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From backgrounds of the Lorentz symmetry breaking implemented by the tensor $\left (K_{F}\right )_{\mu \nu \alpha \beta }$ , we analyze the effects of the Lorentz symmetry violation at a… Click to show full abstract
From backgrounds of the Lorentz symmetry breaking implemented by the tensor $\left (K_{F}\right )_{\mu \nu \alpha \beta }$ , we analyze the effects of the Lorentz symmetry violation at a low energy scenario from a semiclassical point of view by using the Wentzel, Kramers and Brillouin approximation. We show that the interaction of a neutral particle with electric and magnetic fields in the background defined by the tensor $\left (K_{F}\right )_{\mu \nu \alpha \beta }$ yields attractive scalar potentials, and thus, bound state solutions to the Schrodinger equation can be obtained.
Journal Title: International Journal of Theoretical Physics
Year Published: 2020
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