Matching Cosmic Shear Analysis in Harmonic and Real Space
Abstract
Recent cosmic shear analyses have exhibited discrepancies of up to 1σ between the inferred cosmological parameters when analyzing summary statistics in real space versus harmonic space. In this paper, we demonstrate the consistent measurement and analysis of cosmic shear two-point functions in harmonic and real space using the i Master algorithm. This algorithm provides a unified prescription to model the survey window effects and scale cuts in both real space (due to observational systematics) and harmonic space (due to model limitations), resulting in a matching estimation of the cosmic shear power spectrum from both harmonic and real space estimators. We show that the iMaster algorithm gives matching results using measurements from the HSC Y1 mock shape catalogs in both real and harmonic space, resulting in matching inferences of S8=σ8(m/0.3)0.5. This method provides an unbiased estimate of the cosmic shear power spectrum, and S8 inference that has a correlation coefficient of 0.997 between analyses using measurements in real space and harmonic space when S8 is the only free parameter. We observe the mean difference between the two inferred S8 values to be 0.0004 across noise-free mock realizations, far below the observed difference of 0.042 for the published HSC Y1 analyses and well below the statistical uncertainties. While the notation employed in this paper is specific to photometric galaxy surveys, the methods are equally applicable and can be extended to spectroscopic galaxy surveys, intensity mapping, and CMB surveys.
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