SLICE: SPT-CL J0546-5345 -- A prominent strong-lensing cluster at z=1.07

Abstract

Massive galaxy clusters act as prominent strong-lenses. Due to a combination of observational biases, cluster evolution and lensing efficiency, most of the known cluster lenses lie typically at zl0.2-0.7, with only a few prominent examples at higher redshifts. Here we report a first strong-lensing analysis of the massive galaxy cluster SPT-CL J0546-5345 at a redshift zl=1.07. This cluster was first detected through the Sunyaev-Zel'dovich effect, with a high estimated mass for its redshift of M200,c = (7.95 0.92) × 1014\,M. Using recent JWST/NIRCam and archival HST imaging, we identify at least 10 secure and 6 candidate sets of multiply imaged background galaxies, which we use to constrain the mass distribution in the cluster. We derive effective Einstein radii of θE= 18.1 1.8 '' for a source at zs=3, and θE= 27.9 2.8 '' for a source at zs=9. The total projected mass within a 200 kpc radius around the strong-lensing region is M(<200\,kpc) = (1.9 0.3) × 1014\,M. While our results rely on photometric redshifts warranting spectroscopic follow-up, this central mass resembles that of the Hubble Frontier Fields clusters - although SPT-CL J0546-5345 is observed when the Universe was 3-4 Gyr younger. Amongst the multiply-imaged sources, we identify a hyperbolic-umbilic-like configuration, and, thanks to its point-like morphology, a possible Active Galactic Nucleus (AGN). If confirmed spectroscopically, it will add to just a handful of other quasars and AGN known to be multiply lensed by galaxy clusters.