Herschel-ATLAS/GAMA: What determines the far-infrared properties of radio galaxies?
White, S. V.
de Zotti, G.
Michalowski, M. J.
Smith, M. W. L.
We perform a stacking analysis of Herschel Astrophysical Terahertz Large Area Survey (H-ATLAS) data in order to obtain isothermal dust temperatures and rest-frame luminosities at 250 mu m (L-250), for a well-defined sample of 1599 radio sources over the H-ATLAS Phase 1/Galaxy and Mass Assembly (GAMA) area. The radio sample is generated using a combination of NRAO VLA Sky Survey data and K-band United Kingdom Infrared Telescope Deep Sky Survey-Large Area Survey data, over the redshift range 0.01 <z <0.8. The far-infrared (FIR) properties of the sample are investigated as a function of 1.4-GHz luminosity, redshift, projected radio-source size and radio spectral index. In order to search for stellar-mass-dependent relations, we split the parent sample into those sources which are below and above 1.5 L-K*. After correcting for stellar mass and redshift, we find no relation between the 250-mu m luminosity and the 1.4-GHz radio luminosity of radio active galactic nuclei. This implies that a galaxy's nominal radio luminosity has little or no bearing on the star formation rate (SFR) and/or dust mass content of the host system, although this does not mean that other variables (e. g. radio source size) related to the jets do not have an effect. The L-250 of both the radio detected and non-radio-detected galaxies (defined as those sources not detected at 1.4 GHz but detected in the Sloan Digital Sky Survey with r' <22) rises with increasing redshift. Compact radio sources (30 kpc) counterparts. The higher dust temperature suggests that this may be attributed to enhanced SFRs in compact radio galaxies, but whether this is directly or indirectly due to radio activity (e. g. jet-induced or merger-driven star formation) is as yet unknown. For matched samples in L-K and g'-r', sub-1.5 L-K* and super-1.5 L-K* radio-detected galaxies have 0.89 +/- 0.18 and 0.49 +/- 0.12 times the 250 mu m luminosity of their non-radio-detected counterparts. Thus, while no difference in L-250 is observed in sub-1.5 L-K* radio-detected galaxies, a strong deficit is observed in super-1.5 L-K* radio-detected galaxies. We explain these results in terms of the hotter, denser and richer halo environments massive radio galaxies maintain and are embedded in. These environments are expected to quench the cold gas and dust supply needed for further star formation and therefore dust production. Our results indicate that all massive radio galaxies (>1.5 L-K*) may have systematically lower FIR luminosities (similar to 25 per cent) than their colour-matched non-radio-detected counterparts. Finally, no relation between radio spectral index and L-250 is found for the subset of 1.4-GHz radio sources with detections at 330 MHz.
Published inMonthly Notices of the Royal Astronomical Society
RelationsSchool of Physics, Astronomy and Mathematics
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