Cross-sectional TEM analysis of laser-induced ripple structures on the 4H-SiC single-crystal surface

T. Okada; H. Kawahara; Y. Ishida; R. Kumai; T. Tomita; S. Matsuo; S. Hashimoto; M. Kawamoto; Y. Makita; M. Yamaguchi

doi:10.1007/s00339-008-4611-2

Cross-sectional TEM analysis of laser-induced ripple structures on the 4H-SiC single-crystal surface

T. Okada, H. Kawahara, Y. Ishida, R. Kumai, T. Tomita, S. Matsuo, S. Hashimoto, M. Kawamoto, Y. Makita, M. Yamaguchi

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

The microstructures of femtosecond laser-induced ripples formed on a 4H-SiC single-crystal surface were studied by cross-sectional transmission electron microscopy (TEM), with particular attention on the crystal structure underlying fine and coarse ripples differing in period and morphology. Conventional and high-resolution TEM analyses showed that a continuous amorphous layer approximately 10 to 50 nm thick covers the topmost region of both fine and coarse ripples. These results strongly suggest that the fundamental surface deformation process is common for the entire region of fine and coarse ripples, even though the factors that determine their periods are different.

Original language	English
Pages (from-to)	665-668
Number of pages	4
Journal	Applied Physics A: Materials Science and Processing
Volume	92
Issue number	3
DOIs	https://doi.org/10.1007/s00339-008-4611-2
Publication status	Published - 2008 Aug
Externally published	Yes

ASJC Scopus subject areas

Chemistry(all)
Materials Science(all)

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10.1007/s00339-008-4611-2

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title = "Cross-sectional TEM analysis of laser-induced ripple structures on the 4H-SiC single-crystal surface",

abstract = "The microstructures of femtosecond laser-induced ripples formed on a 4H-SiC single-crystal surface were studied by cross-sectional transmission electron microscopy (TEM), with particular attention on the crystal structure underlying fine and coarse ripples differing in period and morphology. Conventional and high-resolution TEM analyses showed that a continuous amorphous layer approximately 10 to 50 nm thick covers the topmost region of both fine and coarse ripples. These results strongly suggest that the fundamental surface deformation process is common for the entire region of fine and coarse ripples, even though the factors that determine their periods are different.",

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T1 - Cross-sectional TEM analysis of laser-induced ripple structures on the 4H-SiC single-crystal surface

AU - Okada, T.

AU - Kawahara, H.

AU - Ishida, Y.

AU - Kumai, R.

AU - Tomita, T.

AU - Matsuo, S.

AU - Hashimoto, S.

AU - Kawamoto, M.

AU - Makita, Y.

AU - Yamaguchi, M.

PY - 2008/8

Y1 - 2008/8

N2 - The microstructures of femtosecond laser-induced ripples formed on a 4H-SiC single-crystal surface were studied by cross-sectional transmission electron microscopy (TEM), with particular attention on the crystal structure underlying fine and coarse ripples differing in period and morphology. Conventional and high-resolution TEM analyses showed that a continuous amorphous layer approximately 10 to 50 nm thick covers the topmost region of both fine and coarse ripples. These results strongly suggest that the fundamental surface deformation process is common for the entire region of fine and coarse ripples, even though the factors that determine their periods are different.

AB - The microstructures of femtosecond laser-induced ripples formed on a 4H-SiC single-crystal surface were studied by cross-sectional transmission electron microscopy (TEM), with particular attention on the crystal structure underlying fine and coarse ripples differing in period and morphology. Conventional and high-resolution TEM analyses showed that a continuous amorphous layer approximately 10 to 50 nm thick covers the topmost region of both fine and coarse ripples. These results strongly suggest that the fundamental surface deformation process is common for the entire region of fine and coarse ripples, even though the factors that determine their periods are different.

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Cross-sectional TEM analysis of laser-induced ripple structures on the 4H-SiC single-crystal surface

Abstract

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