Electron-Hole Correlation in Quantum Dots under a High Magnetic Field (up to 45 T)
- 6 December 1999
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 83 (23) , 4832-4835
- https://doi.org/10.1103/physrevlett.83.4832
Abstract
The influence of the direct and exchange Coulomb interaction on Landau level formation in strain induced quantum dots has been studied by high-field (45 T) magnetoluminescence and by many-electron many-hole Hartree-Fock calculations. The Darwin Fock states of the dots are found to merge into a unique Landau level at very high fields with a considerable reduction in the total diamagnetic shift due to the enhanced electron-hole correlation caused by the increased degeneracy of the state. We calculate a 50% reduction of the diamagnetic shift as a result of direct and exchange Coulomb interaction in the squeezed carrier states, in excellent agreement with the experimental findings.Keywords
This publication has 9 references indexed in Scilit:
- Magneto-optical properties of strain-inducedparabolic quantum dotsPhysical Review B, 1998
- Artificial Atoms in Magnetic Field: Electronic and Optical PropertiesInternational Journal of Modern Physics B, 1998
- Magnetoluminescence from strain-induced quantum dotsPhysical Review B, 1997
- Shell Filling and Spin Effects in a Few Electron Quantum DotPhysical Review Letters, 1996
- Zeeman Effect in Parabolic Quantum DotsPhysical Review Letters, 1996
- Fabrication and photoluminescence of quantum dots induced by strain of self-organized stressorsSolid-State Electronics, 1996
- N-electron ground state energies of a quantum dot in magnetic fieldPhysical Review Letters, 1993
- The Diamagnetism of the Free ElectronMathematical Proceedings of the Cambridge Philosophical Society, 1931
- Bemerkung zur Quantelung des harmonischen Oszillators im MagnetfeldThe European Physical Journal A, 1928