The Astrophysical Journal (Jan 2025)
Modeling the Impacts of Galaxy Intrinsic Alignments on Weak Lensing Peak Statistics
Abstract
Weak gravitational lensing (WL) peak statistics capture cosmic nonlinear structures and can provide additional cosmological information complementary to cosmic shear two-point correlation analyses. They have been applied to different WL surveys successfully. To further facilitate their high-precision applications, it is very timely to investigate the impacts of different systematics on WL peak statistics and how to mitigate them. Concerning the influence of galaxy intrinsic alignments (IAs), in this paper, we develop a theoretical model for WL high peaks taking into account the IA effects. It is an extension of our previous halo-based model. The IA corrections mainly include the modification of the lensing profile of clusters of galaxies due to the alignments of satellite galaxies and the additional shape noise correlations. We validate our model using simulations with the semi-analytical galaxy formation. We consider the cases where the satellite galaxies are on average radially aligned toward the centers of their host clusters but with different dispersions σ _θ . We show that our model works well for σ _θ > 45°. If the IA corrections are not included in the model, for the Euclid/CSST–like source galaxy distribution and the survey area of ∼1000 deg ^2 , the IA-induced bias on S _8 can reach ∼8 σ even for σ _θ = 75°. With our model, not only can the bias be well mitigated, but we can also constrain the satellite IA to the level of σ ( σ _θ ) ∼ ±24° simultaneously from WL high peak analyses alone using data from such a survey.
Keywords
