Geusa de A. Marques scite author profile

In this work we study the Landau levels in the presence of topological defects.We analyze the behavior of electrons moving in a magnetic field in the presence of a continuous distribution of disclinations, a magnetic screw dislocation and a dispiration. We focus on the influence of these topological defects on the spectrum of the electron (or hole) in the magnetic field in the framework of the geometric theory of defects in solids of Katanaev-Volovich. The presence of the defect breaks the degeneracy of the Landau levels in different ways depending on the defect. Exact expressions for energies and eigenfunctions are found for all cases. Using KaluzaKlein theory we solve the Landau level problem for a dispiration and compare the results with the ones obtained in the previous cases.

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Non-relativistic quantum systems on topological defects spacetimes

Marques

Bezerra

2002

Class. Quantum Grav.

130

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Hydrogen atom in the gravitational fields of topological defects

2002

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We consider a hydrogen atom in the background spacetimes generated by an infinitely thin cosmic string and by a point-like global monopole. In both cases, we find the solutions of the corresponding Dirac equations and we determine the energy levels of the atom. We investigate how the geometric and topological features of these spacetimes leads to shifts in the energy levels as compared with the flat Minkowski spacetime.Comment: 17 pages, LATEX fil

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Scalar solutions in spacetimes containing a cosmic string

Fernandes

Marques

Bezerra

2006

Class. Quantum Grav.

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Quantum Effects Due to a Magnetic Flux Associated to a Topological Defect

Marques

Bezerra

Furtado

et al. 2005

Int. J. Mod. Phys. A

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We investigate the quantum scattering of an electron by a topological defect called dispiration, with an externally applied magnetic field along its axis. The Aharonov–Bohm effect for bound states is analyzed and it is demonstrated that the wave function and the energy spectra associated with the particle depend on the features of the dispiration as well as on the magnetic flux. We also calculate Berry's phase associated to the dynamics of electrons in this background.

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