Crossover from weak localization to Shubnikov de Haas oscillations in a high-mobility 2D electron gas

T. A. Sedrakyan; M. E. Raikh

doi:10.1103/PhysRevLett.100.106806

Crossover from weak localization to Shubnikov de Haas oscillations in a high-mobility 2D electron gas

T. A. Sedrakyan, M. E. Raikh

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Abstract

We study the magnetoresistance xx(B)/0 of a high-mobility 2D electron gas in the domain of magnetic fields B, intermediate between the weak localization and the Shubnikov de Haas oscillations, where xx(B)/0 is governed by the interaction effects. Assuming short-range impurity scattering, we demonstrate that in the second order in the interaction parameter Î» a linear B dependence, xx(B)/ 02 I c/EF with a temperature-independent slope, emerges in this domain of B (here Ï‰c and EF are the cyclotron frequency and the Fermi energy, respectively). Unlike previous mechanisms, the linear magnetoresistance is unrelated to the electron executing the full Larmour circle, but rather originates from the impurity scattering via the B dependence of the phase of the impurity-induced Friedel oscillations.

Original language	English (US)
Article number	106806
Journal	Physical review letters
Volume	100
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.100.106806
State	Published - Mar 14 2008
Externally published	Yes

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abstract = "We study the magnetoresistance xx(B)/0 of a high-mobility 2D electron gas in the domain of magnetic fields B, intermediate between the weak localization and the Shubnikov de Haas oscillations, where xx(B)/0 is governed by the interaction effects. Assuming short-range impurity scattering, we demonstrate that in the second order in the interaction parameter {\^I}» a linear B dependence, xx(B)/ 02 I c/EF with a temperature-independent slope, emerges in this domain of B (here {\"I}‰c and EF are the cyclotron frequency and the Fermi energy, respectively). Unlike previous mechanisms, the linear magnetoresistance is unrelated to the electron executing the full Larmour circle, but rather originates from the impurity scattering via the B dependence of the phase of the impurity-induced Friedel oscillations.",

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AB - We study the magnetoresistance xx(B)/0 of a high-mobility 2D electron gas in the domain of magnetic fields B, intermediate between the weak localization and the Shubnikov de Haas oscillations, where xx(B)/0 is governed by the interaction effects. Assuming short-range impurity scattering, we demonstrate that in the second order in the interaction parameter Î» a linear B dependence, xx(B)/ 02 I c/EF with a temperature-independent slope, emerges in this domain of B (here Ï‰c and EF are the cyclotron frequency and the Fermi energy, respectively). Unlike previous mechanisms, the linear magnetoresistance is unrelated to the electron executing the full Larmour circle, but rather originates from the impurity scattering via the B dependence of the phase of the impurity-induced Friedel oscillations.

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Crossover from weak localization to Shubnikov de Haas oscillations in a high-mobility 2D electron gas

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