Exact Solutions of the 2D Dunkl--Klein--Gordon Equation: The Coulomb Potential and the Klein--Gordon Oscillator

• URL: http://arxiv.org/abs/2008.13204v2
• Date: Wed, 14 Jul 2021 16:58:27 GMT
• Title: Exact Solutions of the 2D Dunkl--Klein--Gordon Equation: The Coulomb Potential and the Klein--Gordon Oscillator
• Authors: R. D. Mota, D. Ojeda-Guill\'en, M. Salazar-Ram\'irez, V. D. Granados
• Abstract summary: We introduce the Dunkl--Klein--Gordon (DKG) equation in 2D by changing the standard partial derivatives. We compute the energy spectrum and eigenfunctions of the DKG equations for the 2D Coulomb potential. We show that if the parameters of the Dunkl derivative vanish, the obtained results suitably reduce to those reported in the literature for these 2D problems.
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• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We introduce the Dunkl--Klein--Gordon (DKG) equation in 2D by changing the standard partial derivatives by the Dunkl derivatives in the standard Klein--Gordon (KG) equation. We show that the generalization with Dunkl derivative of the $z$-component of the angular momentum is what allows the separation of variables of the DKG equation. Then, we compute the energy spectrum and eigenfunctions of the DKG equations for the 2D Coulomb potential and the Klein--Gordon oscillator analytically and from an ${\rm su}(1,1)$ algebraic point of view. Finally, we show that if the parameters of the Dunkl derivative vanish, the obtained results suitably reduce to those reported in the literature for these 2D problems.

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