Cosmological Constraints from Fourier Phase Statistics

TL;DR

This paper investigates the information content of Fourier phase correlations, specifically the line correlation function (LCF), in cosmological data to improve parameter constraints and break degeneracies inherent in traditional two-point statistics.

Contribution

It introduces the use of the LCF alongside the 2PCF to enhance cosmological parameter estimation and demonstrate its effectiveness in breaking bias degeneracies.

Findings

LCF improves parameter constraints by about 20% in Lambda CDM.

Combining 2PCF and LCF helps break the degeneracy between bias and sigma_8.

The relative information gain depends on survey volume, sampling density, and bias uncertainty.

Abstract

Most statistical inference from cosmic large-scale structure relies on two-point statistics, i.e.\ on the galaxy-galaxy correlation function (2PCF) or the power spectrum. These statistics capture the full information encoded in the Fourier amplitudes of the galaxy density field but do not describe the Fourier phases of the field. Here, we quantify the information contained in the line correlation function (LCF), a three-point Fourier phase correlation function. Using cosmological simulations, we estimate the Fisher information (at redshift $z=0$) of the 2PCF, LCF and their combination, regarding the cosmological parameters of the standard $\Lambda$CDM model, as well as a Warm Dark Matter (WDM) model and the $f(R)$ and Symmetron modified gravity models. The galaxy bias is accounted for at the level of a linear bias. The relative information of the 2PCF and the LCF depends on the survey volume, sampling density (shot noise) and the bias uncertainty. For a volume of $1h^{-3}\rm Gpc^3$, sampled with points of mean density $\bar{n} = 2\times10^{-3} h^{3}\ \rm Mpc^{-3}$ and a bias uncertainty of 13\%, the LCF improves the parameter constraints by about 20\% in the $\Lambda$CDM cosmology and potentially even more in alternative models. Finally, since a linear bias only affects the Fourier amplitudes (2PCF), but not the phases (LCF), the combination of the 2PCF and the LCF can be used to break the degeneracy between the linear bias and $\sigma_8$, present in 2-point statistics.