Szekeres-type mappings of Kasner and Petrov type I(M+) purely magnetic spacetimes

Article


Lozanovski, Con. 2007. "Szekeres-type mappings of Kasner and Petrov type I(M+) purely magnetic spacetimes." Classical and Quantum Gravity. 24 (5), pp. 1169-1188. https://doi.org/10.1088/0264-9381/24/5/008
Article Title

Szekeres-type mappings of Kasner and Petrov type I(M+) purely magnetic spacetimes

ERA Journal ID959
Article CategoryArticle
Authors
AuthorLozanovski, Con
Journal TitleClassical and Quantum Gravity
Journal Citation24 (5), pp. 1169-1188
Number of Pages20
Year2007
Place of PublicationLondon, U.K.
ISSN0264-9381
1361-6382
Digital Object Identifier (DOI)https://doi.org/10.1088/0264-9381/24/5/008
Web Address (URL)http://iopscience.iop.org/0264-9381/24/5/008/pdf/0264-9381_24_5_008.pdf
Abstract

We show that Szekeres-type mappings of Kasner spacetime generate a 2-variable Haddow magnetic spacetime of Petrov type I(M∞) and of Segré type. It is then shown that this spacetime is unique for the generating functions of 3- or 4-variable generalizations. Moreover, sufficient conditions on the variable dependence of the metric coefficients distinguishing types I(M∞) and I(M+) are established for diagonal purely magnetic spacetimes. These results are then combined by embedding the 2-variable Haddow magnetic spacetime within a diagonal spacetime such that the resulting spacetime is of Petrov type I(M+), in general. In turn, this leads to a family of non-vacuum purely magnetic spacetimes of Petrov type I(M+). It is then shown that either the anisotropic pressure tensor or heat-flux vector can be set to zero. Notably, the former class contains a sub-class of Haddow magnetic spacetimes also of Petrov type I(M+). Finally, the possibility of conformally relating the general family of non-vacuum purely magnetic spacetimes to vacuum is shown not to be possible.

Keywordsspacetime; spacetime topology
ANZSRC Field of Research 2020510105. General relativity and gravitational waves
490204. Mathematical aspects of general relativity
510903. Mesospheric, thermospheric, ionospheric and magnetospheric physics
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Byline AffiliationsUniversity of Melbourne
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