Cosmic evolution of Tsallis holographic dark energy model in f(R,T2) gravity

IF 5 2区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS Physics of the Dark Universe Pub Date : 2024-08-06 DOI:10.1016/j.dark.2024.101606

M. Sharif, M. Zeeshan Gul, I. Hashim

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Abstract

In this paper, we study the Tsallis holographic dark energy model to examine the cosmic evolution in the framework of energy–momentum squared gravity. For this purpose, we use three distinct horizons as infrared cut-offs such as the particle horizon, event horizon and the conformal age of the universe. We analyze the behavior of different parameters like Hubble, density, equation of state and deceleration corresponding to different infrared cut-offs and explore the mysterious universe. The stability analysis is also performed using the squared sound speed method for all horizons. Our findings indicate that the considered dark energy model supports the accelerated expansion of the universe in all cut-offs. The stability is achieved for the particle horizon, while partial stability is observed for event horizon and conformal age of the universe. We also assess the behavior of standard diagnostic tools such as the $ω_{T D E} - ω_{T D E}^{^{'}}$ analysis and statefinder pair $(r, s)$ to discuss different cosmic eras. This delves into the intricate interplay between dark energy model and modified gravitational theory, shedding light on the overarching dynamics of the cosmos.

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f(R,T2)引力下查利斯全息暗能量模型的宇宙演化

在本文中，我们研究了查里斯全息暗能量模型，以考察能动平方引力框架下的宇宙演化。为此，我们使用三个不同的地平线作为红外截止点，如粒子地平线、事件地平线和宇宙的共形年龄。我们分析了不同红外截止点对应的哈勃、密度、状态方程和减速等不同参数的行为，探索神秘的宇宙。我们还使用声速平方法对所有地平线进行了稳定性分析。我们的研究结果表明，所考虑的暗能量模型支持宇宙在所有截止点加速膨胀。粒子视界达到了稳定，而事件视界和宇宙的共形年龄则观察到了部分稳定。我们还评估了标准诊断工具的行为，如ωTDE-ωTDE′分析和状态探测器对（r,s），以讨论不同的宇宙时代。这深入探讨了暗能量模型与修正引力理论之间错综复杂的相互作用，揭示了宇宙的总体动力学。

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来源期刊

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.