Volume 136, Number 6, December 2021
|Number of page(s)||5|
|Section||The Physics of Elementary Particles and Fields|
|Published online||25 March 2022|
Klein-Gordon oscillator under a linear central potential induced by Lorentz symmetry violation
Department of Physics, University of Science & Technology Meghalaya - Ri-Bhoi, Meghalaya-793101, India
Received: 2 July 2021
Accepted: 25 October 2021
The Klein-Gordon oscillator under Lorentz symmetry violation determined by the tensor out of the Standard Model Extension (SME) is analyzed. We introduce angular frequency of the oscillator with a Klein-Gordon particle by replacing the momentum vector in the wave equation. We choose the scenario of Lorentz symmetry violation with the field configuration of a constant magnetic field along the z-direction and a cylindrical electric field along the radial direction. We then solved the wave equation and obtained the bound state solutions of the modified Klein-Gordon oscillator. We see that the angular frequency of oscillator depends on the quantum numbers of the system which shows a quantum effect and on Lorentz symmetry breaking parameters.
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