Evolution of the far-infrared-radio correlation and infrared spectral energy distributions of massive galaxies over z= 0-2
We investigate the far-infrared-radio correlation (FRC) of stellar-mass-selected galaxies in the Extended Chandra Deep Field-South using far-infrared (FIR) imaging from Spitzer and radio imaging from the Very Large Array and Giant Metre-Wave Radio Telescope. We stack in redshift bins to probe galaxi...
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| Veröffentlicht in: | Monthly notices of the Royal Astronomical Society 2011-01, Vol.410 (2), p.1155-1173 |
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| creator | Bourne, N. Dunne, L. Ivison, R. J. Maddox, S. J. Dickinson, M. Frayer, D. T. |
| description | We investigate the far-infrared-radio correlation (FRC) of stellar-mass-selected galaxies in the Extended Chandra Deep Field-South using far-infrared (FIR) imaging from Spitzer and radio imaging from the Very Large Array and Giant Metre-Wave Radio Telescope. We stack in redshift bins to probe galaxies below the noise and confusion limits. Radio fluxes are K-corrected using observed flux ratios, leading to tentative evidence for an evolution in spectral index. We compare spectral energy distribution (SED) templates of local galaxies for K-correcting FIR fluxes and show that the data are best fitted by a quiescent spiral template (M51) rather than a warm starburst (M82) or ultra-luminous infrared galaxy (Arp 220), implying a predominance of cold dust in massive galaxies at high redshift. In contrast, we measure total infrared luminosities that are consistent with high star-formation rates. We observe that the FRC index (q) does not evolve significantly over z= 0-2 when computed from K-corrected 24- or 160-μm photometry, but that using 70-μm fluxes leads to an apparent decline in q beyond z∼ 1. This suggests some change in the SED at high redshift, either a steepening of the spectrum at rest-frame ∼25-35 μm or a deficiency at ∼70 μm leading to a drop in the total infrared-radio ratios. We compare our results to other work in the literature and find synergies with recent findings on the high-redshift FRC, high specific star formation rates of massive galaxies and the cold dust temperatures in these galaxies. |
| doi_str_mv | 10.1111/j.1365-2966.2010.17517.x |
| format | Article |
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| subjects | Astronomy Earth, ocean, space Exact sciences and technology galaxies: evolution galaxies: high-redshift galaxies: ISM Infrared imaging systems infrared: galaxies Radio astronomy radio continuum: galaxies Red shift Spectrum analysis Stars & galaxies |
| title | Evolution of the far-infrared-radio correlation and infrared spectral energy distributions of massive galaxies over z= 0-2 |
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