Dynamics of Quantum Dots in Micropillar Cavities: a Quantitative Comparison Between Experiment and Theory for a Solid-state Cavity Quantum Electrodynamics System - Kristian Høeg Madsen - Books - LAP LAMBERT Academic Publishing - 9783845421728 - September 12, 2011
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Dynamics of Quantum Dots in Micropillar Cavities: a Quantitative Comparison Between Experiment and Theory for a Solid-state Cavity Quantum Electrodynamics System

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In this thesis the interaction between a single quantum dot and a cavity is investigated. Quantum dots embedded in a micropillar cavity are investigated by measuring the spectra, and by performing time-resolved measurements. The enhancement of the spontaneous decay of the quantum dot is measured to 18.9 with a resonant lifetime of 28.1 ps under the assumption of an exponential decay. A model is constructed with measurable parameters, and the calculated decay curves are not exponential. As a result the mean decay rate, which coincides with the exponential rate for an exponential decay, is calculated for the measured rates. A large deviation is seen, with an enhancement of the mean decay rate of 9.1 with a resonant lifetime of 56.5 ps. The non-exponential decay of the quantum dot is caused by non- Markovian processes in the dot-cavity interaction. Furthermore, the second order coherence is measured to determine the quality of the single-photon emission, and two-photon interference measurements are likewise performed. These measurements show an indistinguishability of 48%. Finally, cavity-assisted resonant excitation of a quantum dot with another quantum dot is demonstrated.

Media Books     Paperback Book   (Book with soft cover and glued back)
Released September 12, 2011
ISBN13 9783845421728
Publishers LAP LAMBERT Academic Publishing
Pages 92
Dimensions 150 × 6 × 226 mm   ·   155 g
Language German