$f(Q, L_m)$ 引力中的晚期宇宙学:分析解与观测拟合

Yerlan Myrzakulov, O. Donmez, M. Koussour, D. Alizhanov, S. Bekchanov, J. Rayimbaev
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引用次数: 0

摘要

在本研究中,我们在$f(Q, L_m)$ 引力框架下研究了宇宙晚期的膨胀,其中$Q$表示当时的非公度,$L_{m}$表示物质拉格朗日。我们分析了形式为 $f(Q, L_m)= -\alpha Q + 2 L_{m}$ 的线性 $f(Q, L_m)$ 模型。+ 使用MCMC方法,我们用不同的数据集(包括$H(z)$、Pantheon+SH0ES和BAO数据)约束了模型参数$H_0$、$\alpha$和$\beta$。对于 $H(z)$ 数据集,我们发现 $H_0 = 67.90 \pm 0.66$,$\alpha =0.1072_{-0.0069}^{+0.0054}$ 和 $\beta = -1988.2 \pm 1.0$。对于Pantheon+SH0ES数据集,$H_0 = 70.05 \pm 0.68$,$\alpha =0.0916_{-0.0033}^{+0.0028}$ ,$\beta = -1988.3 \pm 1.0$。对于 BAOdataset,$H_0 = 68.1 \pm 1.0$,$\alpha = 0.1029_{-0.0052}^{+0.0041}$,$\beta = -1988.24 \pm 0.99$。此外,能量密度保持正值,并在遥远的未来趋近于零,减速参数显示出从减速到加速的转变,各数据集的转变红移分别为$z_t = 0.60$、$z_t = 0.78$和$z_t = 0.66$。这些发现与之前的观测研究相吻合,有助于我们了解宇宙的膨胀动力学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Late-time cosmology in $f(Q, L_m)$ gravity: Analytical solutions and observational fits
In this study, we examined the late-time cosmic expansion of the universe within the framework of $f(Q, L_m)$ gravity, where $Q$ denotes the non-metricity and $L_{m}$ represents the matter Lagrangian. We analyzed a linear $f(Q, L_m)$ model of the form $f(Q, L_m) = -\alpha Q + 2 L_{m} + \beta$. Using MCMC methods, we constrained the model parameters $H_0$, $\alpha$, and $\beta$ with various datasets, including $H(z)$, Pantheon+SH0ES, and BAO data. For the $H(z)$ dataset, we found $H_0 = 67.90 \pm 0.66$, $\alpha = 0.1072_{-0.0069}^{+0.0054}$, and $\beta = -1988.2 \pm 1.0$. For the Pantheon+SH0ES dataset, $H_0 = 70.05 \pm 0.68$, $\alpha = 0.0916_{-0.0033}^{+0.0028}$, and $\beta = -1988.3 \pm 1.0$. For the BAO dataset, $H_0 = 68.1 \pm 1.0$, $\alpha = 0.1029_{-0.0052}^{+0.0041}$, and $\beta = -1988.24 \pm 0.99$. Moreover, the energy density remains positive and approaches zero in the distant future, and the deceleration parameter indicates a transition from deceleration to acceleration, with transition redshifts of $z_t = 0.60$, $z_t = 0.78$, and $z_t = 0.66$ for the respective datasets. These findings align with previous observational studies and contribute to our understanding of the universe's expansion dynamics.
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