Abstract
Electron-capture times due to the electron-electron (), electron-hole (), and electron-polar optical phonon (-pop) interactions are calculated in the GaAs quantum well (QW) with electron and hole densities . The calculated capture times oscillate as a function of the QW width with the same period but with different amplitudes. The capture time is two to four orders larger and the capture time one to three orders larger than the -pop capture time. The exceptions are the QW widths near resonance minima, where the capture time is only 2-3 times larger and the capture time 10-100 times larger. A different physical origin of the oscillatory behavior is demonstrated for the and -pop capture times. Effects of exchange and degeneracy on the capture are analyzed. The exchange effect increases the capture time approximately two times while the degeneracy does not change the capture time except for the QW depths and widths near the resonance.
- Received 3 June 1996
DOI:https://doi.org/10.1103/PhysRevB.54.17730
©1996 American Physical Society