Zener Tunneling Between Landau Orbits in a High-Mobility Two-Dimensional
  Electron Gas

C. Chaubet; C. L. Yang; D. Calecki; D. C. Tsui; G. Ebert; H. L. Stormer; J. A. Simmons; J. L. Reno; J. Zhang; L. M. Roth; R. R. Du; S. Titeica; T. Ando; T. Saku

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Zener Tunneling Between Landau Orbits in a High-Mobility Two-Dimensional Electron Gas

Authors: C. Chaubet
C. L. Yang
D. Calecki
D. C. Tsui
G. Ebert
H. L. Stormer
J. A. Simmons
J. L. Reno
J. Zhang
L. M. Roth
R. R. Du
S. Titeica
T. Ando
T. Saku
Publication date: 21 August 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Magnetotransport in a laterally confined two-dimensional electron gas (2DEG) can exhibit modified scattering channels owing to a tilted Hall potential. Transitions of electrons between Landau levels with shifted guiding centers can be accomplished through a Zener tunneling mechanism, and make a significant contribution to the magnetoresistance. A remarkable oscillation effect in weak field magnetoresistance has been observed in high-mobility 2DEGs in GaAs-AlGa

_{0.3}

As

_{0.7}

heterostructures, and can be well explained by the Zener mechanism.Comment: 5 pages, 4 figures. Text slightly shortened, figures resize

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