Strong-Lensing Analysis of MS 1358.4+6245: New Multiple Images and Implications for the Well-Resolved z=4.92 Galaxy

Abstract

We present a strong-lensing analysis of the galaxy cluster MS 1358.4+6245 (z=0.33), in deep 6-band ACS/HST imaging. In addition to the well-studied system at z=4.92, our modelling method uncovers 19 new multiply-lensed images so that a total of 23 images and their redshifts are used to accurately constrain the inner mass distribution. We derive a relatively shallow inner mass profile, d /d r -0.33 0.05 (r<200 kpc), with a much higher magnification than estimated previously by models constrained only by the z=4.92 system. Using these many new images we can apply a non-parametric adaptive-grid method, which also yields a shallow mass profile without prior assumptions, strengthening our conclusions. The total magnification of the zs=4.92 galaxy is high, about a 100× over its four images, so that the inferred source size, luminosity and star-formation rate are about 5× smaller than previous estimates, corresponding to a dwarf-sized galaxy of radius 1 kpc. A detailed image of the interior morphology of the source is generated with a high effective resolution of only 50 pc, thanks to the high magnification and to the declining angular diameter distance above z1.5 for the standard cosmology, so that this image apparently represents the best resolved object known at high redshift.