坂本 克好

基盤理工学専攻助教
Ⅲ類(理工系)助教
研究者情報

学位

  • 修士(工学), 電気通信大学

研究分野

  • ものづくり技術(機械・電気電子・化学工学), 電気電子材料工学
  • ナノテク・材料, 薄膜、表面界面物性
  • ナノテク・材料, 結晶工学
  • ナノテク・材料, 応用物性

学歴

  • 1992年
    電気通信大学, 電気通信学研究科, 電子工学専攻, 日本国
  • 1992年
    電気通信大学, Graduate School, Division of Electro Communications
  • 1991年
    電気通信大学, 電気通信学部, 電子工学科, 日本国
  • 1991年
    電気通信大学, Faculty of Electro Communications
研究活動情報

MISC

  • Surface electromigration of in-covered Si high-index surfaces
    K Sakamoto; Y Matsubayashi; M Shimada; T Yamada; A Natori; H Yasunaga
    To clarify the role of facet in electromigration on the vicinal Si(0 0 1), we investigated in this study surface mass transport of In on Si high-index (1 0 3) and vicinal (0 0 1) surfaces, using scanning Auger microscope, low energy electron diffraction (LEED) and atomic force microscope (AFM). In parallel with (1 0 3), we also investigated similarly the most stable high-index (1 1 3) of Si for reference. Specimens with a large area of these surfaces were prepared from Si(0 0 1) wafer by cutting, grinding and polishing. No surface electromigration of In on Si(1 0 3) surface was observed at any temperature, while In overlayer exhibited a typical Stranski-Krastanov mode of growth. This fact strongly suggests that In adatoms move around over the intermediate layer, but there is no driving force of electromigration on them. The electromigration on the vicinal Si(0 0 1) depended upon the off-angle. It was most enhanced with the off-angle of around 4degrees. Based upon these results a model is proposed to explain the puzzling electromigration of In on vicinal Si(0 0 1). We found out that In on Si(1 1 3) exhibited a normal surface electromigration towards cathode. (C) 2003 Published by Elsevier Science B.V., ELSEVIER SCIENCE BV, 出版日 2003年05月, APPLIED SURFACE SCIENCE, 212巻, 掲載ページ 249-254, 英語, 0169-4332, WOS:000183967200047
    DOI URL

  • Surface electromigration of in-covered Si high-index surfaces
    K Sakamoto; Y Matsubayashi; M Shimada; T Yamada; A Natori; H Yasunaga
    To clarify the role of facet in electromigration on the vicinal Si(0 0 1), we investigated in this study surface mass transport of In on Si high-index (1 0 3) and vicinal (0 0 1) surfaces, using scanning Auger microscope, low energy electron diffraction (LEED) and atomic force microscope (AFM). In parallel with (1 0 3), we also investigated similarly the most stable high-index (1 1 3) of Si for reference. Specimens with a large area of these surfaces were prepared from Si(0 0 1) wafer by cutting, grinding and polishing. No surface electromigration of In on Si(1 0 3) surface was observed at any temperature, while In overlayer exhibited a typical Stranski-Krastanov mode of growth. This fact strongly suggests that In adatoms move around over the intermediate layer, but there is no driving force of electromigration on them. The electromigration on the vicinal Si(0 0 1) depended upon the off-angle. It was most enhanced with the off-angle of around 4degrees. Based upon these results a model is proposed to explain the puzzling electromigration of In on vicinal Si(0 0 1). We found out that In on Si(1 1 3) exhibited a normal surface electromigration towards cathode. (C) 2003 Published by Elsevier Science B.V., ELSEVIER SCIENCE BV, 出版日 2003年05月, APPLIED SURFACE SCIENCE, 212巻, 掲載ページ 249-254, 英語, 0169-4332, WOS:000183967200047
    DOI URL

