A new unified dark sector model and its implications on the $σ_8$ and $S_8$ tensions

Yan-Hong Yao, Jian-Qi Liu, Zhi-Qi Huang, Jun-Chao Wang, Yan Su
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Abstract

In this paper, we introduced the Unified Three-Form Dark Sector (UTFDS) model, a unified dark sector model that combines dark energy and dark matter through a three-form field. In this framework, the potential of the three-form field acts as dark matter, while the kinetic term represents dark energy. The interaction between dark matter and dark energy is driven by the energy exchange between these two terms. Given the dynamical equations of UTFDS, we provide an autonomous system of evolution equations for UTFDS and perform a stability analysis of its fixed points. The result aligns with our expectations for a unified dark sector. Furthermore, we discover that the dual Lagrangian of the UTFDS Lagrangian is equivalent to a Dirac-Born-Infeld (DBI) Lagrangian. By fixing the parameter $\kappa X_0$ to 250, 500, 750, we refer to the resulting models as the $\overline{\rm UTFDS}$ model with $\kappa X_0$=250, 500, 750, respectively. We then place constraints on these three $\overline{\rm UTFDS}$ models and the $\Lambda$CDM model in light of the Planck 2018 Cosmic Microwave Background (CMB) anisotropies, Redshift Space Distortions (RSD) observations, Baryon Acoustic Oscillation (BAO) measurements, and the $S_8$ prior chosen according to the KiDS1000 Weak gravitational Lensing (WL) measuement. We find that the $\overline{\rm UTFDS}$ model with $\kappa X_0$=500 is the only one among the four models where both $\sigma_8$ and $S_8$ tensions, between CMB and RSD+BAO+WL datasets, are below 2.0$\sigma$. Furthermore, the tensions are relieved without exacerbating the $H_0$ tension. Although both the CMB and RSD+BAO+WL datasets provide definite/positive evidence favoring $\Lambda$CDM over the $\overline{\rm UTFDS}$ model with $\kappa X_0$=500, the evidence is not strong enough to rule out further study of this model.
新的统一暗部门模型及其对σ_8$和S_8$张力的影响
本文介绍了统一三形式暗部门(UTFDS)模型,这是一种通过三形式场结合暗能量和暗物质的统一暗部门模型。在这个框架中,三形场的势作为暗物质,而动能项则代表暗能量。暗物质和暗能量之间的相互作用是由这两个项之间的能量交换驱动的。鉴于UTFDS的动力学方程,我们为UTFDS提供了一个自主的演化方程组,并对其定点进行了可控性分析。结果与我们对统一暗部门的预期一致。此外,我们发现UTFDS拉格朗日的对偶拉格朗日等价于狄拉克-天生-因菲尔德(DBI)拉格朗日。通过把参数$\kappa X_0$分别固定为250、500、750,我们把得到的模型称为$\overline{rm UTFDS}$模型,其中$\kappa X_0$分别为250、500、750。然后,我们根据普朗克2018宇宙微波背景(CMB)各向异性、红移空间扭曲(RSD)观测、重子声学振荡(BAO)测量,以及根据KiDS1000弱引力透镜(WL)测量选择的$S_8$先验,对这三个$overline{rm UTFDS}$模型和$\Lambda$CDM模型施加约束。我们发现,$\overline{\rm UTFDS}$模型的$\kappa X_0$=500是四个模型中唯一一个在CMB和RSD+BAO+WL数据集之间的$\sigma_8$和$S_8$张力都低于2.0$\sigma$的模型。此外,这些张力的缓解并没有加剧$H_0$张力。虽然CMB和RSD+BAO+WL数据集都提供了明确/积极的证据,证明$\Lambda$CDM优于$\kappa X_0$=500的$line{rm UTFDS}$模型,但这些证据还不足以排除进一步研究这个模型的可能性。
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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