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Main Authors: Armijo, Joaquin, Baugh, Carlton M., Norberg, Peder, Padilla, Nelson D.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2304.06218
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author Armijo, Joaquin
Baugh, Carlton M.
Norberg, Peder
Padilla, Nelson D.
author_facet Armijo, Joaquin
Baugh, Carlton M.
Norberg, Peder
Padilla, Nelson D.
contents We introduce a new scheme based on the marked correlation function to probe gravity using the large-scale structure of the Universe. We illustrate our approach by applying it to simulations of the metric-variation $f(R)$ modified gravity theory and general relativity (GR). The modifications to the equations in $f(R)$ gravity lead to changes in the environment of large-scale structures that could, in principle, be used to distinguish this model from GR. Applying the Monte Carlo Markov Chain algorithm, we use the observed number density and two-point clustering to fix the halo occupation distribution (HOD) model parameters and build mock galaxy catalogues from both simulations. To generate a mark for galaxies when computing the marked correlation function we estimate the local density using a Voronoi tessellation. Our approach allows us to isolate the contribution to the uncertainty in the predicted marked correlation function that arises from the range of viable HOD model parameters, in addition to the sample variance error for a single set of HOD parameters. This is critical for assessing the discriminatory power of the method. In a companion paper we apply our new scheme to a current large-scale structure survey.
format Preprint
id arxiv_https___arxiv_org_abs_2304_06218
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle A new test of gravity -- I: Introduction to the method
Armijo, Joaquin
Baugh, Carlton M.
Norberg, Peder
Padilla, Nelson D.
Cosmology and Nongalactic Astrophysics
We introduce a new scheme based on the marked correlation function to probe gravity using the large-scale structure of the Universe. We illustrate our approach by applying it to simulations of the metric-variation $f(R)$ modified gravity theory and general relativity (GR). The modifications to the equations in $f(R)$ gravity lead to changes in the environment of large-scale structures that could, in principle, be used to distinguish this model from GR. Applying the Monte Carlo Markov Chain algorithm, we use the observed number density and two-point clustering to fix the halo occupation distribution (HOD) model parameters and build mock galaxy catalogues from both simulations. To generate a mark for galaxies when computing the marked correlation function we estimate the local density using a Voronoi tessellation. Our approach allows us to isolate the contribution to the uncertainty in the predicted marked correlation function that arises from the range of viable HOD model parameters, in addition to the sample variance error for a single set of HOD parameters. This is critical for assessing the discriminatory power of the method. In a companion paper we apply our new scheme to a current large-scale structure survey.
title A new test of gravity -- I: Introduction to the method
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2304.06218