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Autori principali: Chen, Bing-Hang, Zhao, Jun-Jie, Yu, Hao-Ran, Liu, Yu, He, Jian-Hua, Jing, Yipeng
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.04627
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author Chen, Bing-Hang
Zhao, Jun-Jie
Yu, Hao-Ran
Liu, Yu
He, Jian-Hua
Jing, Yipeng
author_facet Chen, Bing-Hang
Zhao, Jun-Jie
Yu, Hao-Ran
Liu, Yu
He, Jian-Hua
Jing, Yipeng
contents Constraining neutrino mass through cosmological observations relies on precise simulations to calibrate their effects on large scale structure, while these simulations must overcome computational challenges like dealing with large velocity dispersions and small intrinsic neutrino perturbations. We present an efficient N-body implementation with semi-linear neutrino mass response which gives accurate power spectra and halo statistics. We explore the necessity of correcting the expansion history caused by massive neutrinos and the transition between relativistic and non-relativistic components. The above method of including neutrino masses is built into the memory-, scalability-, and precision-optimized parallel N-body simulation code CUBE 2.0. Through a suite of neutrino simulations, we precisely quantify the neutrino mass effects on the nonlinear matter power spectra and halo statistics.
format Preprint
id arxiv_https___arxiv_org_abs_2507_04627
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Cosmological Simulations with Massive Neutrinos: Efficiency and Accuracy
Chen, Bing-Hang
Zhao, Jun-Jie
Yu, Hao-Ran
Liu, Yu
He, Jian-Hua
Jing, Yipeng
Cosmology and Nongalactic Astrophysics
Constraining neutrino mass through cosmological observations relies on precise simulations to calibrate their effects on large scale structure, while these simulations must overcome computational challenges like dealing with large velocity dispersions and small intrinsic neutrino perturbations. We present an efficient N-body implementation with semi-linear neutrino mass response which gives accurate power spectra and halo statistics. We explore the necessity of correcting the expansion history caused by massive neutrinos and the transition between relativistic and non-relativistic components. The above method of including neutrino masses is built into the memory-, scalability-, and precision-optimized parallel N-body simulation code CUBE 2.0. Through a suite of neutrino simulations, we precisely quantify the neutrino mass effects on the nonlinear matter power spectra and halo statistics.
title Cosmological Simulations with Massive Neutrinos: Efficiency and Accuracy
topic Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2507.04627