Growth of perturbations using Lambert W equation of state

Manisha Banerjee, Sudipta Das, Abdulla Al Mamon, S. Saha, K. Bamba
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引用次数: 2

Abstract

Recently, a novel equation of state (EoS) parameter for dark energy has been introduced which deals with a special mathematical function, known as the Lambert$W$ function. In this paper, we study the effect on the growth of perturbations for the Lambert$W$ dark energy model. We perform the analysis for two different approaches. In the first case we consider the universe to be filled with two different fluid components, namely, the baryonic matter component and the Lambert$W$ dark energy component, while in the second case we consider that there is a single fluid component in the universe whose equation of state parameter is described by the Lambert$W$ function. We then compare the growth rates of Lambert$W$ model with that for a standard $\Lambda$CDM model as well as the CPL model. Our results indicate that the presence of Lambert$W$ dynamical dark energy sector changes the growth rate and affects the matter fluctuations in the universe to a great extent.
利用Lambert W状态方程的微扰生长
最近,一种新的暗能量状态方程(EoS)参数被引入,该参数涉及一个特殊的数学函数,称为朗伯函数。本文研究了Lambert$W$暗能量模型对微扰增长的影响。我们对两种不同的方法进行了分析。在第一种情况下,我们认为宇宙中充满了两种不同的流体成分,即重子物质成分和Lambert$W$暗能量成分,而在第二种情况下,我们认为宇宙中存在单一的流体成分,其状态方程参数由Lambert$W$函数描述。然后,我们将Lambert$W$模型的增长率与标准$ λ $CDM模型以及CPL模型的增长率进行了比较。我们的研究结果表明,Lambert$W$动态暗能量扇区的存在在很大程度上改变了宇宙的生长速度,并影响了宇宙中物质的波动。
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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