High-redshift Extreme Variability Quasars from Sloan Digital Sky Survey Multi-Epoch Spectroscopy

We perform a systematic search for high-redshift ($z >$ 1.5) extreme variability quasars (EVQs) using repeat spectra from the Sixteenth Data Release of Sloan Digital Sky Survey, which provides a baseline spanning up to $\sim$18 yrs in the observed frame. We compile a sample of 348 EVQs with a maximum continuum variability at rest frame 1450 Angstrom of more than 100% (i.e., $\delta$V $\equiv$ (Max$-$Min)/Mean $>$1). Among those EVQs, we discover 23 new Changing-Look Active Galactic Nuclei (CLAGNs) with CL behaviors in different UV lines, e.g., CIV, CIII], SiIV, and MgII. Importantly, spurious CLAGNs caused by SDSS problematic spectral flux calibration, e.g., fiber drop issue, are rejected. Compared with normal EVQs, we find that CLAGNs have systematically lower continuum luminosity and broader emission line widths, hence lower Eddington ratios. Statistical tests of EVQ/CLAGN properties suggest that CLAGNs are likely to be a subset of EVQs with less efficient accretion rather than a distinctive AGN population. Moreover, we find that the difference composite spectra (i.e., bright$-$faint) of EVQs and CLAGNs are both similar to those of normal quasars with a power-law slope of $\alpha_{\rm \lambda,diff}\sim-2$, further supporting that they belong to the same population with analogous intrinsic variability mechanisms, e.g., rapid accretion rate change with a possible state transition. Finally, we also confirm the anti-breathing of CIV (i.e., line width increases as luminosity increases) in EVQs, and find that in addition to $\sim$ 0.4 dex systematic uncertainty in single-epoch CIV virial black hole mass estimates, an extra scatter of $\sim$ 0.3 dex will be introduced by extreme variability.