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In this paper we present conjoined constraints on several cosmological models from the expansion history H (z) and cosmic growth f₈. The models we study include the CPL w₀w₀ parametrization, the holographic dark energy (HDE) model, the time-varying vacuum (ₓCDM) model, the Dvali, Gabadadze and Porrati (DGP) and Finsler-Randers (FRDE) models, a power-law f (T) model, and finally the Hu-Sawicki f (R) model. In all cases we perform a simultaneous fit to the SnIa, CMB, BAO, H (z) and growth data, while also following the conjoined visualization of H (z) and f₈ as in Linder (2017). Furthermore, we introduce the figure of merit (FoM) in the H (z) -f₈ parameter space as a way to constrain models that jointly fit both probes well. We use both the latest H (z) and f₈ data, but also LSST-like mocks with 1% measurements, and we find that the conjoined method of constraining the expansion history and cosmic growth simultaneously is able not only to place stringent constraints on these parameters, but also to provide an easy visual way to discriminate cosmological models. Finally, we confirm the existence of a tension between the growth-rate and Planck CMB data, and we find that the FoM in the conjoined parameter space of H (z) -f₈ (z) can be used to discriminate between the model and certain classes of modified gravity models, namely the DGP and f (T).
Basilakos et al. (Mon,) studied this question.
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