Parametric resonance of a two-dimensional electron gas under bichromatic irradiation

Christian Joas*, M. E. Raikh, Felix Von Oppen

*Corresponding author for this work
23 Citations (Scopus)

Abstract

In an ultrahigh mobility 2D electron gas, even a weak nonparabolicity of the electron dispersion, by violating Kohn's theorem, can have a drastic effect on dc magnetotransport under ac drive. In this paper, we study theoretically the manifestation of this effect in the dc response to the combined action of two driving ac fields (bichromatic irradiation). Compared to the case of monochromatic irradiation, which is currently intensively studied both experimentally and theoretically, the presence of a second microwave source provides additional insight into the properties of an ac-driven 2D electron gas in weak magnetic field. In particular, we find that nonparabolicity, being the simplest cause for a violation of Kohn's theorem, gives rise to new qualitative effects specific to bichromatic irradiation. Namely, when the frequencies ω1 and ω2 are well away from the cyclotron frequency, ωc, our simple classical considerations demonstrate that the system becomes unstable with respect to fluctuations with frequency 1/2(ω1 + ω2). The most favorable condition for this parametric instability is 1/2(ω1 + ω2) ≃ωc. The saturation level of this instability is also determined by the nonparabolicity. We also demonstrate that, as an additional effect of nonparabolicity, this parametric instability can manifest itself in the dc properties of the system. This happens when ω1, ω2, and ωc are related as 3:1:2, respectively. Even for weak detuning between ω1 and ω2, the effect of the bichromatic irradiation on the dc response in the presence of nonparabolicity can differ dramatically from the monochromatic case. In particular, we demonstrate that, beyond a critical intensity of the two fields, the equations of motion acquire multistable solutions. As a result, the diagonal dc conductivity can assume several stable negative values at the same magnetic field.

Original languageEnglish
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume70
Issue number23
Pages (from-to)1-9
Number of pages9
ISSN1098-0121
DOIs
Publication statusPublished - 1 Dec 2004

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