Manifolds with vectorial torsion

The present note deals with the properties of metric connections ∇ with vectorial torsion V on semi-Riemannian manifolds (Mn,g). We show that the ∇-curvature is symmetric if and only if V♭ is closed, and that V⊥ then defines an (n−1)-dimensional integrable distribution on Mn. If the vector field V i...

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Published inDifferential geometry and its applications Vol. 45; pp. 130 - 147
Main Authors Agricola, Ilka, Kraus, Margarita
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2016
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Summary:The present note deals with the properties of metric connections ∇ with vectorial torsion V on semi-Riemannian manifolds (Mn,g). We show that the ∇-curvature is symmetric if and only if V♭ is closed, and that V⊥ then defines an (n−1)-dimensional integrable distribution on Mn. If the vector field V is exact, we show that the V-curvature coincides up to global rescaling with the Riemannian curvature of a conformally equivalent metric. We prove that it is possible to construct connections with vectorial torsion on warped products of arbitrary dimension matching a given Riemannian or Lorentzian curvature—for example, a V-Ricci-flat connection with vectorial torsion in dimension 4, explaining some constructions occurring in general relativity. Finally, we investigate the Dirac operator D of a connection with vectorial torsion. We prove that for exact vector fields, the V-Dirac spectrum coincides with the spectrum of the Riemannian Dirac operator. We investigate in detail the existence of V-parallel spinor fields; several examples are constructed. It is known that the existence of a V-parallel spinor field implies dV♭=0 for n=3 or n≥5; for n=4, this is only true on compact manifolds. We prove an identity relating the V-Ricci curvature to the curvature in the spinor bundle. This result allows us to prove that if there exists a nontrivial V-parallel spinor, then RicV=0 for n≠4 and RicV(X)=X▪dV♭ for n=4. We conclude that the manifold is conformally equivalent either to a manifold with Riemannian parallel spinor or to a manifold whose universal cover is the product of R and an Einstein space of positive scalar curvature. We also prove that if dV♭=0, there are no non-trivial ∇-Killing spinor fields.
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ISSN:0926-2245
1872-6984
DOI:10.1016/j.difgeo.2016.01.004