Charles Explorer logo
🇬🇧

Covariant conserved currents for scalar-tensor Horndeski theory

Publication at Faculty of Mathematics and Physics |
2018

Abstract

The scalar-tensor theories have become popular recently in particular in connection with attempts to explain present accelerated expansion of the universe, but they have been considered as a natural extension of general relativity long time ago. The Horndeski scalar-tensor theory involving four invariantly defined Lagrangians is a natural choice since it implies field equations involving at most second derivatives.

Following the formalisms of defining covariant global quantities and conservation laws for perturbations of spacetimes in standard general relativity, we extend these methods to the general Horndeski theory and find the covariant conserved currents for all four Lagrangians. The current is also constructed in the case of linear perturbations involving both metric and scalar fields.

As a specific illustration, we derive a superpotential that leads to the covariantly conserved current in the Branse-Dicke theory.