Theory of photoluminescence in quantum wells in the presence of transverse electric field: Monte Carlo approach

15 April 1986

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 59 (8) , 2953-2957
https://doi.org/10.1063/1.336933

Abstract

The Monte Carlo approach is used to study the quasibound electron and hole ground-state levels in a quantum well in the presence of a transverse electric field. A criteria is developed to ensure that the ground state is a true quasibound state. These techniques are applied to an Al0.3Ga0.7As/GaAs quantum well subjected to a high electric field perpendicular to the interfaces. Results on the electron and hole tunneling rates and their dependence on band-edge discontinuities are presented. The variation of the ground-state emission energy with the electric field is also presented.

This publication has 10 references indexed in Scilit:

Electric field dependence of optical absorption near the band gap of quantum-well structures
Physical Review B, 1985
Ground state of positively charged acceptors by the green's function Monte Carlo method
Solid State Communications, 1985
Energy-gap discontinuities and effective masses for $G a A s - {Al}_{x} {Ga}_{1 - x} As$ quantum wells
Physical Review B, 1984
High-speed optical modulation with GaAs/GaAlAs quantum wells in a p-i-n diode structure
Applied Physics Letters, 1984
Variational calculations on a quantum well in an electric field
Physical Review B, 1983
Growth of III–V semiconductors by molecular beam epitaxy and their properties
Thin Solid Films, 1983
Effect of an electric field on the luminescence of GaAs quantum wells
Physical Review B, 1982
Analytical theory of crystal growth
The Journal of Chemical Physics, 1976
Surface stoichiometry and structure of GaAs
Surface Science, 1974
Monte Carlo determination of electron transport properties in gallium arsenide
Journal of Physics and Chemistry of Solids, 1970