用晚期修正引力情景探索哈勃张力

IF 5 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Luis A. Escamilla , Donatella Fiorucci , Giovanni Montani , Eleonora Di Valentino
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引用次数: 0

摘要

我们研究了一个修正的宇宙学模型,旨在解决哈勃张力问题,并考虑了宇宙晚期的修正动力学。该模型引入了一个影响演化方程的参数 c,其灵感来自有效环量子宇宙学的修正泊松代数。我们的分析包括不同的背景数据集,如宇宙计时器、Pantheon+ Ia 型超新星(带或不带 SH0ES 校准)、SDSS、DESY6 和 DESI 重子声学振荡,以及宇宙微波背景的背景信息。我们发现,在大多数数据集组合中,模型缓解了哈勃张力,在包括 SH0ES 的情况下,差异降低到 1σ 以下。然而,与ΛCDM相比,该模型在整体拟合上的改进微乎其微,贝叶斯证据总体上更倾向于标准模型。理论基础支持这种方法,认为它是对低红移动力学的一种微妙调整,表明有可能进一步探索ΛCDM的扩展。尽管在数据拟合方面存在挑战,但我们的发现强调了小尺度修改在调和宇宙学紧张关系方面的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring the Hubble tension with a late time Modified Gravity scenario

We investigate a modified cosmological model aimed at addressing the Hubble tension, considering revised dynamics in the late Universe. The model introduces a parameter c affecting the evolution equations, motivated by a modified Poisson algebra inspired by effective Loop Quantum Cosmology. Our analysis includes diverse background datasets such as Cosmic Chronometers, Pantheon+ Type Ia Supernovae (with and without the SH0ES calibration), SDSS, DESY6 and DESI Baryon Acoustic Oscillations, and background information of the Cosmic Microwave Background. We find that the model alleviates the Hubble tension in most of the dataset combinations, with cases reducing discrepancies to below 1σ when including SH0ES. However, the model exhibits minimal improvement in the overall fit when compared to ΛCDM, and Bayesian evidence generally favors the standard model. Theoretical foundations support this approach as a subtle adjustment to low-redshift dynamics, suggesting potential for further exploration into extensions of ΛCDM. Despite challenges in data fitting, our findings underscore the promise of small-scale modifications in reconciling cosmological tensions.

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来源期刊
Physics of the Dark Universe
Physics of the Dark Universe ASTRONOMY & ASTROPHYSICS-
CiteScore
9.60
自引率
7.30%
发文量
118
审稿时长
61 days
期刊介绍: Physics of the Dark Universe is an innovative online-only journal that offers rapid publication of peer-reviewed, original research articles considered of high scientific impact. The journal is focused on the understanding of Dark Matter, Dark Energy, Early Universe, gravitational waves and neutrinos, covering all theoretical, experimental and phenomenological aspects.
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