Towards field-level likelihood for projected fields: Evolved projected fields from initial projected fields
Abstract
The evolved cosmological matter density field is fully determined by the initial matter density field at fixed cosmological parameters. However, the two-dimensional cosmological projected matter density field, relevant for weak-lensing and photometric galaxy studies, is fully determined by the initial projected matter density field only at the linear order. At non-linear order, the entire volume of initial matter contributes. We study a model for the evolved projected density field that is deterministic in the initial projected density fields and probabilistic in the effects of the remaining modes in the initial conditions. We write down predictions for the mean evolved projected field model using Lagrangian perturbation theory. We run a suite of small N-body simulations with fixed projected initial conditions and measure the statistical properties of the ensemble of evolved projected fields. Measurements and theory are in good agreement and show that the information on the initial projected fields is exponentially suppresses on non-linear scales. Our model offers a potential approach to a field-level likelihood of projected fields.
Keywords
Cite
@article{arxiv.2510.14089,
title = {Towards field-level likelihood for projected fields: Evolved projected fields from initial projected fields},
author = {Kevin Hong and Rugved Pund and Anže Slosar},
journal= {arXiv preprint arXiv:2510.14089},
year = {2025}
}
Comments
13 pages, 4 figures; to be submitted to JCAP