Low Temperature Materials

Abstract

InxGal-xAs (x=025-0.35) grown at low temperature on GaAs by molecular beam epitaxy is characterized by Hall effect, transmission electron microscopy, and ultrafastoptical testing. As with low temperature (LT) GaAs, the resistivity is generally higher after a brief anneal at 600 deg C. High-resolution transmission electron micrography shows all the as-grown epilayers grown directly on GaAs to be heavily dislocated due to the large lattice mismatch (2- 3%). Annealed layers also show precipitate formation, in addition to the dislocations. Like LT GaAs, In(x)Ga(1-x)As lifetimes shorten as growth temperatures are reduced; and LT In(x)Ga(l-x)As lifetimes are generally shorter in as-grown samples than in annealed samples. The metal-semiconductor-metal photodetectors we fabricated on the material exhibit response times of 1-3 picoseconds, comparable to results reported on GaAs grown at low temperature, and the fastest ever reported in the wavelength range of 1.0-1.3 microns. To improve the crystalline quality and to distinguish detector speed and responsivity limitations due to dislocations versus defects induced by LT growth, we have grown 3microns-thick graded layers of In(x)Al(l-x)As between the GaAs substrates and In(0.35)Ga(0.65)As films. The In(x)Al(l-x)As layers are heavily dislocated, with the dislocation density increasing with distance from the GaAs substrate, and abruptly terminating at or below the In(0.35)Ga(0.65)As layer. Epitaxy, AlGaAs-InGaAs-GaAs, Pseudomorphic heterostructures, Strained layer supperlattices, Dislocations, Photoluminescence, Hall effect, Electron diffraction, Photoreflectance.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 1994

Accession Number

ADA278703

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