWIRE photometric redshift catalogue. The 70 μm and TIR LFs were constructed in the redshift range 0 < z < 1.2 and the 160 μm LF was constructed in the redshift range 0 < z < 0.5 using a parametric Bayesian and the 1/Vmax methods. We assume in our models that the faint-end power-law index of the LF does not evolve with redshift. We find that the double power-law model is a better representation of the infrared (IR) LF than the more commonly used power-law and Gaussian model. We model the evolution of the far-IR LFs as a function of redshift where the characteristic luminosity L* evolve as ∝ (1+z)^{α _L}. The rest-frame 70 μm LF shows a strong luminosity evolution out to z = 1.2 with α _L=3.41^{+0.18}_{-0.25}. The rest-frame 160 μm LF also showed rapid luminosity evolution with α _L=5.53^{+0.28}_{-0.23} out to z = 0.5. The rate of evolution in luminosity is consistent with values estimated from previous studies using data from IRAS, ISO and Spitzer. The TIR LF evolves in luminosity with α _L=3.82^{+0.28}_{-0.16} which is in agreement with previous results from Spitzer 24 μm which find strong luminosity evolution. By integrating the LF we calculated the comoving IR luminosity density out to z = 1.2, which confirms the rapid evolution in number density of luminous IR galaxies which contribute ˜ 68+ 10- 07 per cent to the comoving star formation rate density at z = 1.2. Our results based on 70 μm data confirm that the bulk of the star formation at z = 1 takes place in dust-obscured objects.
Related projects
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Formation and Evolution of Galaxies: Observations in Infrared and other Wavelengths
This IAC research group carries out several extragalactic projects in different spectral ranges, using space as well as ground-based telescopes, to study the cosmological evolution of galaxies and the origin of nuclear activity in active galaxies. The group is a member of the international consortium which built the SPIRE instrument for the
Ismael
Pérez Fournon