Rapid carrier relaxation in quantum dots characterized by differential transmission spectroscopy
- 15 April 1998
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 57 (16) , R9423-R9426
- https://doi.org/10.1103/physrevb.57.r9423
Abstract
Carrier relaxation in self-organized quantum dots is investigated by time-resolved differential transmission measurements. The dots have a base dimension of around 14 nm and a height of 7 nm, leading to an average energy separation of the ground and first excited electronic states much greater than the LO-phonon energy, so the phonon-mediated electron relaxation is expected to be slow. Our measurements indicate that, even at low carrier densities (less than one electron-hole pair per dot), the electron and hole relaxation time constants are 5.2 and 0.6 ps, respectively; this indicates a lack of any “phonon bottleneck” and is consistent with a model of electrons scattering from holes which can relax rapidly via phonon emission.
Keywords
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