Nülifer Özdemir scite author profile

We study the effects of an external magnetic field, which is assumed to be uniform at infinity, on the marginally stable circular motion of charged particles in the equatorial plane of a rotating black hole. We show that the magnetic field has its greatest effect in enlarging the region of stability towards the event horizon of the black hole. Using the Hamilton-Jacobi formalism we obtain the basic equations governing the marginal stability of the circular orbits and their associated energies and angular momenta. As instructive examples, we review the case of the marginal stability of the circular orbits in the Kerr metric, as well as around a Schwarzschild black hole in a magnetic field. For large enough values of the magnetic field around a maximally rotating black hole we find the limiting analytical solutions to the equations governing the radii of marginal stability. We also show that the presence of a strong magnetic field provides the possibility of relativistic motions in both direct and retrograde innermost stable circular orbits around a Kerr black hole.

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Motion of the charged test particles in Kerr-Newman-Taub-NUT spacetime and analytical solutions

Cebeci

Özdemir

Şentorun

2016

Phys. Rev. D

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In this work, we study the motion of charged test particles in KerrNewman-Taub-NUT spacetime. We analyze the angular and the radial parts of the orbit equations and examine the possible orbit types. We also investigate the spherical orbits and their stabilities. Furthermore, we obtain the analytical solutions of the equations of motion and express them in terms of Jacobian and Weierstrass elliptic functions. Finally, we discuss the observables of the bound motion and calculate the perihelion shift and Lense-Thirring effect for the bound orbits.

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On the Relationship Between Multiple-Scattering Macro Basis Functions and Krylov Subspace Iterative Methods

Özdemir

González‐Ovejero

Craeye

2013

IEEE Trans. Antennas Propagat.

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MoM Matrix Generation Based on Frequency and Material Independent Reactions (FMIR-MoM)

Hislop

Özdemir

Craeye

et al. 2012

IEEE Trans. Antennas Propagat.

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