Electron-phonon dynamics in optically excited quantum dots : Exact solution for multiple ultrashort laser pulses

Titelangaben

Vagov, Alexei ; Axt, Vollrath Martin ; Kuhn, Tilmann:
Electron-phonon dynamics in optically excited quantum dots : Exact solution for multiple ultrashort laser pulses.
In: Physical Review B. Bd. 66 (2002) Heft 16 . - 165312.
ISSN 0163-1829
DOI: https://doi.org/10.1103/PhysRevB.66.165312

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Abstract

A model of semiconductor quantum dots coupled to phonons and laser light, which is relevant in the limit of strong electronic confinement, is investigated. For an arbitrary sequence of excitations by ultrafast pulses, analytical solutions are obtained for all pertinent density-matrix elements. The results are nonperturbative with respect to the coupling to both phonons and laser light. The derivation depends neither on a particular choice of electronic wave functions nor on a particular wave-vector dependence of the phonon interaction or phonon dispersion. All components of the density matrix exhibit oscillatory dependences on the pulse areas of the exciting pulses analogously to the Rabi oscillations known from simple two-level systems. Three typical applications of the general results are worked out: (a) the influence of phonons on four-wave-mixing spectra, (b) the coherent control of electronic dot occupations in the presence of phonons, and (c) the dynamics of phonon correlations including the formation of a stable polaron spatially localized in the dot and the emission of a pulsed phonon wave packet that leaves the dot.