Reactions in OMVPE Growth of InP

Abstract

Organometallic vapor phase epitaxy (OMVPE) has achieved remarkable recent success, becoming the most promising technique for the ultimate production of III/V materials and device structures. Unfortunately, our understanding of the growth process remains primitive. In this paper we report a new technique for tracing the reactions by conducting the epitaxial growth in a D₂ ambient using a time-of-flight mass spectrometer to analyze the product molecules. The pyrolysis reactions were studied for PH₃, both alone and in the presence of trimethylindium (TMIn), and for TMIn alone and in the presence of PH₃. For the reactants alone, the PH₃ pyrolysis is completely heterogeneous at the InP surface, while TMIn pyrolyzes homogeneously in the gas phase. For TMIn and PH₃ together, the reaction mechanism is entirely different; the pyrolysis temperatures for both PH₃ and TMIn are lowered. Since the reaction produces only CH₄ molecules, with a complete absence of CH3D at high ratios of PH₃ to TMIn, we hypothesize that InP growth is initiated by the direct interaction of TMIn and PH₃ molecules, either in the vapor phase at normal growth temperatures or at the InP surface at temperatures as low as 250°C.