An inequality between intrinsic and extrinsic scalar curvature invariants for codimension 2 embeddings

We study the local and isometric embedding of an m-dimensional Lorentzian manifold in an ( m+2)-dimensional pseudo-Euclidean space. An inequality is proven between the basic curvature invariants, i.e. the intrinsic scalar curvature and the extrinsic mean and scalar normal curvature. The inequality b...

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Bibliographic Details
Published inJournal of geometry and physics Vol. 52; no. 2; pp. 101 - 112
Main Authors Dillen, Franki, Haesen, Stefan, Petrović-Torgašev, Miroslava, Verstraelen, Leopold
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2004
Subjects
Codimension 2
Embedding
Normal curvature
53C42
Riemannian geometry
4.50.+h
Embedding
Codimension 2
49Q10
Normal curvature
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Summary:We study the local and isometric embedding of an m-dimensional Lorentzian manifold in an ( m+2)-dimensional pseudo-Euclidean space. An inequality is proven between the basic curvature invariants, i.e. the intrinsic scalar curvature and the extrinsic mean and scalar normal curvature. The inequality becomes an equality if the two components of the second fundamental form have a specified form with respect to some orthonormal basis of the manifold. As an application we look at the space–times embedded in a six-dimensional pseudo-Euclidean space for which the equality holds. They turn out to be Petrov type D models filled with an anisotropic perfect fluid and containing a timelike two-surface of constant curvature.
ISSN:0393-0440
1879-1662
DOI:10.1016/j.geomphys.2004.02.003