English

On homogeneous plane waves

Differential Geometry 2025-06-03 v4

Abstract

Plane waves are a special class of Lorentzian spaces with a parallel null vector field. They are of great importance in Geometry (e.g. Lorentzian holonomy) and in Physics (General Relativity as well as alternative gravity theories). Our contribution in the present paper aims at a rigorous mathematical treatment focusing on completeness of Killing fields, and globality of coordinates. Equivalence of different approaches to plane waves is by no means easy to handle. We use here cohomogeneity one Heisenberg actions to introduce a point of view from which one can see plane waves as a deformation of Minkowski spacetime. We determine the identity component of the isometry group of a 1-connected non-flat homogeneous plane wave, which establishes a correspondence between these spaces and certain 1-parameter groups of automorphisms of the Heisenberg group. The extendibility of spacetimes (when incomplete) is a natural, important and delicate question. One of our main results is the proof of the C2C^2-inextendibility of non-flat homogeneous plane waves. We also prove that they are geodesically complete if and only if the null parallel vector field is preserved by the identity component of the isometry group. Finally, we show that a 1-connected homogeneous plane wave admits global Brinkmann coordinates.

Keywords

Cite

@article{arxiv.2311.07459,
  title  = {On homogeneous plane waves},
  author = {Malek Hanounah and Lilia Mehidi and Abdelghani Zeghib},
  journal= {arXiv preprint arXiv:2311.07459},
  year   = {2025}
}

Comments

To appear in J. Math. Phys

R2 v1 2026-06-28T13:19:33.636Z