Inelastic interaction of ultrashort pulses of polarized light with an ensemble of isolated quantum dots |
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Authors: | S O Elyutin E V Kazantseva A I Maimistov |
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Institution: | (1) Moscow Engineering Physics Institute, Moscow, 115409, Russia |
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Abstract: | A system of equations is formulated describing the evolution of a slowly varying envelope of an arbitrarily polarized ultrashort pulse of electromagnetic radiation in a medium with its resonant properties determined by an ensemble of isolated quantum dots. It is assumed that the concentration of quantum dots is small and that the whole system is equivalent to a gas of resonant four-level atoms. Particular solutions are found that correspond to the propagation of a stationary optical pulse. It is shown by numerical solution of the generalized truncated Maxwell-Bloch equations that steady-state propagation is possible only for circularly polarized light pulses, whereas the pulses of arbitrary polarization either decay and experience the dispersion-related broadening or are converted into circularly polarized solitary waves. |
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