English

Quasinormal Quantization in deSitter Spacetime

High Energy Physics - Theory 2015-03-19 v2 General Relativity and Quantum Cosmology

Abstract

A scalar field in four-dimensional deSitter spacetime (dS_4) has quasinormal modes which are singular on the past horizon of the south pole and decay exponentially towards the future. These are found to lie in two complex highest-weight representations of the dS_4 isometry group SO(4,1). The Klein-Gordon norm cannot be used for quantization of these modes because it diverges. However a modified `R-norm', which involves reflection across the equator of a spatial S^3 slice, is nonsingular. The quasinormal modes are shown to provide a complete orthogonal basis with respect to the R-norm. Adopting the associated R-adjoint effectively transforms SO(4,1) to the symmetry group SO(3,2) of a 2+1-dimensional CFT. It is further shown that the conventional Euclidean vacuum may be defined as the state annihilated by half of the quasinormal modes, and the Euclidean Green function obtained from a simple mode sum. Quasinormal quantization contrasts with some conventional approaches in that it maintains manifest dS-invariance throughout. The results are expected to generalize to other dimensions and spins.

Keywords

Cite

@article{arxiv.1305.5523,
  title  = {Quasinormal Quantization in deSitter Spacetime},
  author = {Daniel L. Jafferis and Alexandru Lupsasca and Vyacheslav Lysov and Gim Seng Ng and Andrew Strominger},
  journal= {arXiv preprint arXiv:1305.5523},
  year   = {2015}
}

Comments

23 pages. v2: minor edits, matches published version

R2 v1 2026-06-22T00:21:35.327Z