Planar cyclotron motion in unidirectional superlattices defined by
  strong magnetic and electric fields: Traces of classical orbits in the energy
  spectrum

A. Manolescu; A. Manolescu; A. Manolescu; C. W. J. Beenakker; C. Zhang; D. Weiss; E. Hofstetter; F. M. Peeters; F. M. Peeters; H. A. Carmona; I. S. Ibrahim; J. E. Müller; P. D. Ye; P. D. Ye; P. D. Ye; P. H. Beton; P. Vasilopoulos; Q. W. Shi; R. Menne; R. R. Gerhardts; R. R. Gerhardts; R. R. Gerhardts; R. W. Winkler; S. D. M. Zwerschke; S. Izawa; U. Gossmann

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Planar cyclotron motion in unidirectional superlattices defined by strong magnetic and electric fields: Traces of classical orbits in the energy spectrum

Authors: A. Manolescu
A. Manolescu
A. Manolescu
C. W. J. Beenakker
C. Zhang
D. Weiss
E. Hofstetter
F. M. Peeters
F. M. Peeters
H. A. Carmona
I. S. Ibrahim
J. E. Müller
P. D. Ye
P. D. Ye
P. D. Ye
P. H. Beton
P. Vasilopoulos
Q. W. Shi
R. Menne
R. R. Gerhardts
R. R. Gerhardts
R. R. Gerhardts
R. W. Winkler
S. D. M. Zwerschke
S. Izawa
U. Gossmann
Publication date: 1 January 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We compare the quantum and the classical description of the two-dimensional motion of electrons subjected to a perpendicular magnetic field and a one-dimensional lateral superlattice defined by spatially periodic magnetic and electric fields of large amplitudes. We explain in detail the complicated energy spectra, consisting of superimposed branches of strong and of weak dispersion, by the correspondence between the respective eigenstates and the ``channeled'' and ``drifting'' orbits of the classical description.Comment: 11 pages, 11 figures, to appear in Physical Review

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