Collective Excitations in Asymmetric Parabolic Quantum Wells
Abstract
We study within the linear response theory the far-infrared optical absorption spectrum and the collective excitations of an asymmetric, wide parabolic AlxGa1-xAs quantum well, consisting of two half-parabolas of different curvatures, in the presence of an in-plane magnetic field. We employ a self-consistent-field approach in the local-density approximation using parameter values of a recent experimental study. At low Ns, there is only one resonance corresponding to the lowest inter-Landau-level transition, and at high Ns we obtain two resonances at frequencies corresponding to the different curvatures of the well, in good agreement with experiment. We also calculate the optical spectra without any magnetic field and find similar trends as a function of Ns, i.e., one resonance at low Ns and two main resonances at high Ns.
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