Research team
Optical properties and energy relaxation of self-assembled quantum dots and coupled quantum dots.
Abstract
Theoretical study of the optical properties of self-assembled quantum dots and vertically coupled quantum dots. The exciton energy, the diamagnetic shift and the recombination transition matrix element of those systems will be calculated as well as those of multi-exciton complexes. In a second stage the energy relaxation of these devices will be studied. The theoretical results will be compared with the PL-measurements in high magnetic fields which are done at the Laboratory of Solid State and Magnetism of KULeuven.Researcher(s)
- Promoter: Peeters Francois
- Fellow: Janssens Karen
Research team(s)
Project type(s)
- Research Project
Optical properties and energy relaxation of self-assembled quantum dots and coupled quantum dots.
Abstract
Theoretical study of the optical properties of self-assembled quantum dots and vertically coupled quantum dots. The exciton energy, the diamagnetic shift and the recombination transition matrix element of those systems will be calculated as well as those of multi-exciton complexes. In a second stage the energy relaxation of these devices will be studied. The theoretical results will be compared with the PL-measurements in high magnetic fields which are done at the Laboratory of Solid State and Magnetism of KULeuven.Researcher(s)
- Promoter: Peeters Francois
- Fellow: Janssens Karen
Research team(s)
Project type(s)
- Research Project