Avoided crossings in mesoscopic systems: electron propagation on a
  non-uniform magnetic cylinder

A. Joye; Alibert B.; Anantram M. P.; Aristov D. N.; da Costa R. C. T.; da Costa R. C. T.; Exner P.; Hagedorn G.; Hagedorn G.; Hagedorn G. A.; Hagedorn G. A.; Hagedorn G. A.; Lin-Chung P. J.; Malits P.; P. Exner; Wakabayashi K.

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Avoided crossings in mesoscopic systems: electron propagation on a non-uniform magnetic cylinder

Authors: A. Joye
Alibert B.
Anantram M. P.
Aristov D. N.
da Costa R. C. T.
da Costa R. C. T.
Exner P.
Hagedorn G.
Hagedorn G.
Hagedorn G. A.
Hagedorn G. A.
Hagedorn G. A.
Lin-Chung P. J.
Malits P.
P. Exner
Wakabayashi K.
Publication date: 25 October 2000
Publisher: 'AIP Publishing'
Doi

Abstract

We consider an electron constrained to move on a surface with revolution symmetry in the presence of a constant magnetic field

B

parallel to the surface axis. Depending on

B

and the surface geometry the transverse part of the spectrum typically exhibits many crossings which change to avoided crossings if a weak symmetry breaking interaction is introduced. We study the effect of such perturbations on the quantum propagation. This problem admits a natural reformulation to which tools from molecular dynamics can be applied. In turn, this leads to the study of a perturbation theory for the time dependent Born-Oppenheimer approximation

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