A Microlensing Accretion Disk Size Measurement in the Lensed Quasar WFI 2026-4536

Abstract

We use thirteen seasons of R-band photometry from the 1.2m Leonard Euler Swiss Telescope at La Silla to examine microlensing variability in the quadruply-imaged lensed quasar WFI 2026-4536. The lightcurves exhibit \,0.2\,mag of uncorrelated variability across all epochs and a prominent single feature of \,0.1\,mag within a single season. We analyze this variability to constrain the size of the quasar's accretion disk. Adopting a nominal inclination of 60o, we find an accretion disk scale radius of (rs/cm) = 15.74+0.34-0.29 at a rest-frame wavelength of 2043\,xC5, and we estimate a black hole mass of (MBH/M) = 9.18+0.39-0.34, based on the CIV line in VLT spectra. This size measurement is fully consistent with the Quasar Accretion Disk Size - Black Hole Mass relation, providing another system in which the accretion disk is larger than predicted by thin disk theory.