The properties of extragalactic radio sources selected at 20 GHz

Sadler, Elaine M. ; Ricci, Roberto ; Ekers, Ronald D. ; Ekers, J. A. ; Hancock, Paul J. ; Jackson, Carole A. ; Kesteven, Michael J. ; Murphy, Tara ; Phillips, Chris ; Reinfrank, Robert F. ; Staveley-Smith, Lister ; Subrahmanyan, Ravi ; Walker, Mark A. ; Wilson, Warwick E. ; De Zotti, Gianfranco (2006) The properties of extragalactic radio sources selected at 20 GHz Monthly Notices of the Royal Astronomical Society, 371 (2). pp. 898-914. ISSN 0035-8711

Full text not available from this repository.

Official URL: https://onlinelibrary.wiley.com/doi/abs/10.1111/j....

Related URL: http://dx.doi.org/10.1111/j.1365-2966.2006.10729.x

Abstract

We present some first results on the variability, polarization and general properties of radio sources selected in a blind survey at 20 GHz, the highest frequency at which a sensitive radio survey has been carried out over a large area of sky. Sources with flux densities above 100 mJy in the AT20G Pilot Survey at declination -60 to -70 were observed at up to three epochs during 2002-4, including near-simultaneous measurements at 5, 8 and 18 GHz in 2003. Of the 173 sources detected, 65% are candidate QSOs, BL Lac objects or blazars, 20% galaxies and 15% faint (b > 22 mag) optical objects or blank fields. On a 1-2 year timescale, the general level of variability at 20 GHz appears to be low. For the 108 sources with good-quality measurements in both 2003 and 2004, the median variability index at 20 GHz was 6.9% and only five sources varied by more than 30% in flux density. Most sources in our sample show low levels of linear polarization (typically 1-5%), with a median fractional polarization of 2.3% at 20 GHz. There is a trend for fainter sources to show higher fractional polarization. At least 40% of sources selected at 20 GHz have strong spectral curvature over the frequency range 1-20 GHz. We use a radio `two-colour diagram' to characterize the radio spectra of our sample, and confirm that the radio-source population at 20 GHz (which is also the foreground point-source population for CMB anisotropy experiments like WMAP and Planck) cannot be reliably predicted by extrapolating the results of surveys at lower frequencies. As a result, direct selection at 20 GHz appears to be a more efficient way of identifying 90 GHz phase calibrators for ALMA than the currently-proposed technique of extrapolation from all-sky surveys at 1-5 GHz.

Item Type:Article
Source:Copyright of this article belongs to Royal Astronomical Society.
Keywords:Surveys; Galaxies: Active; Cosmic Microwave Background; Radio Continuum: General
ID Code:114248
Deposited On:22 May 2018 05:48
Last Modified:22 May 2018 05:48

Repository Staff Only: item control page