Exploring gravitational theories beyond Horndeski

Jérôme Gleyzes; David Langlois; Federico Piazza; Filippo Vernizzi

Exploring gravitational theories beyond Horndeski

Jérôme Gleyzes, David Langlois, Federico Piazza, Filippo Vernizzi

Abstract

We have recently proposed a new class of gravitational scalar-tensor theories free from Ostrogradski instabilities, in arXiv:1404.6495. As they generalize Horndeski theories, or "generalized" galileons, we call them G$^3$. These theories possess a simple formulation when the time hypersurfaces are chosen to coincide with the uniform scalar field hypersurfaces. We confirm that they contain only three propagating degrees of freedom by presenting the details of the Hamiltonian formulation. We examine the coupling between these theories and matter. Moreover, we investigate how they transform under a disformal redefinition of the metric. Remarkably, these theories are preserved by disformal transformations that depend on the scalar field gradient, which also allow to map subfamilies of G$^3$ into Horndeski theories.

Exploring gravitational theories beyond Horndeski

Abstract

. These theories possess a simple formulation when the time hypersurfaces are chosen to coincide with the uniform scalar field hypersurfaces. We confirm that they contain only three propagating degrees of freedom by presenting the details of the Hamiltonian formulation. We examine the coupling between these theories and matter. Moreover, we investigate how they transform under a disformal redefinition of the metric. Remarkably, these theories are preserved by disformal transformations that depend on the scalar field gradient, which also allow to map subfamilies of G

into Horndeski theories.

Exploring gravitational theories beyond Horndeski

Abstract

Exploring gravitational theories beyond Horndeski

Abstract

Paper Structure

Table of Contents