A Closer Look at Two of the Most Luminous Quasars in the Universe

Abstract

Ultra-luminous quasars (M1450 ≤ -29) provide us with a rare view into the nature of the most massive and most rapidly accreting supermassive black holes (SMBHs). Following the discovery of two of these extreme sources, J0341+1720 (M1450=-29.56, z=3.71) and J2125-1719 (M1450=-29.39, z=3.90), in the Extremely Luminous Quasar Survey (ELQS) and its extension to the Pan-STARRS\,1 footprint (PS-ELQS), we herein present an analysis of their rest-frame UV to optical spectroscopy. Both quasars harbor very massive SMBHs with MBH=6.73-0.83+0.75×109\,M and MBH=5.45-0.55+0.60×109\,M, respectively, showing evidence of accretion above the Eddington limit (Lbol/LEdd=2.74-0.27+0.39 and Lbol/LEdd=3.01-0.30+0.34). NOEMA 3 millimeter observations of J0341+1720 reveal a highly star-forming (SFR≈1500\,M\,yr-1), ultra-luminous infrared galaxy (LTIR≈1.0×1013\,L) host, which, based on an estimate of its dynamical mass, is only 30 times more massive than the SMBH it harbors at its center. As examples of luminous super-Eddington accretion, these two quasars provide support for theories, which explain the existence of billion solar mass SMBHs 700 million years after the Big Bang by moderate super-Eddington growth from standard SMBH seeds.