Novel principle of confinement in quantum-well structures

9 April 1992

journal article
Published by Institution of Engineering and Technology (IET) in Electronics Letters

Vol. 28 (8) , 786-788
https://doi.org/10.1049/el:19920496

Abstract

Low threshold current and high differential gain have been reported for tensile-strained quantum well lasers. However, theoretical and experimental considerations predict that the QW heterojunction, Ga_xIn_1-xAs/Ga_0.2In_0.8As_0.43P_0.57 (x ≥ 0.63) in these devices should be type II in nature. Although no electron confinement is expected, our calculations demonstrate an injection-induced electrostatic confinement of electrons. Laser operations under IIECE is expected. Such lasers are presumed to have properties very different from those of conventional QW lasers yielding new possibilities for semiconductors laser devices.

Keywords

QW HETEROJUNCTION
INJECTION-INDUCED ELECTROSTATIC CONFINEMENT
CONFINEMENT
TENSILE-STRAINED QUANTUM WELL LASERS
DIFFERENTIAL GAIN
GAXIN1-XAS-GA0.2IN0.8AS0.43P0.57
THRESHOLD CURRENT
IIECE
SEMICONDUCTOR LASER DEVICES
QUANTUM-WELL STRUCTURES

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