Spinning Particle in Gravitational Field of Black Hole Involving Global Monopole
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In this paper we study the dynamics of trajectory of a spinning particle in a Schwarzschild spacetime involving a global monopole. We set up the equations of motion and find three types of trajectories. We study the conditions that a spinning particle, originally moving in the innermost stable circular orbit around the black hole involving a global monopole, will escape to infinity after it is kicked by another particle or photon. Three types of trajectories of a spinning particle in a Schwarzschild spacetime involving a global monopole are simulated in detail and the escaping energy and velocity of the spinning particle is also obtained in the present paper.
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Spinning test particles in the spacetime of a global monopole
Derives exact integrable non-geodesic trajectories for spinning test particles in global monopole spacetime via MPD equations and symmetries.
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