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PMN J1838-3427: A New Gravitationally Lensed Quasar
journal contribution
posted on 2023-05-16, 19:52 authored by Winn, JN, Hewitt, JN, Schechter, PL, Dressler, A, Falco, EF, Impey, CD, Kochanek, CS, Lehar, J, James LovellJames Lovell, McLeod, BA, Morgan, ND, Munoz, JA, Rix, HW, Ruiz, MTWe report the discovery of a new double-image quasar that was found during a search for gravitational lenses in the southern sky. Radio source PMN J1838-3427 is composed of two flat-spectrum components with separation I″.0, flux density ratio 14:1, and matching spectral indices in VLA and VLBA images. Ground-based BRI images show the optical counterpart (total I = 18.6) is also double, with the same separation and position angle as the radio components. An HST/WFPC2 image reveals the lens galaxy. The optical flux ratio (27:1) is higher than the radio value, probably because of differential extinction of the components by the lens galaxy. An optical spectrum of the bright component contains quasar emission lines at z = 2.78 and several absorption features, including prominent Lyα absorption. The lens galaxy redshift could not be measured, but it is estimated to be z = 0.36 ± 0.08. The image configuration is consistent with the simplest plausible models for the lens potential. The flat radio spectrum and observed variability of PMN J1838 - 3427 suggest that the time delay between flux variations of the components is measurable and could thus provide an independent measurement of H 0 .
History
Publication title
The Astronomical JournalVolume
120Issue
6Pagination
2868-2878ISSN
0004-6256Department/School
School of Natural SciencesPublisher
University of Chicago PressPlace of publication
Chicago, USARepository Status
- Restricted