Gaussian Processes and Effective Field Theory of f(T) Gravity under the H <sub>0</sub> Tension
Xin Ren, Sheng-Feng Yan, Yaqi Zhao, Yi-Fu Cai, Emmanuel N. Saridakis
Abstract
Abstract We consider the effective field theory formulation of torsional gravity in a cosmological framework to alter the background evolution. Then we use the latest H 0 measurement from the SH0ES Team, as well as observational Hubble data from cosmic chronometer and radial baryon acoustic oscillations, and we reconstruct the f ( T ) form in a model-independent way by applying Gaussian processes. Since the special square-root term does not affect the evolution at the background level, we finally summarize a family of functions that can produce the background evolution required by the data. Lastly, performing a fitting using polynomial functions and implementing the Bayesian information criterion, we find an analytic expression that may describe the cosmological evolution in great agreement with observations.