English

Robust cosmic shear with small-scale nulling

Cosmology and Nongalactic Astrophysics 2025-02-25 v1

Abstract

Standard cosmological weak lensing analyses using cosmic shear are inevitably sensitive to small-scale, non-linear clustering from low-redshift structures. The need to adequately model the clustering of matter on this non-linear regime, accounting for both gravitational and baryonic effects, adds significant uncertainty to weak lensing studies, particularly in the context of near-future Stage-IV datasets. In this paper, inspired by previous work on so-called ``nulling'' techniques, we present a general method that selects the linear combinations of a given tomographic cosmic shear dataset that are least sensitive to small-scale non-linearities, by essentially suppressing the contribution from low-redshift structures. We apply this method to the latest public cosmic shear data from the Dark Energy Survey, DES-Y3, that corresponds to 3 years of observation, and show: a) that a large fraction of the signal is dominated by the single mode that is most affected by non-linear scales, and b) that removing this mode leads to a 1σ\sim1\sigma upwards shift in the preferred value of S8σ8ΩM/0.3S_8\equiv\sigma_8\sqrt{\Omega_M/0.3}, alleviating the tension with current CMB data. However, the removal of the most contaminated mode also results in a significant increase in the statistical uncertainties. Taking this into account, we find this shift to be compatible with a random fluctuation caused by removing this most-contaminated mode at the 1.4σ\sim1.4\sigma level. We also show that this technique may be used by future Stage-IV surveys to mitigate the sensitivity of the final constraints to baryonic effects, trading precision for robustness.

Keywords

Cite

@article{arxiv.2502.17339,
  title  = {Robust cosmic shear with small-scale nulling},
  author = {Giulia Piccirilli and Matteo Zennaro and Carlos García-García and David Alonso},
  journal= {arXiv preprint arXiv:2502.17339},
  year   = {2025}
}
R2 v1 2026-06-28T21:55:49.100Z