最小扩展光速变异模型的宇宙学

Seokcheon Lee
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引用次数: 0

摘要

宇宙学作为宇宙学的一个重要分支,致力于在不依赖预设宇宙学模型的情况下描述宇宙的特征。这种独立于模型的方法利用围绕当前时序的泰勒级数展开,提供了与宇宙学观测结果的直接相关性和约束理论模型的潜力。宇宙学家可以通过使用各种宇宙参数组合来描述宇宙学的许多可测量方面。只要我们不对罗伯逊-沃克计量法的宇宙学时间膨胀做进一步的假设,光速变化模型就可以很自然地实现。因此,我们将宇宙学应用于所谓的最小扩展光速变化模型。在这种情况下,其他宇宙学参数可以用来构建标准模型和光速变化模型的哈勃参数。另一方面,发光距离的宇宙学数值的不同组合也说明了两种模型的不同。因此,光度距离可能为约束光速变化模型的参数提供了一种方法。
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Cosmography of the minimally extended Varying Speed of Light Model
Cosmography, as an integral branch of cosmology, strives to characterize the Universe without relying on pre-determined cosmological models. This model-independent approach utilizes Taylor series expansions around the current epoch, providing a direct correlation with cosmological observations and the potential to constrain theoretical models. Cosmologists can describe many measurable aspects of cosmology by using various combinations of cosmographic parameters. The varying speed of light model can be naturally implemented, provided that we do not make any further assumptions from the Robertson-Walker metric for cosmological time dilation. Therefore, we apply cosmography to the so-called minimally extended varying speed of light model. In this case, other cosmographic parameters can be used to construct the Hubble parameter for both the standard model and the varying speed-of-light model. On the other hand, distinct combinations of cosmographic values for the luminosity distance indicate the two models. Hence, luminosity distance might provide a method to constrain the parameters in varying speed-of-light models.
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