Paper, journal


  1. Paper, journal (peer-reviewed)
    • Hirokazu Ishida, Tsutomu Fukuda, Takafumi Kajiwara, Koichi Kodama, Masahiro Komatsu, Tomokazu Matsuo, Shoji Mikado, Mitsuhiro Nakamura, Satoru Ogawa, Andrey Sheshukov, Hiroshi Shibuya, Jun Sudou, Taira Suzuki, and Yusuke Tsuchida : “Study of hadron interactions in a lead-emulsion target”, PTEP 2014, 093C01. DOI: 10.1093/ptep/ptu119.
    • N. Agafonova, H. Ishida, et al. (The OPERA Collaboration): “Search for νμ -> νe oscillations with the OPERA-experiment in the CNGS beam,” JHEP 07, 004 (2013).
    • M. Kimura, H. Ishida, H. Shibuya, S. Ogawa, T. Matsuo, C. Fukushima, G. Takahashi, K. Kuge, Y. Sato, I. Tezuka, S. Mikado: “A new method to correct deformations in emulsion using a precise photomask,” Nucl. Instr. and Meth. A. 711, 1 (2013).
    • T. Fukuda, S. Fukunaga, H. Ishida, K. Kodama, T. Matsuo, S. Mikado, S. Ogawa, H. Shibuya, J. Sudo: “Automatic scanning of nuclear emulsions with wide-angle acceptance for nuclear fragment detection,” JINST 8, P01023 (2013).
    • T. Adam, H. Ishida, et al. (The OPERA Collaboration): “Measurement of the neutrino velocity with the OPERA detector in the CNGS beam using the 2012 dedicated data”, JHEP 01, 153 (2013).
    • 高和宏行, 手島昂太朗, 岩見健太郎, 高柳淳夫, 梅田倫弘, 築地光雄:”2つのキー波長をもつ高次複屈折視覚復号型情報セキュリティーデバイス”, 光学, 41(10) (2012) 534-538.
    • 金 蓮花, 大矢敏史, 高和宏行, 近藤英一:”有機結晶の偏光特性を利用した新しい教材”, 応用物理教育, 36(2) (2012) 21-26.
    • N. Agafonova, H. Ishida, et al. (The OPERA Collaboration): “Search for νμ -> ντ oscillation with the OPERA experiment in the CNGS beam,” New J. Phys. 14, 033017 (2012).
    • N. Agafonova, H. Ishida, et al. (The OPERA Collaboration): “Momentum measurement by the multiple Coulomb scattering method in the OPERA lead-emulsion target,” New J. Phys. 14, 013026 (2012).
    • T. Adam, H. Ishida, et al.(The OPERA Collaboration): “Measurement of the neutrino velocity with the OPERA detector in the CNGS beam,” JHEP 10, 093 (2012).
    • N. Agafonova, H. Ishida, et al. (The OPERA Collaboration): “Study of neutrino interactions with electronic detectors of the OPERA experiment,” New J. Phys. 13, 053051 (2011).
    • JIN Lianhua, MASAMURA Yukinori, KONDOH Eiichi, KOWA Hiroyuki and TAKIZAWA Kuniharu: “Theoretical Analysis for the Fast Birefringence Measurement System using Dual Electro-optic Crystal Modulators,”Journal of JSEM, 11(2011)198-203.
    • 高和宏行, 岩見健太郎, 梅田倫弘, 築地光雄:”高次複屈折を用いた情報セキュリティーデバイスの開発”, 光学, 40(9) (2011)490-498.
    • N. Agafonova, H. Ishida, et al. (The OPERA Collaboration): “Observation of a first ντcandidate event in the OPERA experiment in the CNGS beam,” Phys. Lett. B 691(2010)138-145.
    • Kogure S, Kohwa H, Tsukahara S:”Effect of uncompensated corneal polarization on the detection of localized retinal nerve fiber layer defects,”Ophthalmic Res 40(2008)61-68.
    • 築地光雄, 高和宏行, 田實佳郎:”光学フィルム用・光弾性定数測定システムの開発”,精密工学会誌, 73 (2007) 253-258.
