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Main Authors: Cowell, Jessica A., Alonso, David, Liu, Jia
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.05695
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author Cowell, Jessica A.
Alonso, David
Liu, Jia
author_facet Cowell, Jessica A.
Alonso, David
Liu, Jia
contents Marked power spectra provide a computationally efficient way to extract non-Gaussian information from the matter density field using the usual analysis tools developed for the power spectrum without the need for explicit calculation of higher-order correlators. In this work, we explore the optimal form of the mark function used for re-weighting the density field, to maximally constrain cosmology. We show that adding to the mark function or multiplying it by a constant leads to no additional information gain, which significantly reduces our search space for optimal marks. We quantify the information gain of this optimal function and compare it against mark functions previously proposed in the literature. We find that we can gain around $\sim2$ times smaller errors in $σ_8$ and $\sim4$ times smaller errors in $Ω_m$ compared to using the traditional power spectrum alone, an improvement of $\sim60\%$ compared to other proposed marks when applied to the same dataset.
format Preprint
id arxiv_https___arxiv_org_abs_2409_05695
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Hitting the mark: Optimising Marked Power Spectra for Cosmology
Cowell, Jessica A.
Alonso, David
Liu, Jia
Cosmology and Nongalactic Astrophysics
Marked power spectra provide a computationally efficient way to extract non-Gaussian information from the matter density field using the usual analysis tools developed for the power spectrum without the need for explicit calculation of higher-order correlators. In this work, we explore the optimal form of the mark function used for re-weighting the density field, to maximally constrain cosmology. We show that adding to the mark function or multiplying it by a constant leads to no additional information gain, which significantly reduces our search space for optimal marks. We quantify the information gain of this optimal function and compare it against mark functions previously proposed in the literature. We find that we can gain around $\sim2$ times smaller errors in $σ_8$ and $\sim4$ times smaller errors in $Ω_m$ compared to using the traditional power spectrum alone, an improvement of $\sim60\%$ compared to other proposed marks when applied to the same dataset.
title Hitting the mark: Optimising Marked Power Spectra for Cosmology
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2409.05695