Gravitational field effects produced by topologically nontrivial rotating space–time under magnetic and quantum flux fields on quantum oscillator
Faizuddin Ahmed
Abstract
In this paper, we study the gravitational field effects produced by a topologically nontrivial four-dimensional geometry on a relativistic quantum oscillator in the presence of a uniform magnetic field and quantum flux. We introduced the noninertial effects of a rotating frame of reference and solved analytically the generalized KG-oscillator for Coulomb- and Cornell-type potential functions using the Nikiforov–Uvarov method. We discuss the effects of the rotating frame, the nontrivial topology and the external magnetic field on the eigenvalue solutions of the oscillator fields.
Topics & Concepts
PhysicsMagnetic fieldRotating magnetic fieldGravitational fieldQuantum mechanicsQuantumClassical mechanicsMagnetic fluxField (mathematics)CoulombQuantum electrodynamicsTopology (electrical circuits)ElectronCombinatoricsPure mathematicsMathematicsQuantum Mechanics and Non-Hermitian PhysicsNonlinear Waves and SolitonsQuantum chaos and dynamical systems