Fitting f(Q,T) gravity models with a limit using H(z) and Pantheon data

Abstract

We proposed five f(Q,T) models, which are an extension of symmetric teleparallel gravity, where Q is the non-metricity and T is the trace of the stress-energy tensor. By taking specific values of their parameters, these models have a limit. Using cosmic chronometers and supernovae Ia data, we found that our models are consistent with at a 95\% confidence level. To see whether one of these models can challenge at a background perspective, we computed the Bayesian evidence for them and . According to it, the concordance model is preferred over four of them, showing a weak preference against f(Q,T) = -Q/GN + bT and f(Q,T) = -(Q+2)/GN +bT, a substantial preference against f(Q,T) = -(Q+2 H02 c (Q/(6H02))n+1)/GN + bT , and a strong preference against f(Q,T) = -(Q+2H02c(Q/(6H02))n+1 + 2)/GN + bT. Interestingly, a model includying a T2 dependence (f(Q,T) = -(Q+2)/GN - ((16π)2 GN b)/(120 H02) T2) showed a substantial preference against . Therefore, we encourage further analyses of this model to test its viability outside the background perspective.