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教授・工学博士:江口 真史

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所属 電子光工学科
学位 教授・工学博士
研究室 E222
電話 0123-27-6093
ホームページ 江口研究室のホームページへ

学部担当科目

光システムセミナー、電磁波工学、シミュレーション工学、電子光工学プロジェクト、ディジタル回路、システム統計

大学院担当科目

<博士前期課程>
シミュレーション工学

経歴

1987年 Sony(株)半導体事業本部 CCD事業部
1991-1995年 札幌市立高等専門学校(2011年閉校) インダストリアルデザイン学科講師
1995-1998年 室蘭工業大学 情報メディア教育センター助教授

専門分野

光ファイバ・光導波路、電磁波・光波の波動理論、インターネット

現在の研究テーマ

光ファイバ設計支援システムの開発、フォトニック結晶光導波路デバイスに関する研究、大口径光ファイバに関する研究

所属学会

電子情報通信学会、IEEE

主な著書及び解説

  • M.Eguchi and Y.Tsuji, "Design of single-polarization elliptical-hole core circular-hole holey fibers with zero-dispersion at 1.55 μm", OSA Journal of Optical Society of America B., pp.1690-1701, (2008)
  • M.Eguchi," Anomaly of mode field in multistep index profile multimode fiber", OSA Optics Lettters., pp.446-448, (2009)
  • M.Eguchi and Y. Tsuji, "Bending loss evaluations of holey fiber shaving a core consisting of an elliptical-hole lattice by various approaches", IEEE J. Quantum. Electron., pp.601-609, (2010)
  • M. Eguchi, "Finite-element modal analysis of multistep-index large-core multimode fibers", OSA J. Opt. Soc. Am. B,pp.2478-2485, (2010)
  • M. Eguchi and Y. Tsuji, "Bending loss of elliptical-hole core circular-hole holey fibers bent in arbitrary bending directions", OSA Appl. Opt., pp.6207-6212, (2011)
  • M. Eguchi, "Multilayered effective-index analysis of dielectric waveguides with complicated microstructures", OSA J. Opt. Soc. Am. B,pp.2478-2485, (2013)
  • M. Eguchi and Y. Tsuji, "Single-polarization elliptical-hole lattice core photonic-bandgap fiber", IEEE/OSA J. Lightwave Technol., pp.177-182, (2013)
  • M. Eguchi and Y. Tsuji, "Influence of reflected radiation waves caused by large mode field and large refractive index mismatches on splice loss evaluation between elliptical-hole lattice core holely fibers and conventional fibers", OSA J. Opt. Soc. Am. B, pp.410-420, (2013)
  • Z.Zhang, Y.Tsuji, and M.Eguchi, "Design of polarization splitter with elliptical-hole core circular-hole holey fibers", IEEE Photonics Technol. Lett., pp.541-543, (2014)
  • Z.Zhang, Y.Tsuji, and M.Eguchi, "A study on crosstalk-free polarization splitter based on single-polarized photonics crystal fibers", The 35th Progress In Electromagnetics Research Symposium, p.1739, (2014)
  • Z.Zhang, Y.Tsuji, and M.Eguchi, "Study on crosstalk-free polarization splitter with elliptical-hole core circular-hole holly fibers", IEEE/OSA J. Lightwave Technol., pp.3956-3962, (2014)
  • K.Ichikawa, Z.Zhang, Y.Tsuji, and M.Eguchi, "A Single-Polarization Holey Fiber with Anisotropic Lattice of Circular Air Holes", IEEE/OSA J. Lightwave Technol., pp.3866-3871, (2015)
  • Z.Zhang, Y.Tsuji, and M.Eguchi, “Study on Polarization Splitter and Converter Using Square Lattice Elliptical-hole Core Circular-hole Holey Fibers”, The 36th Progress In Electromagnetics Research Symposium, (2015)
  • Z.Zhong, Z.Zhang, Y.Tsuji, and M.Eguchi, “Study on Crosstalk-Free Polarization Splitter Based on Square Lattice Single Polarization Photonic Crystal Fibers”, IEEE Journal of Quantum Electronics, Vol.52, No.5, #7000107, (2016)
  • K.Ichikawa, Z.Zhang, Y.Tsuji, and M.Eguchi, “A Study on Single Polarization Guidance in Photonic Band Gap Fiber with Anisotropic Lattice of Circular Air Holes”, IEICE Transactions Electronics, Vol.E99-C, No.7, pp.774-779, (2016)
  • M.Eguchi and Y.Tsuji, “Single-polarization hollow-core square photonic bandgap waveguide”, AIP Advances, Vol.6, 075322, (2016)
  • Z.Zhang, Y.Tsuji, and M.Eguchi, “Design of cross-talk free polarization converter based on square lattice elliptical-hole core circular-hole holey fibers”, OSA Journal of Optical Society of America B, accepted for publication (Jul. 22), (2016)
  • Z.Zhang, Y.Tsuji, and M.Eguchi, “Design of taper coupler type polarization splitter with single-polarization photonic crystal fiber”, The 37th Progress In Electromagnetics Research Symposium, Shanghai, (Aug. 8-11, 2016)
  • Z.Zhong, Y.Tsuji, and M.Eguchi, “Design of single TM-like mode photonic crystal fiber with an actinomophic elliptical-hole lattice core”, The 37th Progress In Electromagnetics Research Symposium, Shanghai, (Aug. 8-11, 2016)
  • Z.Zhong, Y. Tsuji, and M.Eguchi,” Single radial/azimuthal mode photonic crystal fibers with anisotropic elliptical-hole lattice core,” IEEE Photonics Technology Letters, 29, 16 pp.1285-1288,(2017)
  • Z.Zhang, Y. Tsuji, M.Eguchi, and C.Chen,” Design of polarization converter based on photonic crystal fiber with anisotropic lattice core consisting of circular holes,” OSA J. Opt. Soc. Am. B, 34, 10, pp.2227-2232 (2017).
  • Z.Zhang, Y.Tsuji, M.Eguchi, and C.Chen,” Design of polarization splitter based on high-birefringence photonic crystal fiber with double-hole unit core,” Design of polarization splitter based on high-birefringence photonic crystal fiber with double-hole unit core”, Progress In Electromagnetics Research Symposium, Shanghai (2017).
  • Z.Zhang, Y.Tsuji, M.Eguchi, and C.Chen,”Study on Single-Polarized Hokey Fibers with Double-Hole Unit Cores for Cross-Talk Free Polarization Splitter,” IEICE Trans. Electron., E101-C, 8, pp.620-626 (2018).
  • C.Xie, Z.Zhang, Y.Tsuji, M.Eguchi, C.Chen, and T.Anada,”Study on Polarization Rotator Based on Photonic Crystal Fiber with Double Hole Unit Cell,” 2018 Asia Communications and Photonics Conference (ACP) (2018).
  • Z.Zhang, Y.Tsuji, M.Eguchi, and C.Chen, “Polarization Converter Based on Square Lattice Photonic Crystal Fiber with Double-Hole Units,” Crystals 2019, 9, 58 (2019).