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Nine lensed quasars and quasar pairs discovered through spatially extended variability in Pan-STARRS

Frédéric Dux, Cameron Lemon, F. Courbin, Favio Neira, T. Anguita, A. Galan, S. Kim, M. Hempel, A. Hempel, R. Lachaume

2023Astronomy and Astrophysics11 citationsDOIOpen Access PDF

Abstract

We present the proof of concept of a method for finding strongly lensed quasars using their spatially extended photometric variability through difference imaging in cadenced imaging survey data. We applied the method to Pan-STARRS, starting with an initial selection of 14 107 Gaia multiplets with quasar-like infrared colours from WISE. We identified 229 candidates showing notable spatially extended variability during the Pan-STARRS survey period. These include 20 known lenses and an additional 12 promising candidates for which we obtained long-slit spectroscopy follow-up. This process resulted in the confirmation of four doubly lensed quasars, four unclassified quasar pairs, and one projected quasar pair. Only three are pairs of stars or quasar+star projections. The false-positive rate accordingly is 25%. The lens separations are between 0.81″ and 1.24″, and the source redshifts lie between z = 1.47 and z = 2.46. Three of the unclassified quasar pairs are promising dual-quasar candidates with separations ranging from 6.6 to 9.3 kpc. We expect that this technique is a particularly efficient way to select lensed variables in the upcoming Rubin -LSST, which will be crucial given the expected limitations for spectroscopic follow-up.

Topics & Concepts

QuasarPhysicsAstrophysicsRedshiftStarsAstronomyStar formationGalaxyAstronomy and Astrophysical ResearchStellar, planetary, and galactic studiesStatistical and numerical algorithms