Abstract
We consider optical absorption by an interacting two-dimensional electron system, with impurities, in a strong perpendicular magnetic field, at electron densities such that an integral number of Landau levels is filled. The Coulomb energy ${e}^{2}$/\ensuremath{\epsilon}${l}_{0}$ is assumed to be smaller than the cyclotron energy \ensuremath{\Elzxh}${\ensuremath{\omega}}_{c}$, and correlation effects are treated exactly to lowest order in (${e}^{2}$/\ensuremath{\epsilon}${l}_{0}$)/\ensuremath{\Elzxh}${\ensuremath{\omega}}_{c}$. The impurity scattering is treated in a self-consistent approximation for several different impurity potentials. The cyclotron resonance line is found to be significantly altered by electron-electron interactions. The line is shifted to lower frequencies and a line narrowing due to correlation effects is found.
Published Version
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