A highly elongated prominent lens at z=0.87: first strong lensing analysis of El Gordo

Abstract

We present the first strong-lensing (SL) analysis of the galaxy cluster ACT-CL J0102-4915 (El Gordo), in recent HST/ACS images, revealing a prominent strong lens at a redshift of z=0.87. This finding adds to the already-established unique properties of El Gordo: it is the most massive, hot, X-ray luminous, and bright Sunyaev-Zeldovich effect cluster at z0.6, and the only `bullet'-like merging cluster known at these redshifts. The lens consists of two merging massive clumps, where for a source redshift of zs2 each clump exhibits only a small, separate critical area, with a total area of 0.690.11 over the two clumps. For a higher source redshift, zs4, the critical curves of the two clumps merge together into one bigger and very elongated lens (axis ratio 5.5), enclosing an effective area of 1.440.22. The critical curves continue expanding with increasing redshift so that for high-redshift sources (zs9) they enclose an area of 1.910.30 (effective θe46.83.7) and a mass of 6.091.04×1014M. According to our model, the area of high magnification (μ>10) for such high redshift sources is 1.2, and the area with μ>5 is 2.3, making El Gordo a compelling target for studying the high-redshift Universe. We obtain a strong lower limit on the total mass of El Gordo, 1.7×1015M from the SL regime alone, suggesting a total mass of, roughly, M2002.3×1015M. Our results should be revisited when additional spectroscopic and HST imaging data are available.