Testing non-local gravity through Ultra-Diffuse Galaxies kinematics

IF 5 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS
Filippo Bouchè , Salvatore Capozziello , Ciro De Simone , Vincenzo Salzano
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引用次数: 0

Abstract

The emergence of the Ultra-Diffuse Galaxies in recent years has posed a severe challenge to the galaxy formation models as well as the Extended Theories of Gravity. The existence of both dark matter lacking and dark matter dominated systems within the same family of astrophysical objects indeed requires the gravity models to be versatile enough to describe very different gravitational regimes. In this work, we study a non-local extension of the theory of General Relativity that has drawn increasing attention in recent years due to its capability to account for the late time cosmic acceleration without introducing any dark energy fluid. We leverage the kinematic data of three Ultra-Diffuse Galaxies: NGC 1052-DF2 and NGC 1052-DF4, which are dark matter lacking, and Dragonfly 44, which exhibits a highly dominant dark matter component. Our analysis shows that the non-local corrections to the Newtonian potential do not affect the kinematic predictions, hence no spoiling effects emerge when the Non-local Gravity model serves as a dark energy model. We additionally provide the minimum value that the characteristic non-local radii can reach at these mass scales.

通过超漫反射星系运动学测试非局域引力
近年来出现的超弥漫星系对星系形成模型和引力扩展理论提出了严峻的挑战。在同一天体物理天体家族中,既存在暗物质缺乏的系统,也存在暗物质占主导地位的系统,这确实要求引力模型具有足够的通用性,以描述截然不同的引力状态。在这项工作中,我们研究了广义相对论的非局域扩展,由于它能够在不引入任何暗能量流体的情况下解释晚期宇宙加速度,近年来引起了越来越多的关注。我们利用了三个超漫反射星系的运动学数据:NGC 1052-DF2和NGC 1052-DF4(这两个星系缺乏暗物质),以及蜻蜓44(蜻蜓44表现出高度主导的暗物质成分)。我们的分析表明,牛顿势的非局部修正不会影响运动学预测,因此当非局部引力模型作为暗能量模型时,不会出现破坏效应。我们还提供了在这些质量尺度下特征非局部半径所能达到的最小值。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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