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Rotating Clouds of Charged Vlasov matter in General Relativity

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Titel: Rotating Clouds of Charged Vlasov matter in General Relativity
Autoren: Thaller, Maximilian, 1990
Quelle: Classical and Quantum Gravity. 37(3)
Schlagwörter: implicit function theorem, axial symmetry, mathematical general relativity, Einstein–Vlasov–Maxwell system, stationary space-times, elliptic PDE’s
Beschreibung: The existence of stationary solutions of the Einstein–Vlasov–Maxwell system which are axially symmetric but not spherically symmetric is proven by means of the implicit function theorem on Banach spaces. The proof relies on the methods of Andréasson et al (2014 Commun. Math. Phys. 329, 787–808) where a similar result is obtained for uncharged particles. Among the solutions constructed in this article there are rotating and non-rotating ones. Static solutions exhibit an electric but no magnetic field. In the case of rotating solutions, in addition to the electric field, a purely poloidal magnetic field is induced by the particle current. The existence of toroidal components of the magnetic field turns out to be not possible in this setting.
Dateibeschreibung: electronic
Zugangs-URL: https://research.chalmers.se/publication/514887
https://research.chalmers.se/publication/515987
https://research.chalmers.se/publication/515987/file/515987_Fulltext.pdf
Datenbank: SwePub
Beschreibung
Abstract:The existence of stationary solutions of the Einstein–Vlasov–Maxwell system which are axially symmetric but not spherically symmetric is proven by means of the implicit function theorem on Banach spaces. The proof relies on the methods of Andréasson et al (2014 Commun. Math. Phys. 329, 787–808) where a similar result is obtained for uncharged particles. Among the solutions constructed in this article there are rotating and non-rotating ones. Static solutions exhibit an electric but no magnetic field. In the case of rotating solutions, in addition to the electric field, a purely poloidal magnetic field is induced by the particle current. The existence of toroidal components of the magnetic field turns out to be not possible in this setting.
ISSN:02649381
13616382
DOI:10.1088/1361-6382/ab60ba