Cosmic Acceleration from a Simultaneous Variation of Fundamental Constants

Abstract

We discuss the possibility of a simultaneous cosmic variation of two fundamental entities: the Newtonian gravitational coupling G and the electron mass me. We show that this variation can account for the late-time cosmic acceleration without invoking a cosmological constant or an explicit dark-energy fluid. We compare the derived me variation with laboratory bounds found from Quasar absorption Spectra. Our results indicate that late-time cosmic acceleration could be a manifestation of evolving fundamental couplings, establishing a direct bridge between precision tests of gravity, particle physics and the origin of cosmic acceleration.