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JOURNALS // Sibirskie Èlektronnye Matematicheskie Izvestiya [Siberian Electronic Mathematical Reports] // Archive

Sib. Èlektron. Mat. Izv., 2020 Volume 17, Pages 1183–1216 (Mi semr1283)

Geometry and topology

On four-dimensional locally homogeneous pseudo-Riemannian manifolds with isotropic Weyl tensor

S. Klepikova

Altai State University, 61, Lenina ave., Barnaul, 656049, Russia

Abstract: The papers of many mathematicians are devoted to studying of (pseudo)Riemannian manifolds with zero Weyl tensor (i.e. conformally flat manifolds). Moreover, one can consider manifolds whose Weyl tensor has zero squared length, and itself is not zero. Also such manifolds are called manifolds with isotropic Weyl tensor. In the case of a Riemannian metric, the squared length of a tensor is the sum of the squares of all components in some orthonormal basis, and it is zero iff the tensor itself is trivial. Therefore, it is natural to consider only the case of a pseudo-Riemannian metric. In the case of dimension 3, the Weyl tensor is trivial, and the Schouten–Weyl tensor (also known as the Cotton tensor) is the analogue of the Weyl tensor. The Schouten‑-Weyl tensor was investigated for a left-invariant Lorentzian metric on three-dimensional Lie groups, including the problem of its isotropy, in the work of E.D. Rodionov, V.V. Slavskii, L.N. Chibrikova. In this paper results on the investigation of four-dimensional locally homogeneous spaces with nontrivial isotropy subgroup and with invariant pseudo-Riemannian metric and an isotropic Weyl tensor are presented.

Keywords: (pseudo)Riemannian manifold, isotropic Weyl tensor, systems of computer mathematics.

UDC: 514.765

MSC: 53B99

Received August 26, 2018, published August 24, 2020

DOI: 10.33048/semi.2020.17.089



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