  • UHV-SEMを用いたVicinal Si(001)表面エレクトロマイグレーションの その場観察
    出版日 2003年, 日本物理学会講演概要集
  • Surface Electromigration Analysis for using Multi-electrodes Method
    出版日 2002年
  • Surface Electromigration Analysis for using Multi-electrodes Method
    出版日 2002年
  • Structure analysis of oxygen-adsorbed tungsten (001) surface
    H Yamazaki; T Kamisawa; T Kokubun; T Haga; S Kamimizu; K Sakamoto
    Structure of the tungsten (001) surface annealed at 1200 K for the saturation coverage of oxygen, W(001)-2 x 1-O, has been studied by low-energy electron diffraction (LEED) and the symmetrized automated tenser LEED program, The optimized structure is that with missing rows of tungsten atoms and double rows of oxygen atoms. The layer separation between the oxygen atom and the topmost tungsten atom layer is 0.50 +/- 0.06 Angstrom, the distance between oxygen rows is 2.4 +/- 0.3 Angstrom and all other separations between tungsten atoms are the same as bulk values. The distance between the oxygen atom and the tungsten atom agrees weil with sum of atomic radii of oxygen and tungsten. Oxygen atoms are located in the threefold hollow site at the tungsten (011) facet appearing on the tungsten (001) surface with missing rows. (C) 2001 Elsevier Science B.V. Ail rights reserved., ELSEVIER SCIENCE BV, 出版日 2001年04月, SURFACE SCIENCE, 477巻, 2-3号, 掲載ページ 174-178, 英語, 0039-6028, 80012419846, WOS:000168314500013
    DOI URL

  • Structure analysis of oxygen-adsorbed tungsten (001) surface
    H Yamazaki; T Kamisawa; T Kokubun; T Haga; S Kamimizu; K Sakamoto
    Structure of the tungsten (001) surface annealed at 1200 K for the saturation coverage of oxygen, W(001)-2 x 1-O, has been studied by low-energy electron diffraction (LEED) and the symmetrized automated tenser LEED program, The optimized structure is that with missing rows of tungsten atoms and double rows of oxygen atoms. The layer separation between the oxygen atom and the topmost tungsten atom layer is 0.50 +/- 0.06 Angstrom, the distance between oxygen rows is 2.4 +/- 0.3 Angstrom and all other separations between tungsten atoms are the same as bulk values. The distance between the oxygen atom and the tungsten atom agrees weil with sum of atomic radii of oxygen and tungsten. Oxygen atoms are located in the threefold hollow site at the tungsten (011) facet appearing on the tungsten (001) surface with missing rows. (C) 2001 Elsevier Science B.V. Ail rights reserved., ELSEVIER SCIENCE BV, 出版日 2001年04月, SURFACE SCIENCE, 477巻, 2-3号, 掲載ページ 174-178, 英語, 0039-6028, 80012419846, WOS:000168314500013
    DOI URL

  • 低温における酸素吸着W(001)表面の構造解析
    出版日 2001年, 日本物理学会講演概要集, 56巻, 2第4分冊号
  • Surface electromigration of In on vicinal Si(001)
    K Sakamoto; NJ Wu; A Natori; H Yasunaga
    Surface mass transport of In film on vicinal Si(0 0 1) has been systematically investigated by a scanning Auger electron microscopy (SAM), low energy electron diffraction (LEED) and atomic force microscopy (AFM). It was observed that the temperature dependence of the mass transport shows the critical phenomenon. Above a critical temperature T-c, surface electromigration of the In film toward the cathode side dominated the surface mass transport on the vicinal Si(0 0 1) surface. The LEED and AFM observations revealed that the In film surface on the vicinal Si(0 0 I) consists of 3 x 4 terraces and (3 1 0) facets. The area ratio of the facet to the terrace exhibited abrupt an increase at T-c. It is believed that the change of the mass transport is related to the abrupt change of the area ratio of the facet to the terrace. Both the critical temperature T-c and the spread due to the surface electromigration of the In film depended on the configuration of the DC current direction and the step edge. (C) 2001 Published by Elsevier Science B.V., ELSEVIER SCIENCE BV, 出版日 2001年01月, APPLIED SURFACE SCIENCE, 169巻, 掲載ページ 480-484, 英語, 0169-4332, WOS:000167087700098
    DOI URL

  • Surface electromigration of Au ultrathin film on MoS2
    NJ Wu; S Shimizu; MT Hermie; K Sakamoto; A Natori; H Yasunaga
    The mass transport of Au ultrathin film on a semiconductor MoS2 was investigated by atomic force microscopy (AFM) and scanning Auger microscopy (SAM). The surface electromigration of the Au film was found when a de current was passed through the MoS2 substrate. The Au ultrathin film on MoS2 grew in a typical Volmer-Weber (V-W) growth mode, The AFM measurements indicated that the distribution of the Au islands exhibited clearly a preferential lateral spread towards the cathode, that is, the surface electromigration took place. The direction of the surface electromigration on MoS2 is opposite to that of the Au electromigration on Si. (C) 2001 Elsevier Science B.V. All rights reserved., ELSEVIER SCIENCE BV, 出版日 2001年01月, APPLIED SURFACE SCIENCE, 169巻, 掲載ページ 485-488, 英語, 0169-4332, WOS:000167087700099
    DOI URL

