Deep-Level Transient Spectroscopy Studies of Gallium Arsenide - Aluminum Gallium Arsenide Heterostructures and Superlattices.

Abstract

This report presents the results of two projects. First, the feasibility of using deep-level transient spectroscopy (DLTS) to measure conduction band-edge discontinuities in GaAS-AlGaAs quantum-well heterostructures is evaluated theoretically and experimentally. Second, defects in GaAs - AlGaAs superlattices are examined using DLTS. Deep-level transient spectroscopy is reviewed, as are theoretical and experimental attempts to predict and measure band offsets. A theory of electron capture into and emission out of quantum wells in response to pulsed bias is developed. DLTS studies of GaAs AlGaAs quantum-well structures are presented and compared with the results of previous studies of defects in MOCVD GaAs and AlGaAs. Emission of electrons out of the GaAs quantum well is observed, but at emission rates in excess of those predicted by thermionic emission or by phonon assisted tunneling. In the absence of a model for the emission process, meaningful data for band-edge discontinuities cannot be extracted from the measured emission rates. Further characterization of the emission process would be of great value in the development of devices based on heterojunction technology. Data are also presented from a DLTS study of defect states in GaAs - AlGaAs superlattices Doubling the layer thickness from 50 to 100 A resulted in a dramatic change in the defects observed. This is accounted for by the presence of a conducting miniband in one super-lattice and its absence in the other.

Document Details

Document Type

Technical Report

Publication Date

May 01, 1986

Accession Number

ADA168328

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