Dark energy and Chern-Simons like gravity from a dynamical four-form

Abstract

We consider the dynamics of a four-form field w , treating it as a distinct physical degree of freedom, independent of the metric. The equations of motion are derived from an action which, besides having the standard Hilbert-Einstein term and the matter part, consists of a new action for w . The evolution of w in a flat FRW universe is studied, and it is shown that the parameters of the theory admit solutions wherein it is possible to have an equation of state pφ ≈ -εφ , so that it leads to an accelerating universe. We also put forward electromagnetic as well as gravitational `Chern-Simons' like terms that arise naturally in 4D, entailing a modified Einstein-Maxwell equation and an enlarged system of Einstein equation involving a Cotton tensor. We demonstrate that the scalar-density associated with w can be employed to construct a generalized exterior derivative that converts a p-form density to a (p+1)-form density of identical weight.