Structure and stability of the Lukash plane-wave spacetime

Apostolopoulos P S; Apostolopoulos P S; Ashtekar A; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Barrow J D; Bogoyavlensky O I; Christos G Tsagas; Coley A; Coley A; Coley A A; Collins C B; Doroshkevich A; Eardley D; Ellis G F R; Ellis G F R; Ellis G F R; Ellis G F R; Ellis G F R; Grøn Ø; Hawking S W; Hervik S; Hewitt C G; Hewitt C G; Hsu L; John D Barrow; King A R; Lukash V N; Lukash V N; Lukash V N; Ma P K-H; MacCallum M A H; Penrose R; van Elst H; Wainright J Lim W C; Wainwright J; Wainwright J; Wald R

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Structure and stability of the Lukash plane-wave spacetime

Abstract

We study the vacuum, plane-wave Bianchi

VII{}_{h}

spacetimes described by the Lukash metric. Combining covariant with orthonormal frame techniques, we describe these models in terms of their irreducible kinematical and geometrical quantities. This covariant description is used to study analytically the response of the Lukash spacetime to linear perturbations. We find that the stability of the vacuum solution depends crucially on the background shear anisotropy. The stronger the deviation from the Hubble expansion, the more likely the overall linear instability of the model. Our analysis addresses rotational, shear and Weyl curvature perturbations and identifies conditions sufficient for the linear growth of these distortions.Comment: Revised version, references added. To appear in Class. Quantum Gra

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Last time updated on 01/04/2019