SiC Warm-Wall Planetary VPE Growth on Multiple 100-mm Diameter Wafers

SiC Warm-Wall Planetary VPE Growth on Multiple 100-mm Diameter Wafers

Experimental results are presented for SiC epitaxial layer growth employing a large-area, up to 8x100-mm, warm-wall planetary SiC-VPE reactor. This high-throughput reactor has been optimized for the growth of uniform 0.01 to 80-micron thick, specular, device-quality SiC epitaxial layers with low bac...

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Veröffentlicht in:Materials science forum 2006-10, Vol.527-529, p.159-162
Hauptverfasser: Burk, Albert A., Paisley, Michael J., Leonard, R.T., O'Loughlin, Michael J., Powell, Adrian R., McClure, D.A., Brady, M.F.
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Sprache:eng
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Zusammenfassung:Experimental results are presented for SiC epitaxial layer growth employing a large-area, up to 8x100-mm, warm-wall planetary SiC-VPE reactor. This high-throughput reactor has been optimized for the growth of uniform 0.01 to 80-micron thick, specular, device-quality SiC epitaxial layers with low background doping concentrations of 1x1019 cm-3. Intrawafer layer thickness and n-type doping uniformity (σ/mean) of ~2% and ~8% have been achieved to date in the 8x100-mm configuration. The total range of the average intrawafer thickness and doping within a run are approximately ±1% and ±6% respectively.
ISSN:0255-5476
1662-9752
1662-9752
DOI:10.4028/www.scientific.net/MSF.527-529.159