Nonequilibrium localization in quantum Hall systems at very low frequencies

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OriginalspracheEnglisch
Aufsatznummer195319
FachzeitschriftPhysical Review B - Condensed Matter and Materials Physics
Jahrgang71
Ausgabenummer19
PublikationsstatusVeröffentlicht - 13 Dez. 2005

Abstract

We have measured the conductivity σxx of GaAs GaAlAs Corbino devices under nonequilibrium conditions in the quantum Hall regime at low frequencies from dc up to 10 kHz. At very low frequencies up to 10-20 Hz, σxx shows a steep decrease from its dc value towards a reduced saturation value. Measurements of the temperature dependence of σxx from 70 mK to 4.2 K revealed a dominance of a conductivity with a temperature dependence σxx ∼exp {- (T0 T)1 2 } typical for variable-range hopping (VRH) at temperatures below 1 K and an additional contribution of thermal activation above 2 K. The characteristic temperature T0 as determined from the VRH-like temperature plot of the conductivity showed also an increase with the frequency and a pronounced decrease with increasing voltage below the breakdown of the quantum Hall effect (QHE). We attribute these results to an effective suppression of the delocalization of electrons in alternating external fields due to a reduced heating and scattering between localization centers. The time scale for this process can be as long as 100 ms. Our data show that the background conductivity σxx at subcritical voltages affects the critical voltage for the breakdown of the QHE.

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Nonequilibrium localization in quantum Hall systems at very low frequencies. / Buss, A.; Hohls, F.; Schulze-Wischeler, F. et al.
in: Physical Review B - Condensed Matter and Materials Physics, Jahrgang 71, Nr. 19, 195319, 13.12.2005.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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abstract = "We have measured the conductivity σxx of GaAs GaAlAs Corbino devices under nonequilibrium conditions in the quantum Hall regime at low frequencies from dc up to 10 kHz. At very low frequencies up to 10-20 Hz, σxx shows a steep decrease from its dc value towards a reduced saturation value. Measurements of the temperature dependence of σxx from 70 mK to 4.2 K revealed a dominance of a conductivity with a temperature dependence σxx ∼exp {- (T0 T)1 2 } typical for variable-range hopping (VRH) at temperatures below 1 K and an additional contribution of thermal activation above 2 K. The characteristic temperature T0 as determined from the VRH-like temperature plot of the conductivity showed also an increase with the frequency and a pronounced decrease with increasing voltage below the breakdown of the quantum Hall effect (QHE). We attribute these results to an effective suppression of the delocalization of electrons in alternating external fields due to a reduced heating and scattering between localization centers. The time scale for this process can be as long as 100 ms. Our data show that the background conductivity σxx at subcritical voltages affects the critical voltage for the breakdown of the QHE.",
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Download

TY - JOUR

T1 - Nonequilibrium localization in quantum Hall systems at very low frequencies

AU - Buss, A.

AU - Hohls, F.

AU - Schulze-Wischeler, F.

AU - Stellmach, C.

AU - Hein, G.

AU - Haug, R. J.

AU - Nachtwei, G.

PY - 2005/12/13

Y1 - 2005/12/13

N2 - We have measured the conductivity σxx of GaAs GaAlAs Corbino devices under nonequilibrium conditions in the quantum Hall regime at low frequencies from dc up to 10 kHz. At very low frequencies up to 10-20 Hz, σxx shows a steep decrease from its dc value towards a reduced saturation value. Measurements of the temperature dependence of σxx from 70 mK to 4.2 K revealed a dominance of a conductivity with a temperature dependence σxx ∼exp {- (T0 T)1 2 } typical for variable-range hopping (VRH) at temperatures below 1 K and an additional contribution of thermal activation above 2 K. The characteristic temperature T0 as determined from the VRH-like temperature plot of the conductivity showed also an increase with the frequency and a pronounced decrease with increasing voltage below the breakdown of the quantum Hall effect (QHE). We attribute these results to an effective suppression of the delocalization of electrons in alternating external fields due to a reduced heating and scattering between localization centers. The time scale for this process can be as long as 100 ms. Our data show that the background conductivity σxx at subcritical voltages affects the critical voltage for the breakdown of the QHE.

AB - We have measured the conductivity σxx of GaAs GaAlAs Corbino devices under nonequilibrium conditions in the quantum Hall regime at low frequencies from dc up to 10 kHz. At very low frequencies up to 10-20 Hz, σxx shows a steep decrease from its dc value towards a reduced saturation value. Measurements of the temperature dependence of σxx from 70 mK to 4.2 K revealed a dominance of a conductivity with a temperature dependence σxx ∼exp {- (T0 T)1 2 } typical for variable-range hopping (VRH) at temperatures below 1 K and an additional contribution of thermal activation above 2 K. The characteristic temperature T0 as determined from the VRH-like temperature plot of the conductivity showed also an increase with the frequency and a pronounced decrease with increasing voltage below the breakdown of the quantum Hall effect (QHE). We attribute these results to an effective suppression of the delocalization of electrons in alternating external fields due to a reduced heating and scattering between localization centers. The time scale for this process can be as long as 100 ms. Our data show that the background conductivity σxx at subcritical voltages affects the critical voltage for the breakdown of the QHE.

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U2 - 10.1103/PhysRevB.71.195319

DO - 10.1103/PhysRevB.71.195319

M3 - Article

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VL - 71

JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

SN - 1098-0121

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ER -

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