Origin of the nonexponential thermal emission kinetics of D X centers in GaAlAs

15 September 1986

journal article
research article
Published by AIP Publishing in Applied Physics Letters

Vol. 49 (11) , 657-659
https://doi.org/10.1063/1.97559

Abstract

Direct evidence has been found, via hydrostatic pressure experiments, that the random distribution of Al and Ga atoms (alloy broadening) is the main cause of the nonexponential behavior of thermal emission processes from DX centers in Ga_1−xAl_xAs alloys (0.19≤x≤0.74). Isothermal single‐shot emission transients at constant capacitance were used to measure the nonexponential behavior. Experimental values of the degree of nonexponentiality at ambient pressure, as a function of the Al content, are in good agreement with an alloy broadening model. When hydrostatic pressure up to 11 kbar is applied, the nonexponential behavior does not change, confirming its independence from variations in the conduction‐band structure.

Keywords

This publication has 14 references indexed in Scilit:

Deep electron trapping center in Si-doped InGaAlP grown by molecular-beam epitaxy
Journal of Applied Physics, 1986
A Model for DX Centers: Bond Reconstruction due to Local Random Donor-Host Atom Configurations in Mixed Semiconductor Alloys
Japanese Journal of Applied Physics, 1985
Trapping characteristics of Te-related centers in GaAs1−xPx
Journal of Applied Physics, 1985
Study of non-exponential electron capture by the main electron trap in GaAs0.62P0.38
Solid State Communications, 1985
Comprehensive analysis of Si-doped ${Al}_{x} {Ga}_{1 - x} As$ ( $x = 0 to 1$ ): Theory and experiments
Physical Review B, 1984
On the collapse of drain I-V characteristics in modulation-doped FET's at cryogenic temperatures
IEEE Transactions on Electron Devices, 1984
Alloy Fluctuation in Mixed Compound Semiconductors as Studied by Deep Level Transient Spectroscopy
Japanese Journal of Applied Physics, 1984
Investigation of persistent photoconductivity in Si-dopedn-Al x Ga1?x as grown by molecular beam epitaxy
Applied Physics A, 1983
Trapping characteristics and a donor-complex ( $DX$ ) model for the persistent-photoconductivity trapping center in Te-doped ${Al}_{x} {Ga}_{1 - x} As$
Physical Review B, 1979
Large-Lattice-Relaxation Model for Persistent Photoconductivity in Compound Semiconductors
Physical Review Letters, 1977