Growth, stress, and defects of heteroepitaxial diamond on Ir/YSZ/Si(111)

Basic understanding of the fundamental processes in crystal growth as well as the structural quality of diamond synthesized by chemical vapour deposition on iridium surfaces has reached a high level for samples with (001) orientation. Diamond deposition on the alternative (111) surface is generally more challenging but of appreciable technological interest, too. In the present work, heteroepitaxy of diamond on Ir/YSZ/Si(111) with different off-axis angles and directions has been studied. During the growth of the first microns, strong and complex intrinsic stress states were rapidly formed. They restricted the range of suitable temperatures in this study to values between 830 degrees C and 970 degrees C. At low-stress conditions, the maximum growth rates were about 1 mu m/h. They facilitated long-time processes which yielded pronounced structural improvements with minimum values of 0.08 degrees for the azimuthal mosaic spread, 4 x 10(7) cm(-2) for the dislocation density and 1.8 cm(-1) for the Raman line width. This refinement is even faster than on (001) growth surfaces. It indicates substantial differences between the two crystal directions in terms of merging of mosaic blocks and annihilation of dislocations. Crystals with a thickness of up to 330 mu m have been grown. The correlation of photoluminescence and mu-Raman tomograms with topography data also revealed fundamental differences in the off-axis growth between (001) and (111) orientation. Finally, the analysis of the microscopic structures at the growth surface provided the base for a model that can conclusively explain the intriguing reversal of stress tensor anisotropy caused by a simple inversion in sign of the off-axis angle. Published by AIP Publishing.