Epicyclic motions and constraints on the charged stringy black hole spacetime

Abstract: The purpose of this paper is to examine the epicyclic motion of charged particles in the vicinity of a magnetically charged stringy black hole subject to an electromagnetic field. This investigation is motivated by the established fact that magnetic fields have a significant impact on the motion of charged particles in the vicinity of a black hole. It has been observed that the magnetic coupling parameter has a comparable impact on the motion of magnetic monopole charge, leading to an increase/decrease in the radius of the innermost stable circular orbit (ISCO) that plays a crucial role in setting the accretion disk's the inner edge. Further, we analyze the characteristics of the epicyclic motion and determine the generic form for the epicyclic frequencies. Our results demonstrate that the existence of the magnetic coupling parameter can account for the observed resonance of high frequency QPOs from selected three specific microquasars. We have applied the Monte Carlo simulations with the observed frequencies for three selected microquasars to constrain the parameters of the magnetically charged stringy black holes as well as coupling parameters that describe the interaction between the particle and the black hole. Finally, we study in detail the radiation properties of the accretion disk in the close vicinity of black hole. We show that the magnetic coupling parameter can have significant influence on the radiation flux of the accretion disk.