Implications for unified schemes from submillimetre and far-infrared follow-up of radio-selected samples |
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Authors: | Jennifer A Grimes Steve Rawlings Chris J Willott |
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Institution: | University of Oxford, Astrophysics, Keble Road, Oxford OX1 3RH;Herzberg Institute of Astrophysics, National Research Council, 5071 West Saanich Road, Victoria, BC V9E 2E7, Canada |
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Abstract: | We extend our previous analysis which used generalized luminosity functions (GLFs) to predict the number of quasars and galaxies in low-radio-frequency-selected samples as a function of redshift, radio luminosity, narrow-emission-line luminosity and type of unified scheme. Our extended analysis incorporates the observed submillimetre (850-μm) flux densities of radio sources, employs a new method which allows us to deal with non-detections, and focuses on the high-luminosity population. First, we conclude that the submillimetre luminosity L 850 of low-frequency-selected radio sources is correlated with the bolometric luminosity L bol of their quasar nuclei via an approximate scaling relation L 850∝ L 0.7±0.2bol . Secondly, we conclude that there is quantitative evidence for a receding-torus-like physical process for the high-luminosity population within a two-population unified scheme for radio sources; this evidence comes from the fact that radio quasars are brighter in both narrow emission lines and submillimetre luminosity than radio galaxies matched in radio luminosity and redshift. Thirdly, we note that the combination of a receding-torus-like scheme and the assumption that the observed submillimetre emission is dominated by quasar-heated dust yields a scaling relation L 850∝ L 1/2bol which is within the errors of that determined here for radio-selected quasars, and consistent with that inferred for radio-quiet quasars. |
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Keywords: | galaxies: active galaxies: evolution quasars: general |
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