Su(1, 1) algebraic approach of the Dirac equation with Coulomb-type scalar and vector potentials in D+1 dimensions

M. Salazar-Ramírez; D. Martínez; R. D. Mota; V. D. Granados

doi:10.1209/0295-5075/95/60002

Su(1, 1) algebraic approach of the Dirac equation with Coulomb-type scalar and vector potentials in D+1 dimensions

M. Salazar-Ramírez, D. Martínez, R. D. Mota, V. D. Granados

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Abstract

We study the Dirac equation with Coulomb-type vector and scalar potentials in D+1 dimensions from an su(1, 1) algebraic approach. The generators of this algebra are constructed by using the Schrödinger factorization. The theory of unitary representations for the su(1, 1) Lie algebra allows us to obtain the energy spectrum and the supersymmetric ground state. For the cases where there exists either scalar or vector potential our results are reduced to those obtained by analytical techniques.

Original language	English
Article number	60002
Journal	EPL
Volume	95
Issue number	6
DOIs	https://doi.org/10.1209/0295-5075/95/60002
State	Published - Sep 2011

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abstract = "We study the Dirac equation with Coulomb-type vector and scalar potentials in D+1 dimensions from an su(1, 1) algebraic approach. The generators of this algebra are constructed by using the Schr{\"o}dinger factorization. The theory of unitary representations for the su(1, 1) Lie algebra allows us to obtain the energy spectrum and the supersymmetric ground state. For the cases where there exists either scalar or vector potential our results are reduced to those obtained by analytical techniques.",

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AU - Granados, V. D.

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N2 - We study the Dirac equation with Coulomb-type vector and scalar potentials in D+1 dimensions from an su(1, 1) algebraic approach. The generators of this algebra are constructed by using the Schrödinger factorization. The theory of unitary representations for the su(1, 1) Lie algebra allows us to obtain the energy spectrum and the supersymmetric ground state. For the cases where there exists either scalar or vector potential our results are reduced to those obtained by analytical techniques.

AB - We study the Dirac equation with Coulomb-type vector and scalar potentials in D+1 dimensions from an su(1, 1) algebraic approach. The generators of this algebra are constructed by using the Schrödinger factorization. The theory of unitary representations for the su(1, 1) Lie algebra allows us to obtain the energy spectrum and the supersymmetric ground state. For the cases where there exists either scalar or vector potential our results are reduced to those obtained by analytical techniques.

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Su(1, 1) algebraic approach of the Dirac equation with Coulomb-type scalar and vector potentials in D+1 dimensions

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