Volodymyr Panat scite author profile

Volodymyr Panat

2Publications

19Citation Statements Received

149Citation Statements Given

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Affiliations

Pidstryhach Institute for Applied Problems of Mechanics and Mathematics, National Academy of Sciences of Ukraine

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Highly relativistic spin-gravity- Λ coupling

2017

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The effects of highly relativistic spin-gravity coupling in the Schwarzschild-de Sitter background which follow from the Mathisson-Papapetrou equations are investigated. The dependence of gravitoelectric and gravitomagnetic components of gravitational field on the velocity of an observer which is moving in Schwarzschild-de Sitter's background is estimated. The action of gravitomagnetic components on a fast moving spinning particle is considered. Different cases of the highly relativistic circular orbits of a spinning particle which essentially differ from the corresponding geodesic orbits are described. PACS numbers: 04.20.-q, 95.30.Sf I.

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Nonequatorial circular orbits of spinning particles in the Schwarzschild–de Sitter background

2018

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In this paper analytical solutions of the Mathisson-Papapetrou equations that describe nonequatorial circular orbits of a spinning particle in the Schwarzschild-de Sitter background are studied, and the role of the cosmological constant is emphasized. It is shown that generally speaking a highly relativistic velocity of the particle is a necessary condition of motion along this type of orbits, with an exception of orbits locating close to the position of the static equilibrium, where low velocities are possible as well. Depending on the correlation between the spin orientation of the particle and its orbital velocity some of the possible nonequatorial circular orbits exist due to the repulsive action on the particle caused by the spin-gravity coupling and the others are caused by the attractive action. Here values of the energy of the particle on the corresponding orbits are also analyzed.

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Volodymyr Panat

Highly relativistic spin-gravity- Λ coupling

Nonequatorial circular orbits of spinning particles in the Schwarzschild–de Sitter background

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