Study on diamond thin film semiconducting devices for application to a development of hard-electronics high frequency driving circuit (マイクロ波)

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概要

• 論文の詳細を見る

• In this paper, basic electrical properties of semiconducting diamond were investigated in order to check its capability for application to electron device. Especially, a field effect transistor was fabricated on diamond substrate, and its electrical properties were investigated. A clear current modulation characteristic was observed from the field effect transistor. Maximum breakdown voltage was - 150 V. An inverter circuit was fabricated on diamond substrate, and it showed good electrical performances at a high temperature of 220℃.

• 2011-02-24

著者

• Park Young-bae

  Department Of Radio Communication Engineering Korea Maritime University

• Jung Jang-hyeon

  Department Of Radio Communication Engineering Korea Maritime University

• Kang Suk-youb

  Department Of Radio Communication Engineering Korea Maritime University

• Yun Young

  Department Of Radio Communication Engineering Korea Maritime University

• Jung Bo-ra

  Department Of Radio Communication Engineering Korea Maritime University

• Ju Jeong-gab

  Department Of Radio Communication Engineering Korea Maritime University

• JU Jeong-Gab

  Dept. of Radio Sciences and Engineering, Korea Maritime University

• PARK Young-Bae

  Dept. of Radio Sciences and Engineering, Korea Maritime University

• JUNG Bo-Ra

  Dept. of Radio Sciences and Engineering, Korea Maritime University

• Yun Young

  Dept. of Radio Sciences and Engineering, Korea Maritime University

• Jeong Jang-hyeon

  Dept. Radio communication of Engineering, Korea Maritime University

• Kang Suk‐youb

  Department Of Radio Communication Engineering Korea Maritime University

• Kang Suk-youb

  Dept. Of Radio Sciences And Engineering Korea Maritime University

• JANG Eui-Hoon

  Dept. of Radio Sciences and Engineering, Korea Maritime University

• Jang Eui-hoon

  Department Of Radio Communication Engineering Korea Maritime University

• YUN Young

  Korea Maritime University

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