  • Surface electromigration of In on vicinal Si(001)
    K Sakamoto; NJ Wu; A Natori; H Yasunaga
    Surface mass transport of In film on vicinal Si(0 0 1) has been systematically investigated by a scanning Auger electron microscopy (SAM), low energy electron diffraction (LEED) and atomic force microscopy (AFM). It was observed that the temperature dependence of the mass transport shows the critical phenomenon. Above a critical temperature T-c, surface electromigration of the In film toward the cathode side dominated the surface mass transport on the vicinal Si(0 0 1) surface. The LEED and AFM observations revealed that the In film surface on the vicinal Si(0 0 I) consists of 3 x 4 terraces and (3 1 0) facets. The area ratio of the facet to the terrace exhibited abrupt an increase at T-c. It is believed that the change of the mass transport is related to the abrupt change of the area ratio of the facet to the terrace. Both the critical temperature T-c and the spread due to the surface electromigration of the In film depended on the configuration of the DC current direction and the step edge. (C) 2001 Published by Elsevier Science B.V., ELSEVIER SCIENCE BV, 出版日 2001年01月, APPLIED SURFACE SCIENCE, 169巻, 掲載ページ 480-484, 英語, 0169-4332, WOS:000167087700098
    DOI URL

  • Surface electromigration of Au ultrathin film on MoS2
    NJ Wu; S Shimizu; MT Hermie; K Sakamoto; A Natori; H Yasunaga
    The mass transport of Au ultrathin film on a semiconductor MoS2 was investigated by atomic force microscopy (AFM) and scanning Auger microscopy (SAM). The surface electromigration of the Au film was found when a de current was passed through the MoS2 substrate. The Au ultrathin film on MoS2 grew in a typical Volmer-Weber (V-W) growth mode, The AFM measurements indicated that the distribution of the Au islands exhibited clearly a preferential lateral spread towards the cathode, that is, the surface electromigration took place. The direction of the surface electromigration on MoS2 is opposite to that of the Au electromigration on Si. (C) 2001 Elsevier Science B.V. All rights reserved., ELSEVIER SCIENCE BV, 出版日 2001年01月, APPLIED SURFACE SCIENCE, 169巻, 掲載ページ 485-488, 英語, 0169-4332, WOS:000167087700099
    DOI URL

  • 半導体MoS2表面上のAu表面エレクトロマイグレーション
    出版日 1999年, 第46回応用物理学関連連合講演会, 掲載ページ 684
  • In/Si(001)のファセット形成と表面エレクトロマイグレーション
    出版日 1999年, 第46回応用物理学関連連合講演会, 掲載ページ 681
  • エレクトロマイグレーションによるシリコン表面加工
    出版日 1999年, 電気通信大学サテライトベンチャービジネスラボラトリー,平成10年度研究成果報告要旨集, 45巻
  • アニールした酸素吸着W(001)表面の構造解析
    出版日 1999年, 日本物理学会講演概要集, 54巻, 2第4分冊号, 掲載ページ 821
  • Structure Analysis of Hydrogen-Adsorbed V(001)
    出版日 1999年, Surface 真空(増刊), 42巻, 掲載ページ 53
  • ELECTROMIGRATION OF Au ULTRATHIN FILM ON MoS2 SURFACE
    出版日 1999年, Vacuum and Surface Sciences Conference of Asia and Australia(Tokyo)
  • SURFACE ELECTROMIGRATION OF In ON VICINAL Si(001)
    出版日 1999年, Vacuum and Surface Sciences Conference of Asia and Australia(Tokyo)
  • Structure Analysis of Hydrogen-Adsorbed V(001)
    出版日 1999年, Surface 真空(増刊), 42巻, 掲載ページ 53
  • ELECTROMIGRATION OF Au ULTRATHIN FILM ON MoS2 SURFACE
    出版日 1999年, Vacuum and Surface Sciences Conference of Asia and Australia(Tokyo)
  • SURFACE ELECTROMIGRATION OF In ON VICINAL Si(001)
    出版日 1999年, Vacuum and Surface Sciences Conference of Asia and Australia(Tokyo)
  • MoS2表面上の金属質量輸送
    出版日 1998年, 第18回表面科学講演大会, 掲載ページ 97
  • 微斜面Si(001)面上のIn表面エレクトロマイグレーション
    出版日 1998年, 第18回表面科学講演大会, 掲載ページ 96

所属学協会

  • 日本物理学会