The energy conditions and model selection in the local Universe

Abstract

The four principal energy conditions (ECs) in general relativity prohibit negative energies, repulsive gravity and superluminal energy flows. One must invoke exotic matter to violate any one of these, yet ΛCDM does so quite prominently during inflation and in the epoch of dark energy dominance. In this paper, we carry out model selection between the standard model and the R h=ct universe using a combination of HII galaxy and cosmic chronometer measurements in the local Universe, and directly compare the results to the constraints imposed by the ECs. We find that the latter cosmology is not only strongly favored by these data, with a likelihood of 92\% versus only 8\% for the former, but that its optimized fit is fully compliant with all four ECs, while ΛCDM's best fit violates the so-called strong energy condition at z 2.