Quantum heterostructure
From Wikipedia, the free encyclopedia
Quantum heterostructure is a heterostructure in a substrate (usually a semiconductor material), where size restricts the movements of the charge carriers forcing them into a quantum confinement. This leads to the formation of a set of discrete energy levels at which the carriers can exist. Quantum heterostructures have sharper density of states than structures of more conventional sizes.
Quantum heterostructures are important for fabrication of short-wavelength light-emitting diodes and diode lasers, and for other optoelectronic applications, e.g. high-efficiency photovoltaic cells.
Examples of quantum heterostructures confining the carriers in quasi-two, -one and -zero dimensions are:
References
- ↑ G Bastard, JA Brum, R Ferreira (1991). "Figure 10 in Electronic States in Semiconductor Heterostructures". In Henry Ehrenreich, David Turnbull, eds. Solid state physics: Semiconductor Heterostructures and Nanostructures. p. 259. ISBN 0126077444.
See also
This article is issued from Wikipedia. The text is available under the Creative Commons Attribution/Share Alike; additional terms may apply for the media files.