A Growth Analysis for Metalorganic Vapor Phase Epitaxy of GaAs
- 1 May 1988
- journal article
- Published by IOP Publishing in Japanese Journal of Applied Physics
- Vol. 27 (5R)
- https://doi.org/10.1143/jjap.27.795
Abstract
Metalorganic vapor phase epitaxy (MOVPE) of GaAs is analyzed using a new growth model. Surface reactions for trimethylgallium or triethylgallium adsorbed on the substrate surfaces are assumed to be the growth-rate-limiting steps. A catalytic effect is taken into account by assuming different decomposition rates for adsorbed alkyls on Ga- and As-terminated surfaces. The surface reactions are expressed in terms of reaction times and analyzed using a rate equation approach. Parameters in a rate equation are determined by fitting to the experimental results obtained by various methods: conventional MOVPE with and without laser irradiation, pulsed MOVPE, and laser atomic layer epitaxy. Good agreement between experiments and calculations in all growth methods shows the usefulness of the model.Keywords
This publication has 10 references indexed in Scilit:
- Atomic-layer growth of GaAs by modulated-continuous-wave laser metal-organic vapor-phase epitaxyJournal of Vacuum Science & Technology B, 1987
- Stepwise monolayer growth of GaAs by switched laser metalorganic vapor phase epitaxyApplied Physics Letters, 1986
- Growth of GaAs by switched laser metalorganic vapor phase epitaxyApplied Physics Letters, 1986
- Metalorganic chemical vapor deposition of III-V semiconductorsJournal of Applied Physics, 1985
- Laser enhanced metalorganic chemical vapor deposition crystal growth in GaAsApplied Physics Letters, 1985
- Chemical beam epitaxy of InP and GaAsApplied Physics Letters, 1984
- Deposition of GaAs Epitaxial Layers by Organometallic CVD: Temperature and Orientation DependenceJournal of the Electrochemical Society, 1983
- MOVPE Growth of Ga1-xAlxAs–GaAs Quantum Well HeterostructuresJapanese Journal of Applied Physics, 1982
- Low temperature growth of MOCVD GaAs layers at atmospheric pressureJournal of Crystal Growth, 1982
- A study of the growth mechanism of epitaxial GaAs as grown by the technique of metal organic vapour phase epitaxyJournal of Crystal Growth, 1981