KiDS-1000 cosmology: Combined second- and third-order shear statistics

Abstract

This paper performs the first cosmological parameter analysis of the KiDS-1000 data with second- and third-order shear statistics. This work builds on a series of papers that describe the roadmap to third-order shear statistics. We derive and test a combined model of the second-order shear statistic, namely the COSEBIs and the third-order aperture mass statistics Map3 in a tomographic set-up. We validate our pipeline with N-body simulations that mock the fourth Kilo Degree survey data release. To model the second- and third-order statistics, we use the latest version of HMcode2020 for the power spectrum and BiHalofit for the bispectrum. Furthermore, we use an analytic description to model intrinsic alignments and hydro-dynamical simulations to model the effect of baryonic feedback processes. Lastly, we decreased the dimension of the data vector significantly by considering for the Map3 part of the data vector only equal smoothing radii, making a data analysis of the fourth Kilo Degree survey data release using a combined analysis of COSEBIs third-order shear statistic possible. We first validate the accuracy of our modelling by analysing a noise-free mock data vector assuming the KiDS-1000 error budget, finding a shift in the maximum-a-posterior of the matter density parameter m< 0.02\, σ_m and of the structure growth parameter S8 < 0.05\, σS8. Lastly, we performed the first KiDS-1000 cosmological analysis using a combined analysis of second- and third-order shear statistics, where we constrained m=0.248+0.062-0.055 and S8=σ8m/0.3=0.7720.022. The geometric average on the errors of m and S8 of the combined statistics increased compared to the second-order statistic by 2.2.