Quantum unconfined Stark effect in a GaAs single quantum well: An optical-constant model

15 February 1993

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 47 (8) , 4783-4785
https://doi.org/10.1103/physrevb.47.4783

Abstract

A theoretical model for high-field electroabsorption in a single GaAs quantum well (QW) is presented. Electron and hole properties are modeled with a transfer-matrix technique which includes the nonparabolicity of the energy bands. This model adequately reproduces the coupling between quasibound and continuum states resulting from the influence of a large transverse electric (TE) field on a QW with a finite barrier height. The absorption coefficient has been calculated by the program o p c o n s for the TE mode in the QW structure for electric fields ranging from 100 to 500 kV/cm. Our calculations predict an absorption coefficient in reasonable agreement with the experimental data, and with a simpler model based on the one-electron overlap integral picture.

Keywords

This publication has 8 references indexed in Scilit:

Electroabsorption properties of a single GaAs quantum well
Physical Review B, 1991
Modeling of modulation-doped multiple-quantum-well structures in applied electric fields using the transfer-matrix technique
IEEE Journal of Quantum Electronics, 1991
Electronic structure and optical properties of strained GaSb/AlSb quantum wells under uniaxial stress
Physical Review B, 1989
Electroabsorption in single quantum well GaAs laser structures
Applied Physics Letters, 1989
Comment on Polarization Dependent Momentum Matrix Elements in Quantum Well Lasers
Japanese Journal of Applied Physics, 1984
Effect of an electric field on the luminescence of GaAs quantum wells
Physical Review B, 1982
Theory of electroabsorption by anisotropic and layered semiconductors. I. Two-dimensional excitons in a uniform electric field
Physical Review B, 1976
Band structure of indium antimonide
Journal of Physics and Chemistry of Solids, 1957