Dark Energy Survey Year 3 Results: Cosmological constraints from second and third-order shear statistics

Abstract

We present a cosmological analysis of the third-order aperture mass statistic using Dark Energy Survey Year 3 (DES Y3) data. We perform a complete tomographic measurement of the three-point correlation function of the Y3 weak lensing shape catalog with the four fiducial source redshift bins. Building upon our companion methodology paper, we apply a pipeline that combines the two-point function with the mass aperture skewness statistic M ap3, which is an efficient compression of the full shear three-point function. We use a suite of simulated shear maps to obtain a joint covariance matrix. By jointly analyzing and M ap3 measured from DES Y3 data with a model, we find S8=0.7800.015 and m=0.266+0.039-0.040, yielding 111% of figure-of-merit improvement in m-S8 plane relative to alone, consistent with expectations from simulated likelihood analyses. With a wCDM model, we find S8=0.749+0.027-0.026 and w0=-1.39 0.31, which gives an improvement of 22\% on the joint S8-w0 constraint. Our results are consistent with w0=-1. Our new constraints are compared to CMB data from the Planck satellite, and we find that with the inclusion of M ap3 the existing tension between the data sets is at the level of 2.3σ. We show that the third-order statistic enables us to self-calibrate the mean photometric redshift uncertainty parameter of the highest redshift bin with little degradation in the figure of merit. Our results demonstrate the constraining power of higher-order lensing statistics and establish M ap3 as a practical observable for joint analyses in current and future surveys.