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- Title
Optical nutation in the exciton range of spectrum.
- Authors
Khadzhi, P. I.; Vasiliev, V. V.
- Abstract
Optical nutation in the exciton range of spectrum is studied in the mean field approximation taking into account exciton-photon and elastic exciton-exciton interactions. It is shown that the features of nutation development are determined by the initial exciton and photon densities, the resonance detuning, the nonlinearity parameter, and the initial phase difference. For nonzero initial exciton and photon concentrations, three regimes of temporal evolution of excitons and photons exist: periodic conversion of excitons to photons and vice versa, aperiodic conversion of photons to excitons, and the rest regime. In the rest regime, the initial exciton and photon densities are nonzero and do not change with time. The oscillation amplitudes and periods of particle densities determined by the system parameters are found. The exciton self-trapping and photon trapping appearing in the system at threshold values of the nonlinearity parameter were predicted. As this parameter increases, the oscillation amplitudes of the exciton and photon densities sharply change at the critical value of the nonlinearity parameter. These two phenomena are shown to be caused by the elastic exciton-exciton interaction, resulting in the dynamic concentration shift of the exciton level.
- Subjects
OPTICAL nutation; NUCLEAR exciton model; MEAN field theory; APPROXIMATION theory; EXCITON-phonon interactions; ELASTICITY
- Publication
Journal of Experimental & Theoretical Physics, 2013, Vol 117, Issue 2, p232
- ISSN
1063-7761
- Publication type
Article
- DOI
10.1134/S1063776113100130