Constraining f(T, T) gravity models using type Ia supernovae

Abstract

We present an analysis of an f(T, T) extension of the Teleparallel Equivalent of General Relativity, where T denotes the torsion and T the trace of the energy-momentum tensor. This extension includes non--minimal couplings between torsion and matter. In particular, we construct two specific models that recover the usual continuity equation, namely, f(T, T)=T+g(T) and f(T, T)=T× g(T). We then constrain the parameters of each model by fitting the predicted distance modulus to that measured from type Ia supernovae, and find that both models can reproduce the late--time cosmic acceleration. We also observe that one of the models satisfies well the observational constraints and yields a goodness--of--fit similar to the model, thus demonstrating that f(T,T) gravity theory encompasses viable models that can be an alternative to .