Microwave photoresponse in the 2D electron system caused by intra-Landau
  level transitions

A. L. Zakharov; A. L. Zakharov; J. H. Smet; K. von Klitzing; S. I. Dorozhkin; S. I. Dorozhkin; V. B. Shikin; V. I. Ryzhii; V. I. Ryzhii; V. I. Ryzhii; V. I. Ryzhii; V. Umansky

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Microwave photoresponse in the 2D electron system caused by intra-Landau level transitions

Authors: A. L. Zakharov
A. L. Zakharov
J. H. Smet
K. von Klitzing
S. I. Dorozhkin
S. I. Dorozhkin
V. B. Shikin
V. I. Ryzhii
V. I. Ryzhii
V. I. Ryzhii
V. I. Ryzhii
V. Umansky
Publication date: 9 September 2004
Publisher: 'American Physical Society (APS)'
Doi

Abstract

The influence of microwave radiation on the DC-magnetoresistance of 2D-electrons is studied in the regime beyond the recently discovered zero resistance states when the cyclotron frequency exceeds the radiation frequency. Radiation below 30 GHz causes a strong suppression of the resistance over a wide magnetic field range, whereas higher frequencies produce a non-monotonic behavior in the damping of the Shubnikov-de Haas oscillations. These observations are explained by the creation of a non-equilibrium electron distribution function by microwave induced intra-Landau level transitions.Comment: 4 pages, 5 figure

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