A roadmap to cosmological parameter analysis with third-order shear statistics
Sven Heydenreich, Laila Linke, Pierre Burger, Peter Schneider
Abstract
In this work, which is the first of a series to prepare a cosmological parameter analysis with third-order cosmic shear statistics, we model both the shear three-point correlation functions Γ ( i ) and the third-order aperture statistics $ {{\langle{{\mathcal{M}^3_\mathrm{ap}}}\rangle}} $ from the B I H ALOFIT bispectrum model and validate these statistics with a series of N -body simulations. We then investigate how to bin the shear three-point correlation functions to achieve an unbiased estimate for third-order aperture statistics in real data. Finally, we perform a cosmological parameter analysis on KiDS1000-like mock data with second- and third-order statistics. In the absence of systematic effects, we recover all cosmological parameters with very little bias. Furthermore, we find that a joint analysis almost doubles the constraining power on S 8 and increases the figure of merit in the Ω m - σ 8 plane by a factor of 5.9 with respect to an analysis with only second-order shear statistics.