Publication details

Optical structures, algebraically special spacetimes, and the Goldberg-Sachs theorem in five dimensions

Authors

TAGHAVI-CHABERT Arman

Year of publication 2011
Type Article in Periodical
Magazine / Source Classical and Quantum Gravity
MU Faculty or unit

Faculty of Science

Citation
web http://iopscience.iop.org/0264-9381/28/14/145010/
Doi http://dx.doi.org/10.1088/0264-9381/28/14/145010
Field General mathematics
Keywords Robinson manifolds; algebraically special higher-dimensional spacetimes
Description Optical (or Robinson) structures are one generalization of four-dimensional shearfree congruences of null geodesics to higher dimensions. They are Lorentzian analogues of complex and CR structures. In this context, we extend the Goldberg–Sachs theorem to five dimensions. To be precise, we find a new algebraic condition on the Weyl tensor, which generalizes the Petrov type II condition, in the sense that it ensures the existence of such congruences on a five-dimensional spacetime, vacuum or under weaker assumptions on the Ricci tensor. This results in a significant simplification of the field equations. We discuss possible degenerate cases, including a five-dimensional generalization of the Petrov type D condition. We also show that the vacuum black ring solution is endowed with optical structures, yet fails to be algebraically special with respect to them. We finally explain the generalization of these ideas to higher dimensions, which has been checked in six and seven dimensions.
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