Resolving the S8 tension with the Lambda Prime (') model
Abstract
The S8 parameter, which quantifies the amplitude of matter fluctuations on scales of 8h-1 Mpc, has been a source of tension between weak lensing surveys (e.g. KiDS, DES, HSC) and the Planck Cosmic Microwave Background (CMB) measurements. This discrepancy challenges the standard CDM model and has become one of the most significant tensions in modern cosmology. The ' model offers a potential resolution by introducing modifications to the cosmic growth history through alterations to the gravitational sector. The alterations involve including a Ricci soliton into Einstein's field equations which introduce a time dependent factor yielding a time varying cosmological constant '=(1-α(t)2DEgDE and subsequently the evolution of the cosmos. The Ricci soliton is sourced from gravitational energy density. In this study we analyze results from six surveys and compare the results for wa and w0 with the ' model. We also find σ8=0.750-0.020+0.020 , S8=0.788. These values are closer to some low S8 measurements from weak lensing surveys (e.g DES, KiDS), which report S8 ≈ 0.76-0.78, suggesting that the model may alleviate the S8 tension. High values of α(t) in the late universe are the cause of suppressed structure formation and low values of '. The late universe in the ' model is effectively or apparently 5-10% younger than in CDM which translates to H0=72.734-1.687+1.687 km/s/Mpc, which is in agreement with late universe probes. ' is classified under the dynamical dark energy models, however unlike alternatives, it does not invoke exotic particles nor phantom energy.
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