A Wide and Deep Exploration of Radio-detected Active Galactic Nuclei with Subaru HSC (WERGS). XIII. High-Redshift Radio Quasar candidates beyond Ultra-Steep Spectrum Selection: Dropout selection from HSC--VLASS over 1200 deg2

Abstract

We report the results of g-, r-, and i-dropout selections based on optical identifications of Very Large Array Sky Survey (VLASS) radio sources using the Hyper Suprime-Cam Subaru Strategic Program survey (HSC--SSP). By positional crossmatching within 1''.5 between the VLASS Epoch~2 catalog and the HSC--SSP Wide-layer catalog (i 26), we obtain 400 high-redshift radio AGN candidates at z 4 over a ≈1200~deg2 survey footprint, extending optimistically to z 7. Optical magnitudes cluster at iAB 24--26, indicating that these sources are largely inaccessible to shallower surveys such as SDSS. By further cross-matching the HSC--VLASS dropout catalog with VLA Faint Images of the Radio Sky at Twenty-centimeters (FIRST) at 1.4~GHz, the LOFAR Two-metre Sky Survey (LoTSS) at 144~MHz, and the TIFR GMRT Sky Survey (TGSS) at 150~MHz, the majority of the high-z candidates show flat to moderately steep radio spectra (-1 α 0, with f α), and some also exhibit turnover radio spectra, demonstrating that conventional ultra-steep-spectrum (USS; α<-1.3) selection would miss most of the population selected in this study. Building on this, we perform SED fitting and obtain AGN luminosities, which show a clustering at typical bolometric luminosities of (L bol/ erg~s-1)46--47. We also examine the comoving number density distribution of our samples and find a sharp decline around the i-dropout regime (z 6), suggesting the possible disappearance of luminous radio AGNs toward the epoch of reionization.

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