Raman spectroscopic stress evaluation of femtosecond-laser-modified region inside 4H-SIC

Minoru Yamamoto; Manato Deki; Tomonori Takahashi; Takuro Tomita; Tatsuya Okada; Shigeki Matsuo; Shuichi Hashimoto; Makoto Yamaguchi; Kei Nakagawa; Nobutomo Uehara; Masaru Kamano

doi:10.1143/APEX.3.016603

Raman spectroscopic stress evaluation of femtosecond-laser-modified region inside 4H-SIC

Minoru Yamamoto, Manato Deki, Tomonori Takahashi, Takuro Tomita, Tatsuya Okada, Shigeki Matsuo, Shuichi Hashimoto, Makoto Yamaguchi, Kei Nakagawa, Nobutomo Uehara, Masaru Kamano

研究成果: Article › 査読

11 被引用数 (Scopus)

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A femtosecond (fs)-laser-modified region inside single-crystal silicon carbide was studied by micro-Raman spectroscopy. Higher and lower peak energy shifts of the transverse optical (TO) phonon mode, which correspond to compressive and tensile stresses, were observed. Mappings of peak energies and spectral widths of the TO phonon mode showed a clear correspondence with the distributions of strained layers observed by transmission electron microscopy. The maximum compressive and tensile stresses were estimated to be 1.4 and 0.4 GPa, respectively. This result indicates that the periodic strained layers contain many nano-voids which are formed by nano-explosions induced by fs laser irradiation.

本文言語	English
論文番号	016603
ジャーナル	Applied Physics Express
巻	3
号	1
DOI	https://doi.org/10.1143/APEX.3.016603
出版ステータス	Published - 2010 1月
外部発表	はい

ASJC Scopus subject areas

工学（全般）
物理学および天文学（全般）

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10.1143/APEX.3.016603

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title = "Raman spectroscopic stress evaluation of femtosecond-laser-modified region inside 4H-SIC",

abstract = "A femtosecond (fs)-laser-modified region inside single-crystal silicon carbide was studied by micro-Raman spectroscopy. Higher and lower peak energy shifts of the transverse optical (TO) phonon mode, which correspond to compressive and tensile stresses, were observed. Mappings of peak energies and spectral widths of the TO phonon mode showed a clear correspondence with the distributions of strained layers observed by transmission electron microscopy. The maximum compressive and tensile stresses were estimated to be 1.4 and 0.4 GPa, respectively. This result indicates that the periodic strained layers contain many nano-voids which are formed by nano-explosions induced by fs laser irradiation.",

author = "Minoru Yamamoto and Manato Deki and Tomonori Takahashi and Takuro Tomita and Tatsuya Okada and Shigeki Matsuo and Shuichi Hashimoto and Makoto Yamaguchi and Kei Nakagawa and Nobutomo Uehara and Masaru Kamano",

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doi = "10.1143/APEX.3.016603",

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T1 - Raman spectroscopic stress evaluation of femtosecond-laser-modified region inside 4H-SIC

AU - Yamamoto, Minoru

AU - Deki, Manato

AU - Takahashi, Tomonori

AU - Tomita, Takuro

AU - Okada, Tatsuya

AU - Matsuo, Shigeki

AU - Hashimoto, Shuichi

AU - Yamaguchi, Makoto

AU - Nakagawa, Kei

AU - Uehara, Nobutomo

AU - Kamano, Masaru

PY - 2010/1

Y1 - 2010/1

N2 - A femtosecond (fs)-laser-modified region inside single-crystal silicon carbide was studied by micro-Raman spectroscopy. Higher and lower peak energy shifts of the transverse optical (TO) phonon mode, which correspond to compressive and tensile stresses, were observed. Mappings of peak energies and spectral widths of the TO phonon mode showed a clear correspondence with the distributions of strained layers observed by transmission electron microscopy. The maximum compressive and tensile stresses were estimated to be 1.4 and 0.4 GPa, respectively. This result indicates that the periodic strained layers contain many nano-voids which are formed by nano-explosions induced by fs laser irradiation.

AB - A femtosecond (fs)-laser-modified region inside single-crystal silicon carbide was studied by micro-Raman spectroscopy. Higher and lower peak energy shifts of the transverse optical (TO) phonon mode, which correspond to compressive and tensile stresses, were observed. Mappings of peak energies and spectral widths of the TO phonon mode showed a clear correspondence with the distributions of strained layers observed by transmission electron microscopy. The maximum compressive and tensile stresses were estimated to be 1.4 and 0.4 GPa, respectively. This result indicates that the periodic strained layers contain many nano-voids which are formed by nano-explosions induced by fs laser irradiation.

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Raman spectroscopic stress evaluation of femtosecond-laser-modified region inside 4H-SIC

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