Exploring the Growth-Index (γ) Tension with sCDM

Abstract

Recent observational analyses have revealed a significant tension in the growth index γ, which characterizes the growth rate of cosmic structures. Specifically, when treating γ as a free parameter within framework, a combination of Planck and fσ8 data yields γ ≈ 0.64, in 4σ tension with the theoretically expected value γ ≈ 0.55 (assuming general relativity). This discrepancy, closely related to the S8 tension, poses a new challenge to the standard cosmological model by suggesting that it predicts an excessive growth of structure. In this work, we demonstrate that the sCDM framework (featuring a rapid sign-switching cosmological constant (mirror AdS-to-dS transition) in the late universe at redshift z 2 ) can simultaneously alleviate the γ , H0 , and S8 tensions. We also examined a scenario with fixed z = 1.7 , previously identified as a sweet spot for alleviating multiple major cosmological tensions (including those in H0 , MB , and S8 ) finding that it completely eliminates both the γ and H0 tensions, although it is statistically disfavored by our dataset combinations. Our findings suggest that sCDM is a promising model, providing a potential unified resolution to multiple major cosmological tensions.

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