The Kerr–Newman–(anti-)de Sitter spacetime: Extremal configurations and electrogeodesics
Veselý Jiří; Žofka Martin
We study motion of charged test particles, or electrogeodesics, in the Kerr–Newman–(anti-)de Sitter spacetime.We focus on the equatorial plane and the axis of symmetry where the analysis is considerably simpler. The electric charge opens up the possibility of newtypes of trajectories, particularly stationary pointswhere the particle can remain indefinitely. It also influences the stability of the orbits, which can be interesting from the point of viewof observations.We reviewthe basic properties of the spacetime—the structure of its horizons, the extremal cases, the possibility of over-extreme rotation, regions admitting closed timelike curves, and the turnaround radius, among other.
| type: | article |
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| journal: | Gen. Rel. Grav. |
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| volume: | 51 |
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| pages: | 156 |
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| year: | 2019 |
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| link: |
https://link.springer.com/article/10.1007%2Fs10714-019-2639-6
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| grants: | Sources of strong gravity and their astrophysical meaning, GAČR 17-13525S; 2017-2019; hlavní řešitel: Oldřich SemerákStudium symetrických prostoročasů v Einsteinově gravitaci, GAUK 80918; 2018-2020; hlavní řešitel: Jiří Veselý |
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