Title :
A semiempirical line shape model of GaAs MQW structures
Author :
Kaushik, Sumanth ; Hagelstein, Peter L.
Author_Institution :
Res. Lab. of Electron., MIT, Cambridge, MA, USA
fDate :
11/1/1994 12:00:00 AM
Abstract :
We have developed a semiempirical model to describe the line shape in the vicinity of the exciton absorption lines in GaAs multiple quantum well (MQW) structures. This model is based on a conventional line-broadening analysis similar in spirit to that used in atomic and plasma physics. The absorption spectrum is determined through the line positions, oscillator strengths, homogeneous and inhomogeneous broadening, and continuum shifts. Values for these parameters are derived from a combination of theoretical models, some existing in the literature and other developed by the authors, and experimental data where theory is lacking. Our results are in good agreement with the absorption measurements and the nonlinear coefficients available in the literature. This model shows improvements in the nonlinearity at low temperature and small inhomogeneous linewidth, which is as expected
Keywords :
excitons; gallium arsenide; oscillator strengths; semiconductor device models; semiconductor quantum wells; spectral line breadth; spectral line shift; GaAs MQW structures; GaAs multiple quantum well structures; absorption measurements; absorption spectrum; continuum shifts; exciton absorption lines; homogeneous broadening; inhomogeneous broadening; line positions; line shape; line-broadening analysis; low temperature; nonlinear coefficients; optical switching; scintillator strengths; semiempirical line shape model; small inhomogeneous linewidth; Charge carrier density; Electromagnetic wave absorption; Excitons; Gallium arsenide; Nonlinear optical devices; Nonlinear optics; Optical design; Plasma temperature; Quantum well devices; Shape;
Journal_Title :
Quantum Electronics, IEEE Journal of
