Observational constraints on Tsallis modified gravity

The thermodynamics-gravity conjecture reveals that one can derive the gravitational field equations by using the first law of thermodynamics and vice versa. Considering the entropy associated with the horizon in the form of non-extensive Tsallis entropy, $S\sim A^{\beta}$ here we first derive the corresponding gravitational field equations by applying the Clausius relation $\delta Q=T \delta S$ to the horizon. We then construct the Friedmann equations of Friedmann-Lemaitre-Robertson-Walker (FLRW) universe based on Tsallis modified gravity (TMG). Moreover, in order to constrain the cosmological parameters of TMG model, we use observational data, including Planck cosmic microwave background (CMB), weak lensing, supernovae, baryon acoustic oscillations (BAO), and redshift-space distortions (RSD) data. Numerical results indicate that TMG model is more compatible with the low redshift observational data by predicting a lower value for the structure growth parameter $\sigma_8$ with respect to $\Lambda$CDM model. This implies that TMG model would slightly alleviate the $\sigma_8$ tension.