Gravitational charges and radiation in asymptotically locally de Sitter spacetimes

Aaron Poole; Kostas Skenderis; Marika Taylor

Paper

Gravitational charges and radiation in asymptotically locally de Sitter spacetimes

Abstract

We present a comprehensive discussion of gravitational charges and radiation in four-dimensional asymptotically locally de Sitter (AldS) spacetimes. Such spacetimes have compact spatial sections and possess spacelike past and future infinities,

. We show that the variational problem is well-posed if one specifies a conformal class up to three-dimensional diffeomorpshims at

, provided one adds at

suitable local terms. These are analogues of the AdS covariant counterterms of holographic renormalisation. Radiation is possible only when the conformal class at infinity is non-trivial. Bulk diffeomorphisms that asymptote to conformal Killing vectors at

lead to gravitational charges that are conserved under radial translations, while transformations that asymptote to a general three-dimensional vector imply that the gravitational charges satisfy flux-balance laws. We also present quantities that are invariant under temporal translations, if gravitational flux is absent, but otherwise satisfy flux-balance laws. We derive these results using first principles application of Noether's method as well as covariant phase space methods. We apply our formalism to several exact solutions, including the Robinson-Trautman-dS class, which we use to demonstrate the existence of conserved charges even in the absence of asymptotic conformal Killing vectors and the existence of monotonic charges, including the Bondi mass.