Abstract
In this chapter, we review some of the theoretical work on the magnetoplasmon dispersion. The effect of electron correlations on this mode has been studied in detail by Kallin and Halperin [5.1,2], for the case of completely filled Landau levels. There has been a considerable amount of experimental work done on the cyclotron resonance in two-dimensional electron systems. The effect of electron correlations on the magnetoplasmon modes might be useful in understanding the anomalous structure in the cyclotron resonance Une shape observed in Si-MOSFET’s and in GaAs-heterostructures [5.3–7]. For example, experimental observation of cyclotron resonance linewidth broadening and splitting at certain electron densities [5.6] has been attributed to coupling between the cyclotron mode and finite-wavelength magnetoplasmons. A full review of the experimental and theoretical work on this topic will take us beyond the scope of our present review however.1 KeywordsLandau LevelRandom Phase ApproximationLower Landau LevelSingle Mode ApproximationSpin Wave SpectrumThese keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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