The S8 Tension in Light of Updated Redshift-Space Distortion Data and PAge Approximation
Abstract
One of the most prominent challenges to the standard Lambda cold dark matter () cosmology is the tension between the structure growth parameter S8 constrained by the cosmic microwave background (CMB) data and the smaller one suggested by the cosmic shear data. Recent studies show that, for cosmology, redshift-space distortion (RSD) data also prefers a smaller S8 that is 2-3σ lower than the CMB value, but the result is sensitive to the cosmological model. In the present work we update the RSD constraint on S8 with the most up-to-date RSD data set where the correlation between data points are properly taken into account. To reduce the model dependence, we add in our Monte Carlo Markov Chain calculation the most up-to-date data sets of Type Ia supernovae (SN) and baryon acoustic oscillations (BAO), whose correlation with RSD is also taken into account, to constrain the background geometry. For cosmology we find S8= 0.812 0.026, which is 2σ larger than previous studies, and hence is consistent with the CMB constraint. By replacing with the Parameterization based on cosmic Age (PAge), an almost model-independent description of the late universe, we find that the RSD + SN + BAO constraint on S8 is insensitive to the cosmological model.
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