Constraints on Tsallis cosmology using recent low and high redshift measurements

Abstract

Recently Tsallis cosmology has been presented as a novel proposal for alleviating both H0 and σ8 tensions. Hence a universe filled with matter and radiation as perfect fluids and considering the Tsallis entropy is confronted using recent cosmological measurements coming from cosmic chronometers, type Ia supernovae, hydrogen II galaxies, quasars, and baryon acoustic oscillations. Following a Bayesian Monte Carlo Markov Chain analysis and combining the samples, we constrain the main characteristic parameters α = 1.031+0.054-0.051 and δ = 1.005+0.001-0.001 where the uncertainties are 1σ confidence level. Additionally, we estimate the current deceleration parameter q0=-0.530+0.018-0.017, the deceleration-acceleration transition redshift zT=0.632+0.028-0.028 and the age of the universe τU = 12.637+0.067-0.066\,Gyrs which are in agreement with the standard cosmology () within 1.5σ. Furthermore, we find that the dark energy equation of state is consistent with both phantom and quintessence behaviors within 1σ in the past and converging to in the future. Additionally, we find agreement values of H0 within 1σ with the SH0ES values when the CMB distance priors are added to the analysis, suggesting that H0 tension could be alleviated. Finally, Tsallis cosmology is preferred over by the combined data that motives further studies at the perturbation level.

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