Abstract
Regrowth experiments on polished and optically transparent, thick free standing diamond were used to reveal the crystallographic relationships between various grains at the growth surface and show how the microstructure evolves locally. The results show that diamond growth occurs most rapidly on the defect free (110) surface and also suggest that flaw incorporation may occur or be aggravated by twinning during growth. This would imply that varying deposition conditions and methods are not likely, by themselves, to result in much improvement as textured growth with twinning during the growth process are features common to most diamond growth methods. Direct evidence is shown that the dominant growth axis by hot filament assisted CVD is along a <110> direction and that this is not dependent on the presence of defects. This implies that <110>, or near <110>, oriented grains tend to expand laterally (in the plane of the layer) with 2-fold rather than 4-fold symmetry.
© 1995 Optical Society of America
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