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Autori principali: Khoshtinat, Mohadese, Ansarifard, Mohammad, Hassani, Farbod, Baghram, Shant
Natura: Preprint
Pubblicazione: 2023
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Accesso online:https://arxiv.org/abs/2312.14117
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author Khoshtinat, Mohadese
Ansarifard, Mohammad
Hassani, Farbod
Baghram, Shant
author_facet Khoshtinat, Mohadese
Ansarifard, Mohammad
Hassani, Farbod
Baghram, Shant
contents The large-scale structure of the Universe is distributed in a cosmic web. Studying the distribution and clustering of dark matter particles and halos may open up a new horizon for studying the physics of the dark Universe. In this work, we investigate the nearest neighbour statistics and spherical contact function in cosmological models with massive neutrinos. For this task, we use the relativistic N-body code, gevolution and study particle snapshots at three different redshifts. In each snapshot, we find the halos and evaluate the letter functions for them. We show that a generic behaviour can be found in the nearest neighbour, $G(r)$, and spherical contact functions, $F(r)$, which makes these statistics promising tools to constrain the total neutrino mass.
format Preprint
id arxiv_https___arxiv_org_abs_2312_14117
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Clustering of dark matter in the cosmic web as a probe of massive neutrinos
Khoshtinat, Mohadese
Ansarifard, Mohammad
Hassani, Farbod
Baghram, Shant
Cosmology and Nongalactic Astrophysics
The large-scale structure of the Universe is distributed in a cosmic web. Studying the distribution and clustering of dark matter particles and halos may open up a new horizon for studying the physics of the dark Universe. In this work, we investigate the nearest neighbour statistics and spherical contact function in cosmological models with massive neutrinos. For this task, we use the relativistic N-body code, gevolution and study particle snapshots at three different redshifts. In each snapshot, we find the halos and evaluate the letter functions for them. We show that a generic behaviour can be found in the nearest neighbour, $G(r)$, and spherical contact functions, $F(r)$, which makes these statistics promising tools to constrain the total neutrino mass.
title Clustering of dark matter in the cosmic web as a probe of massive neutrinos
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2312.14117