High-redshift quasars at z ≥ 3 -- I. Radio spectra

Abstract

We present the radio properties of optically selected quasars with z≥3. The complete sample consists of 102 quasars with a flux density level S1.4≥100 mJy in a declination range -35 ≤ Dec ≤ +49. The observations were obtained in 2017-2020 using the radio telescope RATAN-600. We measured flux densities at six frequencies 1.2, 2.3, 4.7, 8.2, 11.2, and 22 GHz quasi-simultaneously with uncertainties of 9-31 %. The detection rate is 100, 89, and 46 % at 4.7, 11.2, and 22 GHz, respectively. We have analysed the averaged radio spectra of the quasars based on the RATAN and literature data. We classify 46 % of radio spectra as peaked-spectrum, 24 % as flat, and none as ultra-steep spectra (α≤-1.1). The multifrequency data reveal that a peaked spectral shape (PS) is a common feature for bright high-redshift quasars. This indicates the dominance of bright compact core emission and the insignificant contribution of extended optically thin kpc-scale components in observed radio spectra. Using these new radio data, the radio loudness ~R was estimated for 71 objects with a median value of 3.5, showing that the majority of the quasars are highly radio-loud with ~R>2.5. We have not found any significant correlation between z and α. Several new megahertz-peaked spectrum (MPS) and gigahertz-peaked spectrum (GPS) candidates are suggested. Further studies of their variability and additional low-frequency observations are needed to classify them precisely.