Relaxing cosmological tensions with a sign switching cosmological constant: Improved results with Planck, BAO, and Pantheon data
Abstract
We present a further observational analysis of the sCDM model proposed in Akarsu et al. [Phys. Rev. D 104, 123512 (2021)]. This model is based on the recent conjecture suggesting the Universe has transitioned from anti-de Sitter vacua to de Sitter vacua (viz., the cosmological constant switches sign from negative to positive), at redshift z2, inspired by the graduated dark energy model proposed in Akarsu et al. [Phys. Rev. D 101, 063528 (2020)]. sCDM was previously claimed to simultaneously relax five cosmological discrepancies, namely, the H0, S8, and MB tensions along with the Ly-α and ω b anomalies, which prevail within the standard model as well as its canonical/simple extensions. In the present work, we extend the previous analysis by constraining the model using the Pantheon data (with and without the SH0ES MB prior) and/or the completed BAO data along with the full Planck CMB data. We find that sCDM exhibits a better fit to the data compared to , and simultaneously relaxes the six discrepancies of , viz., the H0, MB, S8, Ly-α, t0, and ω b discrepancies, all of which are discussed in detail. When the MB prior is included in the analyses, sCDM performs significantly better in relaxing the H0, MB, and S8 tensions with the constraint z1.8 even when the Ly-α data (which imposed the z2 constraint in the previous studies) are excluded. In contrast, the presence of the MB prior causes only negligible improvements for . Thus, the sCDM model provides remedy to various cosmological tensions simultaneously, only that the galaxy BAO data hinder its success to some extent.
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