Related papers: Harmonic oscillator system in topologically charged Eddington-inspired Born-Infeld gravity space-time and Wu-Yang magnetic monopole

Harmonic oscillator system in topologically charged Eddington-inspired Born-Infeld gravity space-time and Wu-Yang magnetic monopole

URL: http://arxiv.org/abs/2406.17821v1
Date: Tue, 25 Jun 2024 09:19:13 GMT
Title: Harmonic oscillator system in topologically charged Eddington-inspired Born-Infeld gravity space-time and Wu-Yang magnetic monopole
Authors: Faizuddin Ahmed, Abdelmalek Bouzenada,
Abstract summary: We investigate the quantum dynamics of a harmonic oscillator (HO) system within the framework of topologically charged Born-Infeld gravity space-time. We incorporate the Wu-Yang magnetic monopole ( WYMM) into the quantum system and analyze the influences of modified gravity, the topological charge, and WYMM on this HO quantum mechanical system. Our findings show significant deviations in the behavior of the HO system compared to the traditional quantum mechanical HO model.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We investigate the quantum dynamics of a harmonic oscillator (HO) system within the framework of topologically charged Eddington-inspired Born-Infeld (EiBI) gravity space-time. Additionally, we incorporate the Wu-Yang magnetic monopole (WYMM) into the quantum system and analyze the influences of modified gravity, the topological charge, and WYMM on this HO quantum mechanical system. Using analytical methods, we derive the energy eigenvalues and the corresponding eigenfunctions of the HO. Moreover, we consider a scenario where the EiBI-gravity parameter is absent and introduce an inverse square potential, including the WYMM, into the HO system. Our findings show significant deviations in the behavior of the HO system compared to the traditional quantum mechanical HO model, including alterations in the bound-state spectra and eigenfunctions. These results provide valuable insights into the interplay between quantum mechanical problems and alternative gravitational theories.

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