Cosmic analysis of a model in higher-order gravity theory

IF 1.9 4区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Astronomy and Computing Pub Date : 2024-01-01 DOI:10.1016/j.ascom.2024.100790
J.K. Singh, Shaily, Harshna Balhara, Kazuharu Bamba, J. Jena
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Abstract

The late-time cosmic acceleration is investigated in modified gravity theory with higher-order curvature terms of the Ricci scalar and the Gauss–Bonnet invariant. The gravitational field equation is analyzed with an appropriate parameterization of the Hubble parameter and the cosmological constraints on model parameters are derived by using the Hubble, Pantheon, and their joint dataset. It is demonstrated that the best-fit values of the model parameters are in close agreement with the recent observations. Moreover, it is shown that the deceleration parameter transits from the decelerating to an accelerating phase in the late-time universe and that the equation of state parameter converges to the quintessence region and the accelerated expansion of the universe is realized. Furthermore, the perturbation analysis has been performed concerning the Hubble parameter and the energy density to examine the stability conditions of the model under the observational constraints. The energy conditions, the statefinder diagnostic, and the description of a scalar field theory are also investigated.

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高阶引力理论模型的宇宙分析
在修正引力理论中研究了具有高阶曲率项的利玛窦标量和高斯-波内特不变量的晚期宇宙加速度。通过对哈勃参数进行适当的参数化分析了引力场方程,并利用哈勃、万神殿和它们的联合数据集得出了模型参数的宇宙学约束条件。结果表明,模型参数的最佳拟合值与最近的观测结果非常吻合。此外,研究还表明,在晚期宇宙中,减速参数从减速阶段过渡到加速阶段,状态方程参数收敛到五态区域,宇宙加速膨胀得以实现。此外,还对哈勃参数和能量密度进行了扰动分析,以检验模型在观测约束下的稳定性条件。还研究了能量条件、状态探测器诊断和标量场理论描述。
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来源期刊
Astronomy and Computing
Astronomy and Computing ASTRONOMY & ASTROPHYSICSCOMPUTER SCIENCE,-COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
CiteScore
4.10
自引率
8.00%
发文量
67
期刊介绍: Astronomy and Computing is a peer-reviewed journal that focuses on the broad area between astronomy, computer science and information technology. The journal aims to publish the work of scientists and (software) engineers in all aspects of astronomical computing, including the collection, analysis, reduction, visualisation, preservation and dissemination of data, and the development of astronomical software and simulations. The journal covers applications for academic computer science techniques to astronomy, as well as novel applications of information technologies within astronomy.
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