Characterizing the Best Cosmic Telescopes with the Millennium Simulations

Abstract

Certain configurations of massive structures projected along the line of sight maximize the number of detections of gravitationally lensed z10 galaxies. We characterize such lines of sight with the \'etendue σμ, the area in the source plane magnified over some threshold μ. We use the Millennium I and Millennium XXL cosmological simulations to determine the frequency of high σμ beams on the sky, their properties, and efficient selection criteria. We define the best beams as having σμ>3 >2000 arcsec2, for a z10 source plane, and predict 477 21 such beams on the sky. The total mass in the beam and σμ>3 are strongly correlated. After controlling for total mass, we find a significant residual correlation between σμ>3 and the number of cluster-scale halos (>1014 M h-1) in the beam. Beams with σμ>3 >2000 arcsec2, which should be best at lensing z10 galaxies, are ten times more likely to contain multiple cluster-scale halos than a single cluster-scale halo. Beams containing an Abell 1689-like massive cluster halo often have additional structures along the line of sight, including at least one additional cluster-scale (M200>1014M h-1) halo 28% of the time. Selecting beams with multiple, massive structures will lead to enhanced detection of the most distant and intrinsically faint galaxies.