Related papers: Effects of the Lorentz symmetry violation on relativistic neutral scalar bosons: Scattering and bound states

Effects of the Lorentz symmetry violation on relativistic neutral scalar bosons: Scattering and bound states

URL: http://arxiv.org/abs/2501.14624v2
Date: Tue, 18 Feb 2025 00:08:56 GMT
Title: Effects of the Lorentz symmetry violation on relativistic neutral scalar bosons: Scattering and bound states
Authors: Luis B. Castro, Antonio S. de Castro,
Abstract summary: We consider a tensor $(K_F)_mu nu alpha beta$ out of the Standard Model Extension. We analyze and discuss the effects of Lorentz symmetry violation on the equation of motion.
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Abstract: In this letter, we investigate the effects of Lorentz symmetry violation on a relativistic neutral scalar boson within the framework of the Klein-Gordon formalism. We consider a tensor $(K_F)_{\mu \nu \alpha \beta}$ out of the Standard Model Extension, which describes the field configuration consisting of a constant magnetic field $\vec{B}=B\hat{z}$ and a cylindrical electric field $\vec{E}=\frac{\lambda}{r}\hat{r}$. We analyze and discuss the effects of Lorentz symmetry violation on the equation of motion and show that the presence of a specific Lorentz symmetry violation parameter is essential to obtain analytical solutions for scattering and bound states. Employing the partial wave approach in cylindrical coordinates, we calculate the relativistic phase shift, scattering amplitude and $S$-matrix, and discuss the effects of Lorentz symmetry violation on the phase shift. Furthermore, we obtain bound-state solutions by examining the poles of the $S$-matrix and compare our findings with those reported in the literature. Our results reveal that bound-state solutions are only feasible for a restrict range of Lorentz symmetry violation parameters, which contradict previous studies.

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