L K Duchaniya, B Mishra, I V Fomin and S V Chervon
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引用次数: 0
Abstract
In this paper, we have investigated the phase space analysis in modified Galileon cosmology, where the Galileon term is considered a coupled scalar field, . We focus on the exponential type function of and the three well-motivated potential functions . We obtain the critical points of the autonomous system, along with their stability conditions and cosmological properties. The critical points of the autonomous system describe different phases of the Universe. The scaling solution for critical points was found in our analysis to determine the matter-dark energy and radiation-dark energy-dominated eras of the Universe. In these scaling solutions, dark energy is typically introduced alongside another component, such as radiation or matter, and helps explain the transition between cosmological eras. The dark energy dominated critical points show stable behavior and indicate the late-time cosmic acceleration phase of the Universe. Further, the results are examined with the Hubble rate H(z) and the Supernovae Ia cosmological data sets.
在本文中,我们研究了修正伽利略宇宙学中的相空间分析,其中伽利略项被认为是一个耦合标量场,......我们重点研究了......的指数型函数和三个动机良好的势函数......。我们得到了自主系统的临界点及其稳定性条件和宇宙学性质。自主系统的临界点描述了宇宙的不同阶段。我们在分析中找到了临界点的缩放解,从而确定了宇宙的物质-暗能量和辐射-暗能量主导时代。在这些缩放解中,暗能量通常与辐射或物质等其他成分一起被引入,并帮助解释宇宙学时代之间的过渡。暗能量主导的临界点显示出稳定的行为,并表明宇宙的晚期宇宙加速阶段。此外,我们还利用哈勃速率 H(z) 和 Ia 超新星宇宙学数据集对结果进行了检验。
期刊介绍:
Classical and Quantum Gravity is an established journal for physicists, mathematicians and cosmologists in the fields of gravitation and the theory of spacetime. The journal is now the acknowledged world leader in classical relativity and all areas of quantum gravity.
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