Rotating electrically charged ideal fluid with magnetic and vortex gravitational fields in general relativity
Stationary configuration of a rotating electrically charged ideal fluid with self-gravitation is considered within the framework of general relativity. Barotropic equation of state of the liquid is p = w ε ( w = const). Combination of longitudinal magnetic field and a vortex gravitational field is considered. The boundaries of the interval of the barotropic coefficient w , when the existence of the considered material system is possible, are found. It was shown that for w > 0 the formation of “wormholes” is possible. Corresponding solutions describing the space-time geometry of the “wormhole” were found.
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Keywords
electrically charged liquid, rotation, magnetic field, vortex gravitational field, “wormholes”Authors
| Name | Organization | |
| Krechet V.G. | Moscow State University of Technology "STANKIN" | |
| Oshurko V.B. | Moscow State University of Technology "STANKIN"; Prokhorov General Physics Institute of the Russian Academy of Sciences | vbo08@yandex.ru |
| Baidin A.E. | Moscow State University of Technology "STANKIN" | al.baidin@yandex.ru |
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