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Exploring Hu–Sawicki gravity through circular motion with trajectories and QPOs testing around a black hole

Asifa Ashraf, Abdelmalek Bouzenada, S. K. Maurya, Awad A. Ibraheem, Batuhan Çil, Ertan Güdekli, Farruh Atamurotov

2025Physics of the Dark Universe7 citationsDOIOpen Access PDF

Abstract

Focusing on the influence of the model parameters on particle motion, we investigate the dynamics of test particles around a spherically symmetric, non-rotating black hole within the framework of Hu–Sawicki gravity. The black hole is characterized by four parameters: its mass M , two dimensionless parameters α and β , and a mass scale parameter m . To analyze the stability of spherical orbits, we employ the effective potential approach, deriving analytical expressions for the energy and angular momentum of test particles as functions of the black hole parameters. In this context, we tested the effective forces acting on the particles and determined the innermost stable circular orbits . To gain further insight into particle trajectories , we numerically integrate the equations of motion . In addition, we investigate epicyclic oscillations near the equatorial plane, obtaining analytical expressions for the radial, vertical, and orbital frequencies, as well as the frequency of periastron precession. Also, we examine particle collisions near the black hole horizon and compute the center-of-mass energy of such events. Our findings demonstrate that the black hole parameters significantly influence particle dynamics, revealing intriguing effects on orbital stability and energetic interactions.

Topics & Concepts

PhysicsMotion (physics)Circular motionBlack hole (networking)Classical mechanicsAstrophysicsComputer networkRouting (electronic design automation)Link-state routing protocolComputer scienceRouting protocolBlack Holes and Theoretical PhysicsExperimental and Theoretical Physics StudiesAstrophysical Phenomena and Observations