Observational Constraints on Dynamical Dark Energy Models
Abstract
φCDM models provide an alternative to the standard paradigm, while being physically better motivated. These models lead to a time-dependent speed of sound for dark energy that is difficult to replicate by wCDM parametrizations. We review the most up-to-date status of observational evidence for the φCDM models in this paper. We start with an overview of the motivation behind these classes of models, the basic mathematical formalism, and the different classes of models. We then present a compilation of recent results of applying different observational probes to constraining φCDM model parameters. Over the last twenty years, the precision of observational data has increased immensely, leading to ever tighter constraints. A combination of the recent measurements favors the spatially flat model, but a large class of φCDM models is still not ruled out.
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