Discovery of an X-ray Luminous Radio-Loud Quasar at z=3.4: A Possible Transitional Super-Eddington Phase

Abstract

We report the multiwavelength properties of eFEDS J084222.9+001000 (hereafter ID830), a quasar at z=3.4351, identified as the most X-ray luminous radio-loud quasar in the eROSITA Final Equatorial Depth Survey (eFEDS) field. ID830 shows a rest-frame 0.5-2 keV luminosity of (L0.5-2\,keV/erg~s-1) = 46.20 0.12, with a steep X-ray photon index ( =2.43 0.21), and a significant radio counterpart detected with VLA/FIRST 1.4 GHz and VLASS 3 GHz bands. The rest-frame UV to optical spectra from SDSS and Subaru/MOIRCS J-band show a dust reddened quasar feature with AV = 0.39 0.08 mag and the expected bolometric AGN luminosity from the dust-extinction-corrected UV luminosity reaches Lbol,3000= (7.62 0.31) × 1046 erg s-1. We estimate the black hole mass of MBH = (4.40 0.72) × 108 M based on the MgIIλ2800 emission line width, and an Eddington ratio from the dust-extinction-corrected UV continuum luminosity reaches λEdd,UV=1.44 0.24 and λEdd,X = 12.8 3.9 from the X-ray luminosity, both indicating the super-Eddington accretion. ID830 shows a high ratio of UV-to-X-ray luminosities, αOX=-1.20 0.07 (or αOX=-1.42 0.07 after correcting for jet-linked X-ray excess), higher than quasars and little red dots in super-Eddington phase with similar UV luminosities, with αOX<-1.8. Such a high αOX suggests the coexistence of a prominent radio jet and X-ray corona, in this high Eddington accretion phase. We propose that ID830 may be in a transitional phase after an accretion burst, evolving from a super-Eddington to a sub-Eddington state, which could naturally describe the high αOX.

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