利用 f(T)宇宙学中的红移空间变形实现结构增长

IF 4.7 3区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Monthly Notices of the Royal Astronomical Society Pub Date : 2024-01-11 DOI:10.1093/mnras/stae103
Rebecca Briffa, Celia Escamilla-Rivera, Jackson Levi Said, Jurgen Mifsud
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引用次数: 0

摘要

宇宙学面临着哈勃常数(H0)张力的紧迫挑战,即局部测量的宇宙膨胀率与根据ΛCDM模型校准的宇宙微波背景(CMB)的预测不一致。与此同时,涉及物质波动加权振幅的紧张局势也日益加剧,即所谓的 S8、0 紧张局势。在一个框架内解决这两个矛盾将增强对任何一个特定模型的信心。在这项研究中,我们分析了 f(T)引力的约束条件,这是一个有望揭示宇宙演化的框架。我们利用各种数据源,包括 Pantheon+(SN)、宇宙计时器(CC)、重子声学振荡(BAO)和红移空间扭曲(RSD)数据,对著名的 f(T) 引力模型进行了深入研究。我们利用这些模型推导出 H0 和 S8, 0 值的频谱,目的是衡量这些模型的能力,以便深入了解并有可能解决 H0 和 S8, 0 张力所带来的挑战。
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Growth of structures using redshift space distortion in f(T) Cosmology
Cosmology faces a pressing challenge with the Hubble constant (H0) tension, where the locally measured rate of the Universe’s expansion does not align with predictions from the cosmic microwave background (CMB) calibrated with ΛCDM model. Simultaneously, there is a growing tension involving the weighted amplitude of matter fluctuations, known as S8, 0 tension. Resolving both tensions within one framework would boost confidence in any one particular model. In this work, we analyse constraints in f(T) gravity, a framework that shows promise in shedding light on cosmic evolution. We thoroughly examine prominent f(T) gravity models using a combination of data sources, including Pantheon+ (SN), cosmic chronometers (CC), baryonic acoustic oscillations (BAO) and redshift space distortion (RSD) data. We use these models to derive a spectrum of H0 and S8, 0 values, aiming to gauge their ability to provide insights into, and potentially address, the challenges posed by the H0 and S8, 0 tensions.
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来源期刊
CiteScore
9.10
自引率
37.50%
发文量
3198
审稿时长
3 months
期刊介绍: Monthly Notices of the Royal Astronomical Society is one of the world''s leading primary research journals in astronomy and astrophysics, as well as one of the longest established. It publishes the results of original research in positional and dynamical astronomy, astrophysics, radio astronomy, cosmology, space research and the design of astronomical instruments.
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