    • Tsukiji, Kowa, Muraki, Umeda, Morii, Honda and Tajitsu: “Accurate Measurement of Light Modulation Properties of Piezoelectric Polymer,”Jpn. J. Appl. Phys. 45 (2006) 7531-7534.
    • Toshitaka Wakayama, Hiroyuki Kowa, Yukitoshi Otani, Norihiro Umeda, and Toru Yoshizawa: “Two-dimensional measurement of birefringence dispersion using spectroscopic polarized light,”Optical Engineering, 45(3) (2006) 033601-1~033601-6.
    • Tsukiji, Kowa, Muraki, Umeda, Imoto, Kanasaki, Tahara, Morii and Tajitsu: “Measurement System for Very Small Photoelastic Constant of Polymer Films,”Macromolecular Symposia 242 (2006) 235-240.
    • Tsukiji, Kowa, Muraki, Umeda and Tajitsu: “Measurement of Pockels Effect in Piezoelectric Chiral Polymer Film,”Jpn. J. Appl. Phys. 44 (2005)7115-7118.
    • 小暮 諭, 地場達也, 飯島裕幸, 高和宏行, 塚原重雄:”角膜複屈折による影響の少ない網膜神経線維複屈折解析パラメータの検討”, 日本眼科学会雑誌, 108(5) (2004) 291-296.
    • 若山俊隆,高和宏行,大谷幸利,梅田倫弘,吉澤 徹: “波長依存性を考慮した2次元複屈折計測”,光学,31(11) (2002) 826-831.
    • S. Kogure, T. Chiba, T. Kinoshita, H. Kowa, S. Tsukahara: “Effects of artefacts on scanning laser polarimetry of retinal nerve fiber layer thickness measurement,” British journal of ophthalmology, 84(9) (2000) 1013-1017.
    • 東根亜紀, 大谷幸利, 高和宏行, 徳永 剛, 吉澤 徹:”パターン投影法におけるしま次数の決定法とレンズ素材の形状計測への応用”, 精密機械工学会誌, 61(12) (1995) 1695-1699.
    • 高和宏行, 梅田倫弘:”周波数安定化横ゼーマンレーザーによる光弾性定数 測定”, 光学, 20(2) (1991) 112-114.
    • N. Umeda, H. Kohwa: “Measurement of the Residual Birefringence Distribution in Glass Laser Disk by Transverse Zeeman Laser,” Electronics and Communications in Japan(Part II: Electronics), 74(5) (1991) 21-28.
    • 高和宏行, 梅田倫弘:”赤外横ゼーマンレーザーによる複屈折測定”, 光学, 19(7) (1990) 464-471.
    • 梅田倫弘, 高和宏行:”横ゼーマンレーザによるガラスレーザディスクの残留複屈折分布の計測”, 電子情報通信学会論文誌C-I, Vol.J73-C-I, No.10 (1990) 652-657.
    • 梅田倫弘, 築地光雄, 高崎 宏:”内部鏡型 3He-20Ne レーザーの縦モード内ビート”, 光学, 9(2) (1980) 89-95.
    • N. Umeda, M. Tsukiji and H. Takasaki: “Stabilized 3He-20Ne transverse Zeeman laser,” APPLIED OPTICS, 19(3) (1980) 442-450.
    • H. Takasaki, N. Umeda and M. Tsukiji: “Stabilized transverse Zeemanlaser as a new light source for optical measurement,” APPLIED OPTICS, 19(3) (1980) 435-441.
    • 高崎 宏, 築地光雄, 梅田倫弘:”測定光源としての安定化横ゼーマンレーザ ー”, 光学, 8(5) (1979) 285-291.
    • 梅田倫弘, 築地光雄, 桂 卓史, 高崎宏:”横ゼーマンレーザーの安定化制御”, 光学, 8(5) (1979) 279-284.

  2. Paper, journal, report (non peer-reviewed)
    • Kowa H, Murana T, Iwami K, Umeda N, Tsukiji M and Takayanagi A: “Development of a visual encryption device using higher-order birefringence,”Proc. of SPIE 8134, p81340V (2011).
