Affiliation:
1. Mississippi State University
2. Office of Naval Research
Abstract
The advantages of the CH3Cl carbon precursor were investigated in order to achieve
good-quality homoepitaxial layers of the 4H-SiC polytype at temperatures lower than what was
considered practical (or even possible) with C3H8-based growth. It was observed that the process
window for good epilayer morphology becomes narrower when the growth temperature is
decreased. Successful growth experiments have been conducted in this work down to a temperature
of 1290-13000C, with the growth rate in excess of 2 +m/hr and a mirror-like defect-free epilayer
surface morphology. Growth on a 2” substrate produced promising growth rate homogeneity. The
dependence of the growth rate on SiH4 flow followed a clear exponential dependence. This trend is
tentatively attributed to Si vapor condensation. Photoluminescence results suggest that the
crystalline quality of the epilayers grown at 13000C is comparable to that of 17000C growth.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Cited by
7 articles.
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