Flattening of micro-structured Si surfaces by hydrogen annealing

We report atomic scale flattening of surfaces of microstructures formed on Si wafers by furnace annealing. To avoid thermal deformation of the fabricated structures, advantage was taken of hydrogen annealing, which enables us to decrease the relaxation rate of Si surfaces due to surface hydrogenatio...

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Veröffentlicht in:	Applied surface science 2006-05, Vol.252 (15), p.5279-5283
Hauptverfasser:	Hiruta, Reiko, Kuribayashi, Hitoshi, Shimizu, Ryosuke, Sudoh, Koichi, Iwasaki, Hiroshi
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Sprache:	eng
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creator	Hiruta, Reiko Kuribayashi, Hitoshi Shimizu, Ryosuke Sudoh, Koichi Iwasaki, Hiroshi
description	We report atomic scale flattening of surfaces of microstructures formed on Si wafers by furnace annealing. To avoid thermal deformation of the fabricated structures, advantage was taken of hydrogen annealing, which enables us to decrease the relaxation rate of Si surfaces due to surface hydrogenation. We examined cross-sectional shape and sidewall morphology of 3 mm deep trenches on Si(0 0 1) substrates after annealing at 1000 DGC under various H2 pressures of 40-760 Torr. We successfully formed Si trenches with flat surfaces composed of terraces and steps while preserving the designed trench profile by increasing H2 pressure to 760 Ton.
doi_str_mv	10.1016/i.apsusc.2005.12.051
format	Article
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title	Flattening of micro-structured Si surfaces by hydrogen annealing
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