Microwave Photoconductivity in Two-Dimensional Electron Systems due to
  Photon-Assisted Interaction of Electrons with Leaky Interface Phonons

A. C. Durst; A. D. Malov; A. V. Andreev; B. J. Keay; C. L. Yang; F. S. Bergeret; I. V. Ponomarev; M. A. Zudov; M. A. Zudov; M. A. Zudov; M. Sh. Erukhimov; R. Fitzgerald; R. G. Mani; V. I. Ryzhii; V. I. Ryzhii; V. Ryzhii; V. Shikin; V. V. V’yurkov

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Microwave Photoconductivity in Two-Dimensional Electron Systems due to Photon-Assisted Interaction of Electrons with Leaky Interface Phonons

Authors: A. C. Durst
A. D. Malov
A. V. Andreev
B. J. Keay
C. L. Yang
F. S. Bergeret
I. V. Ponomarev
M. A. Zudov
M. A. Zudov
M. A. Zudov
M. Sh. Erukhimov
R. Fitzgerald
R. G. Mani
V. I. Ryzhii
V. I. Ryzhii
V. Ryzhii
V. Shikin
V. V. V’yurkov
Publication date: 1 January 2003
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We calculate the contribution of the photon-assisted interaction of electrons with leaky interface phonons to the dissipative dc photoconductivity of a two-dimensional electron system in a magnetic field. The calculated photoconductivity as a function of the frequency of microwave radiation and the magnetic field exhibits pronounced oscillations. The obtained oscillation structure is different from that in the case of photon-assisted interaction with impurities. We demonstrate that at a sufficiently strong microwave radiation in the certain ranges of its frequency (or in certain ranges of the magnetic field) this mechanism can result in the absolute negative conductivity.Comment: 3 pages, 1 figur

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