English

Position-Dependent Correlation Function of Weak Lensing Convergence

Cosmology and Nongalactic Astrophysics 2023-02-14 v2

Abstract

We provide a systematic study of the position-dependent correlation function in weak lensing convergence maps and its relation to the squeezed limit of the three-point correlation function (3PCF) using state-of-the-art numerical simulations. We relate the position-dependent correlation function to its harmonic counterpart, i.e., the position-dependent power spectrum or equivalently the integrated bispectrum. We use a recently proposed improved fitting function, BiHalofit, for the bispectrum to compute the theoretical predictions as a function of source redshifts. In addition to low redshift results (zs=1.02.0z_s=1.0-2.0), we also provide results for maps inferred from lensing of the cosmic microwave background, i.e., zs=1100z_s=1100. We include a {\em Euclid}-type realistic survey mask and noise. In agreement with the recent studies on the position-dependent power spectrum, we find that the results from simulations are consistent with the theoretical expectations when appropriate corrections are included. Performing a rough estimate, we find that the (S/N) for the detection of the position-dependent correlation function from {\em Euclid}-type mask with fsky=0.35f_{sky}=0.35, can range between 6126-12 depending on the value of the intrinsic ellipticity distribution parameter σϵ=0.31.0\sigma_{\epsilon} = 0.3-1.0. For reconstructed κ\kappa maps using an ideal CMB survey the (S/N) 1.8\approx 1.8. We also found that a 10%10\% deviation in σ8\sigma_8 can be detected using IB for the optimistic case of σϵ=0.3\sigma_\epsilon=0.3 with a (S/N) 5\approx 5. The (S/N) for such detection in case of ΩM\Omega_M is lower.

Keywords

Cite

@article{arxiv.2104.01185,
  title  = {Position-Dependent Correlation Function of Weak Lensing Convergence},
  author = {D. Munshi and G. Jung and T. D. Kitching and J. McEwen and M. Liguori and T. Namikawa and A. Heavens},
  journal= {arXiv preprint arXiv:2104.01185},
  year   = {2023}
}

Comments

7 pages, 7 figures (PRD in press)

R2 v1 2026-06-24T00:48:47.170Z