UV to IR SEDs of UV-Selected Galaxies in the ELAIS Fields: Evolution of Dust Attenuation and Star Formation Activity from z = 0.7 to 0.2

We study the ultraviolet to far-infrared (hereafter UV-to-IR) SEDs of a sample of intermediate-redshift (0.2 less than or equal to z < 0.7) UV-selected galaxies from the ELAIS N1 and ELAIS N2 fields by fitting a multi-wavelength data set to a library of GRASIL templates. Star formation related pr...

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Veröffentlicht in:The Astrophysical journal 2007-11, Vol.670 (1), p.279-294
Hauptverfasser: Iglesias-Páramo, J, Buat, V, Hernández-Fernández, J, Xu, C. K, Burgarella, D, Takeuchi, T. T, Boselli, A, Shupe, D, Rowan-Robinson, M, Babbedge, T, Conrow, T, Fang, F, Farrah, D, González-Solares, E, Lonsdale, C, Smith, G, Surace, J, Barlow, T. A, Forster, K, Friedman, P. G, Martin, D. C, Morrissey, P, Neff, S. G, Schiminovich, D, Seibert, M, Small, T, Wyder, T. K, Bianchi, L, Donas, J, Heckman, T. M, Lee, Y.-W, Madore, B. F, Milliard, B, Rich, R. M, Szalay, A. S, Welsh, B. Y, Yi, S. K
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Sprache:eng
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Zusammenfassung:We study the ultraviolet to far-infrared (hereafter UV-to-IR) SEDs of a sample of intermediate-redshift (0.2 less than or equal to z < 0.7) UV-selected galaxies from the ELAIS N1 and ELAIS N2 fields by fitting a multi-wavelength data set to a library of GRASIL templates. Star formation related properties of the galaxies are derived from the library of models by using Bayesian statistics. We find a decreasing presence of galaxies with low attenuation and low total luminosity as redshift decreases, which does not hold for high total luminosity galaxies. In addition, the dust attenuation of low-mass galaxies increases as redshift decreases, and this trend seems to disappear for galaxies with [unk] greater than or equal to 10 super(11) M [unk]. This result is consistent with a mass-dependent evolution of the dust-to-gas ratio, which could be driven by a mass-dependent efficiency of star formation in star-forming galaxies. The specific star formation rates (SSFR) decrease with increasing stellar mass at all redshifts, and for a given stellar mass the SSFR decreases with decreasing redshift. The differences in the slope of the M*-SSFR relation found between this work and others at similar redshift could be explained by the adopted selection criteria of the samples, which for a UV-selected sample, favors blue, star-forming galaxies.
ISSN:0004-637X
1538-4357
DOI:10.1086/521867