Optical spectroscopy of two overlapping, flux-density-limited samples of radio sources in the North Ecliptic Cap, selected at 38 and 151 MHz |
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| Authors: | Mark Lacy Steve Rawlings Gary J Hill rew J Bunker Susan E Ridgway Daniel Stern |
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| Institution: | Astrophysics, Department of Physics, Keble Road, Oxford OX1 3RH; McDonald Observatory, University of Texas at Austin, TX 78712-1083, USA; Dept of Astronomy, University of California at Berkeley, 601 Campbell Hall, Berkeley, CA 94720, USA; Bloomberg Center for Physics &Astronomy, Johns Hopkins University, 3400 Charles Street, Baltimore, MD 21218, USA |
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| Abstract: | We present the results of optical spectroscopy of two flux-density-limited samples of radio sources selected at frequencies of 38 and 151 MHz in the same region around the North Ecliptic Cap, the 8C-NEC and 7C- iii samples respectively. Both samples are selected at flux density levels ≈20 times fainter than samples based on the 3C catalogue. They are amongst the first low-frequency selected samples with no spectral or angular size selection for which almost complete redshift information has been obtained, and contain many of the lowest-luminosity z >2 radio galaxies so far discovered. They will therefore provide a valuable resource for understanding the cosmic evolution of radio sources and their hosts and environments. The 151-MHz 7C- iii sample is selected to have S 151≥0.5 Jy and is the more spectroscopically complete; out of 54 radio sources fairly reliable redshifts have been obtained for 44 objects. The 8C sample has a flux limit of S 38≥1.3 Jy and contains 58 sources of which 46 have fairly reliable redshifts. We discuss possible biases in the observed redshift distribution, and some interesting individual objects, including a number of cases of probable gravitational lensing. Using the 8C-NEC and 7C- iii samples in conjunction, we form the first sample selected on low-frequency flux in the rest-frame of the source, rather than the usual selection on flux density in the observed frame. This allows us to remove the bias associated with an increasing rest-frame selection frequency with redshift. We investigate the difference this selection makes to correlations of radio source properties with redshift and luminosity by comparing the results from traditional flux-density selection with our new method. We show in particular that flux-density-based selection leads to an overestimate of the steepness of the correlation of radio source size with redshift. |
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| Keywords: | galaxies: active galaxies: evolution gravitational lensing radio continuum: galaxies |
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