Photoluminescence study of the driving force for stacking fault expansion in 4H-SiC

Rii Hirano; Yuki Sato; Michio Tajima; Kohei M. Itoh; Koji Maeda

doi:10.4028/www.scientific.net/MSF.717-720.395

Photoluminescence study of the driving force for stacking fault expansion in 4H-SiC

Rii Hirano, Yuki Sato, Michio Tajima, Kohei M. Itoh, Koji Maeda

塾長

研究成果: Conference contribution

6 被引用数 (Scopus)

抄録

We investigated expansion velocities of Shockley stacking faults (SSFs) in 4H-silicon carbide under laser illumination using photoluminescence methods. The experiments showed that the velocity of SSF expansion or the glide velocity of SSF-bounding 30°-Si(g) partial dislocations (PD) is superlinearly dependent on the excitation intensity. We estimated the sample temperature by analyzing the broadening of band-edge emission and concluded that the lattice heating by laser illumination is not the cause of the enhanced dislocation glide. The superlinear dependence can be accounted for by a photo-induced sign reversal of the effective formation energy of the SSF acting as the driving force of SSF expansion under the illumination.

本文言語	English
ホスト出版物のタイトル	Silicon Carbide and Related Materials 2011, ICSCRM 2011
編集者	Robert P. Devaty, Michael Dudley, T. Paul Chow, Philip G. Neudeck
出版社	Trans Tech Publications Ltd
ページ	395-398
ページ数	4
ISBN（印刷版）	9783037854198
DOI	https://doi.org/10.4028/www.scientific.net/MSF.717-720.395
出版ステータス	Published - 2012
イベント	14th International Conference on Silicon Carbide and Related Materials 2011, ICSCRM 2011 - Cleveland, OH, United States 継続期間: 2011 9月 11 → 2011 9月 16

出版物シリーズ

名前	Materials Science Forum
巻	717-720
ISSN（印刷版）	0255-5476
ISSN（電子版）	1662-9752

Other

Other	14th International Conference on Silicon Carbide and Related Materials 2011, ICSCRM 2011
国/地域	United States
City	Cleveland, OH
Period	11/9/11 → 11/9/16

ASJC Scopus subject areas

材料科学一般
凝縮系物理学
材料力学
機械工学

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10.4028/www.scientific.net/MSF.717-720.395

他のファイルとリンク

引用スタイル

Hirano, R., Sato, Y., Tajima, M., Itoh, K. M., & Maeda, K. (2012). Photoluminescence study of the driving force for stacking fault expansion in 4H-SiC. In R. P. Devaty, M. Dudley, T. P. Chow, & P. G. Neudeck (Eds.), Silicon Carbide and Related Materials 2011, ICSCRM 2011 (pp. 395-398). (Materials Science Forum; Vol. 717-720). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/MSF.717-720.395

Photoluminescence study of the driving force for stacking fault expansion in 4H-SiC. / Hirano, Rii; Sato, Yuki; Tajima, Michio その他.
Silicon Carbide and Related Materials 2011, ICSCRM 2011. ed. / Robert P. Devaty; Michael Dudley; T. Paul Chow; Philip G. Neudeck. Trans Tech Publications Ltd, 2012. p. 395-398 (Materials Science Forum; Vol. 717-720).

研究成果: Conference contribution

Hirano, R, Sato, Y, Tajima, M, Itoh, KM & Maeda, K 2012, Photoluminescence study of the driving force for stacking fault expansion in 4H-SiC. in RP Devaty, M Dudley, TP Chow & PG Neudeck (eds), Silicon Carbide and Related Materials 2011, ICSCRM 2011. Materials Science Forum, vol. 717-720, Trans Tech Publications Ltd, pp. 395-398, 14th International Conference on Silicon Carbide and Related Materials 2011, ICSCRM 2011, Cleveland, OH, United States, 11/9/11. https://doi.org/10.4028/www.scientific.net/MSF.717-720.395

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title = "Photoluminescence study of the driving force for stacking fault expansion in 4H-SiC",

abstract = "We investigated expansion velocities of Shockley stacking faults (SSFs) in 4H-silicon carbide under laser illumination using photoluminescence methods. The experiments showed that the velocity of SSF expansion or the glide velocity of SSF-bounding 30°-Si(g) partial dislocations (PD) is superlinearly dependent on the excitation intensity. We estimated the sample temperature by analyzing the broadening of band-edge emission and concluded that the lattice heating by laser illumination is not the cause of the enhanced dislocation glide. The superlinear dependence can be accounted for by a photo-induced sign reversal of the effective formation energy of the SSF acting as the driving force of SSF expansion under the illumination.",

keywords = "4H-SiC, Photoluminescence, Radiation-enhanced dislocation glide, Stacking faults",

author = "Rii Hirano and Yuki Sato and Michio Tajima and Itoh, {Kohei M.} and Koji Maeda",

year = "2012",

doi = "10.4028/www.scientific.net/MSF.717-720.395",

language = "English",

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AU - Hirano, Rii

AU - Sato, Yuki

AU - Tajima, Michio

AU - Itoh, Kohei M.

AU - Maeda, Koji

PY - 2012

Y1 - 2012

N2 - We investigated expansion velocities of Shockley stacking faults (SSFs) in 4H-silicon carbide under laser illumination using photoluminescence methods. The experiments showed that the velocity of SSF expansion or the glide velocity of SSF-bounding 30°-Si(g) partial dislocations (PD) is superlinearly dependent on the excitation intensity. We estimated the sample temperature by analyzing the broadening of band-edge emission and concluded that the lattice heating by laser illumination is not the cause of the enhanced dislocation glide. The superlinear dependence can be accounted for by a photo-induced sign reversal of the effective formation energy of the SSF acting as the driving force of SSF expansion under the illumination.

AB - We investigated expansion velocities of Shockley stacking faults (SSFs) in 4H-silicon carbide under laser illumination using photoluminescence methods. The experiments showed that the velocity of SSF expansion or the glide velocity of SSF-bounding 30°-Si(g) partial dislocations (PD) is superlinearly dependent on the excitation intensity. We estimated the sample temperature by analyzing the broadening of band-edge emission and concluded that the lattice heating by laser illumination is not the cause of the enhanced dislocation glide. The superlinear dependence can be accounted for by a photo-induced sign reversal of the effective formation energy of the SSF acting as the driving force of SSF expansion under the illumination.

KW - 4H-SiC

KW - Photoluminescence

KW - Radiation-enhanced dislocation glide

KW - Stacking faults

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T2 - 14th International Conference on Silicon Carbide and Related Materials 2011, ICSCRM 2011

Y2 - 11 September 2011 through 16 September 2011

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Photoluminescence study of the driving force for stacking fault expansion in 4H-SiC

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