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JOURNAL ARTICLE

ZnSe-Based Laser Diodes and LEDs Grown on ZnSe and GaAs Substrates

Kazuhiro OhkawaMartin BehringerH. WenischM. FehrerB. JobstD. HommelM. KuttlerMartin StraßburgD. BimbergG. BacherD. T�nniesA. Forchel

Year: 1997 Journal:   physica status solidi (b) Vol: 202 (2)Pages: 683-693   Publisher: Wiley
DOI: 10.1002/1521-3951(199708)202:2<683::aid-pssb683>3.0.co;2-8
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Abstract

CdZnSSe quaternary and CdZnSe ternary quantum wells have been compared concerning their thermal stability. The Cd diffusion started from the II–VI/III–V interface side, and was suppressed by introducing S in the quantum well region. It was found that these CdZnSSe wells have advantages for application in laser diodes compared to the commonly used CdZnSe wells. A laser diode with a CdZnSSe quantum well has operated with low threshold current density at room temperature under pulsed operation. Since homoepitaxy on ZnSe substrates can avoid the interface problem caused by the heterovalency between ZnSe and GaAs, light-emitting diode structures were grown on a conducting ZnSe:I substrate. Electroluminescence from the structures showed two peaks, a band-edge emission and a broad deep-level emission. It was found that the deep-level emission was internal photoluminescence from the ZnSe substrates excited by the band-edge emission.

Keywords:
Electroluminescence Optoelectronics Materials science Quantum well Diode Photoluminescence Light-emitting diode Laser Substrate (aquarium) Molecular beam epitaxy Optics Epitaxy Layer (electronics) Nanotechnology Physics

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2.13
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0.87
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Citation History

Topics

Semiconductor Quantum Structures and Devices
Physical Sciences →  Physics and Astronomy →  Atomic and Molecular Physics, and Optics
Advanced Semiconductor Detectors and Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Chalcogenide Semiconductor Thin Films
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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