Dynamical dark energy with AdS-dS transitions vs. Baryon Acoustic Oscillations at z = 2.3-2.4
Abstract
In this paper, written in memory of Alexei Starobinsky, we discuss the observational viability of the Ph- sCDM model - a dynamical dark energy scenario based on a phantom scalar field undergoing an anti-de Sitter (AdS) to de Sitter (dS) transition - and revisit the Sahni-Shtanov braneworld model in light of updated BAO Ly-α data at z 2.3. Both models are able to remain consistent with Planck CMB data while offering potential resolutions to the H0 tension. In both cases, the expansion rate H(z) is suppressed relative to Planck- at high redshift and enhanced at low redshift, while remaining consistent with the comoving distance to recombination as estimated by Planck-. Comparing model predictions with BAO-inferred values of H(z), we find that SDSS Ly-α data at z ≈ 2.33 mildly favor such dynamical models, whereas the recent DESI Ly-α measurements agree more closely with . Although current high-redshift BAO data do not decisively favor one model over another, our findings illustrate how frameworks originally developed to address earlier anomalies - such as the braneworld scenario - may gain renewed relevance in confronting today's cosmological tensions.
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