Alleviating the H0 tension in Rastall gravity

Abstract

The persistent discrepancy between local determinations of the Hubble constant H0 and the Planck 2018 value (67.4 0.5~ km\,s-1\,Mpc-1) within ΛCDM remains a central challenge in precision cosmology. We investigate the Hubble tension in ΛCDM and its Rastall extension (R-ΛCDM) for flat, open, and closed geometries. We analyze three primary dataset combinations: D1 (late-time probes: SN + H(z) + fσ8), D2 (late-time probes combined with DESI DR2 BAO and BBN), and D3 (late-time probes combined with BAO and Planck 2018 CMB distance priors). Parameters are constrained via Markov Chain Monte Carlo sampling, and tensions with SH0ES (73.2 1.3~ km\,s-1\,Mpc-1) and Planck are expressed in units of the combined uncertainty. In addition, we include a Planck-only configuration (D4) as a reference baseline to isolate early-Universe constraints on H0. Within ΛCDM, D1 and D2 yield H0 70.75-71.43~ km\,s-1\,Mpc-1, reducing the SH0ES discrepancy to 1.11σ--1.63σ while maintaining a 3.62σ-4.23σ tension with Planck. Including CMB distance priors (D3) shifts the result to H0 67.18--67.55~ km\,s-1\,Mpc-1, consistent with Planck at 0.09σ-0.38σ but increasing the SH0ES discrepancy to 4.25σ-4.51σ.