    • S. Kawabata, H. Kowa: “CAI system and authoring of problems for exercise,” Proceedings of 2nd International Conference on Information Technology Based Higher Education and Training (2001).
    • L. H. Jin, H. Kowa, Y. Otani, N. Umeda: “Mueller matrix imaging polarimeter in 157nm,”Proc.SPIE,Advanced Characterization Techniques for Optics, Semiconductors, and Nanotechnologies, 5188 , San Diego (2003) 146-153.
    • Y. Otani, M. Takahashi, L. Jin, H. Kowa, N. Umeda: “Image detection system for 157 nm using fluorescent,”Advanced Characterization Techniques for Optics, Semiconductors, and Nanotechnologies, Proc.SPIE 5188, San Diego(2003) 134-137.
    • N. Umeda, S. Tanaka, A. Takayanagi, Y. Otani, and H. Kowa: “Development of birefringence measurement with double rotating polarization components,”Proceedings of SPIE, 5192 (2003) 1-6.
    • T. Wakayama, H. Kowa, Y. Otani, N. Umeda, T. Yoshizawa: “Birefringence dispersion measurement by geometric phase,”Proceedings of SPIE, 4902 (2002) 406-411.
    • T. Wakayama, H. Kowa, Y. Otani, N. Umeda, T. Yoshizawa: “Two-dimensional measurement of birefringence measurement using spectroscopic polarized light,”Proceedings of SPIE, 4919 (2002) 176-182.
    • T. Wakayama, H. Kowa, Y. Otani, N. Umeda, T. Yoshizawa: “High-order birefringence and dispersion measurement using spectroscopic polarized light,”Proceedings of SPIE, 4416(2001) 23-26.
    • H. Kowa, K. Muraki, Y. Otani, N. Umeda and T. Yoshizawa: “High-order birefringence measurement using spectroscopic polarized light,”Proceedings of SPIE, 4133 (2000)107-113.
    • N. Umeda, J. Takahashi, D. Iiduka and H. Kohwa: “Birefringence measurement by scatterd light method with phase shifting technique,” SPIE Proceedings, 3740 (1999) 48-52.
    • 高和宏行:”複屈折分布の計測技術—物体の内部情報をとらえる—”,第9回・三次元工学研究会資料集, (1998).
    • N. Umeda, S. Wakayama, S. Arakawa, A. Takayanagi and H. Kowa: “Fast Birefringence Measurement using Right and Left Hand Circularly Polarized Laser,” SPIE Proceedings, 2873 (1996) 119-122.
    • H. Kowa, K. Muraki, M. Tsukiji, A. Takayanagi and N. Umeda: “Simultaneous Measurement of Linear and Circular Birefringence with Heterodyne Interferometry,” SPIE Proceedings, 2873 (1996) 29-32.
    • 梅田倫弘, 築地光雄, 高崎 宏:”横磁場印加により単一縦モード化したレーザー光の特性”,応用物理, 47(11) (1978) 1053-1057.
    • 梅田倫弘, 築地光雄, 高崎 宏:”内部鏡型 He-Ne レーザーの横磁場による単一縦モード化と波長安定化”, 応用物理, 47(5) (1978) 432-436.

  3. etc.
    • 高和宏行:”複屈折測定装置の種類と選定”, 光アライアンス, 9(3) (1998) 32-36.
    • 高和宏行:”光ディスク用・高速複屈折測定システムの開発”, 光アライアンス, 7(11) (1996) 40-43.
    • 高和宏行:”5.1 ガラス材料の生産技術におけるオプトメカトロニクス計測技術”, 平成5年度生産技術におけるオプトメカトロニクス計測技術に関する調査研究報告書[日機連5先端-24], 社団法人日本機械工業連合会&社団法人日本オプトメカトロニクス協会, (1994) 115-118.
    • 吉野, 築地, 高崎:”格子ホログラム型モアレトポグラフィ”, 静岡大学電子工学研究所研究報告, 11(1) (1976) 29-34.
    • 築地, 平野, 高崎:”人体計測用モアレトポグラフィ装置の試作”, 静岡大学電子工学研究所研究報告, 10(2) (1975) 61-68.