Coherent optoelectronic control of single excitons / Steffen J. Michaelis de Vasconcellos. 2009
Inhalt
- Introduction
- Fundamental Remarks on Quantum Dots
- Introduction into Quantum Information
- Experimental Setup and Techniques
- Low Temperature Microscope
- Photoluminescence Spectroscopy
- Photocurrent Spectroscopy
- Photon Correlation Measurement
- Coherent Electric Control Experiments
- Samples
- Voltage Dependent Photoluminescence of CdSe Quantum Dots
- Ensemble Photoluminescence
- Spectral Jitter
- Single QD Photoluminescence
- Photon Correlation Measurements
- Towards Photocurrent Measurements
- The QD Exciton Two-Level System
- Basic Theory of Two-Level Systems
- Representation of a Two-Level System
- Interaction with the Light Field
- Solving the Liouville-von Neumann Equation
- Phenomenological Dephasing due to Recombination
- Rabi Oscillations and Quantum Interference
- Exciton TLS with Electrical Access
- Summary – A Complete Set of Equations
- Quantum Optical Properties of a Single QD Exciton
- Optical Properties Under Continuous Excitation
- Rabi Oscillations and Excitation Dependent Damping
- Double-Pulse Experiments
- Coherent Optoelectronic Control
- Ramsey Interference: Static Phase Shift
- Coherent Electric Phase Manipulation
- Experiment
- Generalization of the Scheme
- Conclusion and Outlook
- Symbols and Abbreviations
- Bibliography
- List of Publications