Discovery and characterization of 25 new quasars at 4.6 < z < 6.9 from wide-field multi-band surveys

Abstract

Luminous quasars at z>4 provide key insights into the early Universe. Their rarity necessitates wide-field multi-band surveys to efficiently separate them from the main astrophysical contaminants (i.e., ultracool dwarfs). To expand the sample of high-z quasars, we conducted targeted selections using optical, infrared, and radio surveys, complemented by literature-based quasar candidate catalogs. In this paper, we report the discovery of \ new quasars at 4.6<z<6.9 (six at z≥6.5), with M1450 between -25.4 and -27.0. We also present new spectra of six z>6.5 quasars we selected, but whose independent discovery has already been published in the literature. Three of the newly discovered quasars are strong radio emitters (L1.4~ GHz=0.09-1.0×1034erg s-1 Hz-1). Among them, one source at z=4.71 exhibits typical blazar-like properties, including a flat radio spectrum, radio-loudness 1000, and multi-frequency variability. It is also detected by SRG/eROSITA X-ray telescope (f 0.2-2.3keV 1.3×10-13erg s-1 cm-2). In addition, for seven 6.3<z<6.9 quasars we present near-infrared spectroscopy and estimate the central black hole mass from their C IV and Mg II broad emission lines.Their masses (log[M BH,MgII]=8.58-9.14~ M) and Eddington ratios (λ Edd,MgII=0.74-2.2) are consistent with other z>6 quasars reported in the literature. A z = 6.3 quasar exhibits a velocity difference of approximately 9000 km s-1 between the C IV and Mg II emission lines, making it one of the most extreme C IV outflows currently known. Additionally, the sample includes three high-ionization broad absorption line quasars. One of these quasars shows potential evidence of an extremely fast outflow feature, reaching 48000 km s-1.