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Relativistic Landau and oscillator levels in a symmetric gauge field in a non-commutative complex space

In this work we obtain the exact solution for relativistic Landau problem plus oscillator potential in a complex symmetric gauge field in a non-commutative complex space, using the algebraic techniques of creation and annihilation operators. It is shown that the relativistic Landau problem in a complex symmetric gauge field in a non-commutative complex space is similar behavior to the Pauli equation in the presence of a symmetric gauge field in a commutative ordinary space. We derive the exact non-commutative Landau and oscillator energy levels, while the non-relativistic limit of the energy spectrum is obtained. We show that the energy is not degenerate and is splitted into two levels, as in the Zeeman effect.

preprint2020arXivOpen access
S. ZaimH. Rezki
quant-ph
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Open access2 authors1 topic
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S. ZaimH. Rezki

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