Cosmic variance of weak lensing surveys in the non-Gaussian regime

Abstract

The results from weak gravitational lensing analyses are subject to a cosmic variance error term that has previously been estimated assuming Gaussian statistics. In this letter we address the issue of estimating cosmic variance errors for weak lensing surveys in the non-Gaussian regime. Using standard cold dark matter model ray-tracing simulations characterized by Omegam=0.3, OmegaLambda=0.7, h=0.7, sigma8=1.0 for different survey redshifts zs, we determine the variance of the two-point shear correlation function measured across 64 independent lines of sight. We compare the measured variance to the variance expected from a random Gaussian field and derive a redshift-dependent non-Gaussian calibration relation. We find that the ratio can be as high as ~30 for a survey with source redshift zs ~ 0.5 and ~10 for zs ~ 1. The transition scale thetac above which the ratio is consistent with unity, is found to be thetac ~ 20 arcmin for zs ~ 0.5 and thetac ~ 10 arcmin for zs ~ 1. We provide fitting formula to our results permitting the estimation of non-Gaussian cosmic variance errors for any weak lensing analysis, and discuss the impact on current and future surveys. A more extensive set of simulations will however be required to investigate the dependence of our results on cosmology, specifically on the amplitude of clustering.

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