arXiv:1210.7416 Abstract | arXiv Analytics

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Solutions of the Dirac Equation in a Magnetic Field and Intertwining Operators

Alonso Contreras-Astorga, David J. Fernández C., Javier Negro

Published 2012-10-28Version 1

The intertwining technique has been widely used to study the Schr\"odinger equation and to generate new Hamiltonians with known spectra. This technique can be adapted to find the bound states of certain Dirac Hamiltonians. In this paper the system to be solved is a relativistic particle placed in a magnetic field with cylindrical symmetry whose intensity decreases as the distance to the symmetry axis grows and its field lines are parallel to the $x-y$ plane. It will be shown that the Hamiltonian under study turns out to be shape invariant.

Journal: SIGMA 8 (2012), 082, 10 pages

DOI: 10.3842/SIGMA.2012.082

Categories: quant-ph, hep-th, math-ph, math.MP

Keywords: magnetic field, dirac equation, intertwining operators, symmetry axis grows, shape invariant

Tags: journal article

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arXiv:1210.7416 [quant-ph]Abstract References Reviews Resources

Solutions of the Dirac Equation in a Magnetic Field and Intertwining Operators

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Solutions of the Dirac Equation in a Magnetic Field and Intertwining Operators

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arXiv:1210.7416 [quant-ph]Abstract References Reviews Resources