Nonlinear acousto-electric transport in a two-dimensional electron
  system

A. L. Belostotskii; A. L. Efros; A. O. Govorov; A. V. Chaplik; A. V. Chaplik; A. V. Kalameitsev; A. Wixforth; A. Wixforth; B. A. Auld; C. W. Skorupka; E. Yablonovich; G. R. Nash; G. Weinreich; I. L. Drichko; I. L’Heureux; J. M. Shilton; J. P. Kotthaus; J. R. A. Beale; K. A. Ingebrigtsen; K.-H. Hoffmann; L. I. Magarill; M. J. Hoskins; M. K. Balakirev; M. K. Balakirev; M. Rotter; M. Rotter; M. Rotter; M. Rotter; M. Rotter; N. Botkin; P. K. Tien; P. N. Butcher; R. C. Ho; R. L. Willett; R. M. White; S. H. Simon; V. G. Mozhaev; V. I. Fal’ko; V. I. Talyanskii; V. L. Gurevich; V. L. Gurevich; W. J. Tanski; Yu. V. Gulyaev; Yu. V. Gulyaev

research

Nonlinear acousto-electric transport in a two-dimensional electron system

Abstract

We study both theoretically and experimentally the nonlinear interaction between an intense surface acoustic wave and a two-dimensional electron plasma in semiconductor-piezocrystal hybrid structures. The experiments on hybrid systems exhibit strongly nonlinear acousto-electric effects. The plasma turns into moving electron stripes, the acousto-electric current reaches its maximum, and the sound absorption strongly decreases. To describe the nonlinear phenomena, we develop a coupled-amplitude method for a two-dimensional system in the strongly nonlinear regime of interaction. At low electron densities the absorption coefficient decreases with increasing sound intensity, whereas at high electron density the absorption coefficient is not a monotonous function of the sound intensity. High-harmonic generation coefficients as a function of the sound intensity have a nontrivial behavior. Theory and experiment are found to be in a good agreement.Comment: 27 pages, 6 figure