Particle dynamics in non-rotating Konoplya and Zhidenko black hole immersed in an external uniform magnetic field

TL;DR

This study explores how particles move around a non-rotating Konoplya and Zhidenko black hole immersed in a magnetic field, analyzing charged particle orbits and acceleration effects.

Contribution

It provides new insights into particle dynamics, including effective potential and ISCO behavior, in a novel black hole spacetime with magnetic interactions.

Findings

ISCO radii decrease with magnetic interaction parameter

Charged particle motion analyzed with effective potential

Magnetically charged particle dynamics studied

Abstract

In this paper, we investigate the dynamics of particles in the background of non-rotating Konoplya and Zhidenko black hole that is immersed in an external uniform magnetic field. The work involves circular motion of electric and magnetic particles and particle acceleration. First the motion of electric charged particles is considered. The effective potential, energy and angular momentum expressions are obtained along with their graphs. The analysis of ISCO shows that radii of ISCO decrease with magnetic interaction parameter. Motion of magnetically charged particles has also been studied.