Ibaraki University's
Graduate School of Science and Engineering (Engineering)
Department of Electrical and Electronic Engineering

顔写真
Associate Professor

KOMINE Takashi


Career

  1. NEDO fellow 2001/04-2003/03
  2. Assistant, Department of Media and Telecommunications, Faculty of Engineering, Ibaraki University 2003/04-2006/03
  3. Associate Professor, Department of Media and Telecommunications, Faculty of Engineering, Ibaraki University 2006/04-2007/03/31
  4. Associate professor, Department of Media and Telecommunications, Faculty of Engineering, Ibaraki University 2007/04/01-Present

Academic background

  1. Keio University Faculty of Science and Engineering Department of Instrumentaion Engineering 1994/03 Graduated
  2. Keio University Graduate School of Science and Technology Instrumentation Engineering Doctor course 2001/03 Completed

Academic degrees

  1. Doctor(Engineering) Keio University 2001/03

Research Areas

  1. "Function, Properties and Materials in Chemistry"
  2. "Solid‐State Physics II (Magnetism, Metal Physics and Cryogenics)"
  3. Electronic and Electric Materials Engineering
  4. Electron Devices and Apparatus Engineering

Research keywords

  1. Magnetism and Magnetic Materials, Transport properties, Thermoelectrics, Micromagnetics, Magnetic recording

Subject of research

  1. Spintronics devices スピン流分布を制御した磁壁移動型デバイス 2003/04-Present
  2. Ultra-High-Density Magnetic Recording 2003-Present
  3. Development of 2003-Present
  4. Energy conversion element of nano-structured materials using quantum effect 2001/04/01-Present
  5. Energy conversion element of wire-array structure using magneto-effect 2003-2005
  6. theoretical study of electronic structure of compound semiconductor 2004-Present

Proposed theme of joint or funded research

  1. Development of Spintronics Devices Wish to undertake joint research with industry and other organizations including private sector. Technical consultation,Commisioned research,Joint research,Others
  2. Development of thermoelectric materials with nanostructure Wish to undertake joint research with industry and other organizations including private sector. Technical consultation,Commisioned research,Joint research,Others
  3. First-principles Study of New Functional Materials Wish to undertake joint research with industry and other organizations including private sector. Technical consultation,Commisioned research,Joint research,Others
  4. 次世代超高密度磁気記録媒体の開発 Wish to undertake joint research with industry and other organizations including private sector. Commisioned research,Joint research
  5. Development of a New Magnetoresistive Sensor Wish to undertake joint research with industry and other organizations including private sector. Commisioned research

Papers

  1. Research paper (scientific journal) Joint Robustness of Voltage-induced Magnetocapacitance H. Kaiju, T. Misawa, T. Nagahama, T. Komine, O. Kitakami, M. Fujioka, J. Nishii, and G. Xiao Scientific reports Springer Nature Limited 8/ 14709, 1-10 2018/10/02 10.1038/s41598-018-33065-y
  2. Research paper (scientific journal) Joint Geometrical contribution to anomalous Nernst effect in TbFeCo thin films R. Ando, T. Komine AIP advances 8, 056326-1-056326-6 2018/01/20 10.1063/1.5006210
  3. Research paper (scientific journal) Joint Novel behaviors of anomalous hall effect in TbFeCo thin films under high magnetic field R. Ando, T. Komine, S. Sato, S. Kaneta, Y. Hara AIP advances AIP Advances 8, 056316 (2018) 18 Y. 8, 056316-1-056316-7 2018/01/09 10.1063/1.5007775
  4. Research paper (scientific journal) Joint Fabrication of a nanoscale electrical contact on a bismuth nanowire encapsulated in a quartz template by using FIB-SEM M. Murata, A. Yamamoto, Y. Hasegawa, and T. Komine J. Elec. Mater. 46/ 5, 2782-2789 2017/05/01 10.1007/s11664-016-4968-5
  5. Research paper (scientific journal) Joint Theoretical modeling of electrical resistivity and Seebeck coefficient of bismuth nanowires by considering carrier mean free path limitation M. Murata, A. Yamamoto, Y. Hasegawa, T. Komine, A. Endo J. Appl. Phys. 121, 014303-1-014303-10 2017/01/03 10.1063/1.4973191

Research presentations

  1. Poster presentation 磁性薄膜エッジを利用したNi78Fe22/Alq3/Ni78Fe22ナノ接合素子の電気磁気特性 第79回 応用物理学会秋季学術講演会 2018/09/21
  2. Oral presentation(general) Transport measurements of bismuth nanowire embedded in quartz template by nano-fabrication 37th annual international conference on thermoelectrics (ICT) 2018/07/03
  3. Oral presentation(general) 面内磁場下の量子ポイントコンタクトにおける動的核スピン偏極 日本物理学会 第73回年次大会(2018年) 2018/03/23
  4. Poster presentation 磁性薄膜における電極配置が異常ネルンスト起電力に及ぼす影響 第65回 応用物理学会春季学術講演会 2018/03/17
  5. Poster presentation 磁性薄膜エッジを利用したNi78Fe22/Alq3/Ni78Fe22ナノ接合素子に関する研究 第53回応用物理学会北海道支部/第14回日本光学会北海道支部合同学術講演会 2018/01/06

Intellectual property rights

  1. Patent 磁気パターン転写用マスター媒体及びその製造方法,磁気パターン転写方法 特願2018-162816 2018/08/31
  2. Patent Master carrier for magnetic transfer and magnetic recording medium manufactured using the same... EPC 08253788.7 -1232 2009/01/29 EPC 08253788.7 -1232 EPC 08253788.7 -1232
  3. Patent 磁気転写用マスター担体,及び磁気転写方法 2008-88759 2008/03/28
  4. Patent MAGNETIC TRANSFER MASTER CARRIER AND METHOD FOR PRODUCING THE SAME US20090244747A1 2008/03/26
  5. Patent 磁気転写用マスター担体,及びこれを用いた磁気転写方法 2007-302165 2007/11/21

Prizes

  1. Poster Award, The 77th JSAP Autumn Meeting, 2016 Fabrication of Ni78Fe22/Alq3/Ni78Fe22 nanoscale junctions utilizing thin-film edges and their structural and electrical properties 2016/09/16
  2. The ITS outstanding research paper award Magnetic field dependences of thermoelectric properties of a sintered Bi90Sb10 alloy 2015/07/01
  3. 学術奨励賞(内山賞) ECC媒体における磁気クラスタサイズの磁場印加方向依存性 2012/10/03 学生筆頭著者.J. Magn. Soc. Jpn. Vol. 36, No. 3, pp.145-149, 2012.
  4. 第58回電気科学技術奨励賞 磁気転写法によるハードディスクへのサーボ信号超高速記録技術の開発 2010/11/24
  5. 優秀講演賞 UV-NIL を用いたナノパターンの作製検討 2009/11/24 学生筆頭著者

Memberships of academic societies

  1. Magnetics Society of Japan 1995/05-Present
  2. Japan Society of Applied Physics 2003/12-Present
  3. American Physical Society 2005/04-Present
  4. Physical Society of Japan 1996/04-Present
  5. Japan Institue of Metals 1996/04-2012/03/31