大里 齊 | 名古屋工大 大学院
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概要
関連著者
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大里 齊
名古屋工大 大学院
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OHSATO Hitoshi
Department of Materials Science and Engineering Institute of Nagoya Institute of Technology
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大里 齊
名工大
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Ohsato Hitoshi
Department Of Materials Science And Engineering Graduate School Of Engineering Nagoya Institute Of T
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Okuda T
Nagoya Inst. Of Technol. Nagoya‐shi
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Okuda T
Isinomaki Senshu Univ. Ishinomaki‐shi Jpn
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OKUDA Takashi
Department of Insect Physiology and Behavior, National Institute of Sericultural and Entomological S
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Okuda T
National Inst. Agrobiological Sci.
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Okuda Takashi
Department Of Applied Information Science And Technology Faculty Of Information Science And Technolo
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杉村 隆
名古屋工業大学材料工学科
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OGAWA Hirotaka
Faculty of Science and Technology, Meijo University, JAPAN
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Nishigaki S
Kyushu Inst. Technol. Kitakyushu Jpn
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Kishi Hiroshi
Taiyo Yuden Co. Ltd.
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KAN Akinori
Faculty of Science and Technology, Meijo University, JAPAN
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杉村 隆
名古屋工業大学
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大里 齊
名古屋工業大学物質工学専攻
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大里 齊
名古屋工業大学
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Koike H
Nec Corp. Kanagawa Jpn
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Kishi H
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Kishi Hiroshi
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Kishi Hiroshi
General R&d Laboratories Toiyo Yuden Co. Ltd.
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Kishi Hiroshi
The School Of Science And Engineering Waseda University
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OHSATO Hitoshi
Nagoya Institute of Technology, Department of Materials Science and Engineering
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NISHIGAKI Susumu
Daiken Chemical Co., Ltd.
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Ogawa Hirotaka
Faculty Of Engineering Meijo University
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KAKIMOTO Ken-ichi
Department of Urology, Osaka Medical Center for Cancer and Cardiovascular diseases
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KAKIMOTO KENICHI
Department of Urology, Osaka Kosei-Nenkin Hospital
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MASUDA Izumi
Department of Materials Science and Engineering, Nagoya Institute of Technology
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Kan Akinori
Department Of Sensory And Motor System Medicine Faculty Of Medicine University Of Tokyo
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Kan Akinori
Faculty Of Science And Technology Meijo University
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大里 斉
名古屋工業大学無機材料工学科
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Mizuta Masashi
Department Of Physics And Electronics Faculty Of Engineering Osaka Prefecture University
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Mizuta Masashi
Fundamental Research Laboratries Nec Corporation
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MIZUNO Youichi
General R&D Laboratories, TAIYO YUDEN Co., Ltd.
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HAGIWARA Tomoya
General R&D Laboratories, TAIYO YUDEN Co., Ltd.
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KOHZU Noriyuki
General R&D Laboratories, Taiyo Yuden Co., Ltd.
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KAKIMOTO Kenichi
Nagoya Institute of Technology, Department of Materials Science and Engineering
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Kohzu Noriyuki
General R & D Laboratories Taiyo Yuden Co. Ltd.
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MIZUTA Makoto
Department of Materials Science and Engineering, Nagoya Institute of Technology
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IGUCHI Yoshiaki
General R&D Laboratories, Taiyo Yuden Co., Ltd.
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Iguchi Y
Waseda Univ. Tokyo Jpn
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SUGINO Junichi
Department of Material Science and Engineering, Nagoya Institute of Technology
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Sugino Junichi
Department Of Material Science And Engineering Nagoya Institute Of Technology
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Mizuta Masashi
Imaging Science And Engineering Lab. Tokyo Institute Of Technology
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大里 斉
名古屋工業大学
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小川 宏隆
名城大学 理工学部
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Kato Hiromichi
Department of Agricultural Chemistry, The University of Tokyo
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Watanabe M
Hiroshima Univ. Higashi‐hiroshima Jpn
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Kato H
Photon Factory High Energy Accelerator Research Organization
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Kato Hiroo
Institute Of Material Structure Science High Energy Accelerator Research Organization
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Kato H
Saitama University
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Kato Hiromichi
Department Of Agricultural Chemistry The University Of Tokyo
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Kato Hiromichi
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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小川 宏隆
名城大学理工学部交通科学科
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菅 章紀
名城大
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Watanabe Mahiko
Department Of Applied Physics And Chemistry Faculty Of Engineering Hiroshima University
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柿本 健一
名工大
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Kato Hisayuki
Semiconductor Design & Development Center Hitachi Ltd.
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YOKOI Atsushi
Faculty of Science and Technology, Meijo University, JAPAN
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MIYAUCHI Yasuharu
Materials Research Center, TDK Co.
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KIRIANOV Andrei
Department of Material Science and Engineering, Nagoya Institute of Technology
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遠藤 真生
名古屋工業大学材料工学科:(現)豊田自動車(株)
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Watanabe Masahiro
Faculty of Science and Engineering, Meijo Unviersity
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Kato H
Department Of Mechanical And Intelligent Engineering Graduate School Of Engineering Utsunomiya Unive
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Imaeda M
Ngk Insulators Ltd. Nagoya Jpn
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Mizuno Youichi
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Ohsato Hitoshi
Materials Sci. And Engineering Nagoya Inst. Of Technol.
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IMAEDA Motoaki
Department of Materials Science and Engineering, Nagoya Institute of Technology
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OHHASHI Toshiyuki
Department of Materials Science and Engineering, Nagoya Institute of Technology
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NISHIGAKI Susumu
Sumitomo Metal Ceramics Inc.
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KAKIMOTO Ken-ichi
Materials Science and Engineering, Nagoya Institute of Technology
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Hagiwara Tomoya
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Kirianov Andrei
Department Of Material Science And Engineering Nagoya Institute Of Technology
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GUO Yiping
Materials Science and Engineering, Graduate School of Engineering, Nagoya Institute of Technology
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KOMURA Atsushi
Department of Materials Science and Engineering, Nagoya Institute of Technology
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Komura Atsushi
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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Mizuno Y
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Watanabe Masahiro
Faculty Of Environmental Earth Science Hokkaiod University:center For Climate System Research The University Of Tokyo
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西 文人
埼玉工大
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工藤 康弘
東北大・院理
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山口 洋之
名古屋工業大学無機材料工学科 : (現)明智耐火煉瓦(株)
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奥田 高士
名古屋工業大学工学部
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工藤 康弘
東北大学大学院理学研究科
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KATO Makoto
Department of Neurosurgery, Narita Red Cross Hospital
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Suzuki Shinya
Department of Clinical Epidemiology & Systems, The University of Tokyo
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渡辺 正裕
東京工業大学大学院総合理工学研究科
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西垣 進
大研化学工業(株)
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水田 誠
名古屋工業大学材料工学科
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生駒 貴志
名古屋工業大学材料工学科
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小野木 善也
名古屋工業大学材料工学科
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奥田 高士
名古屋工業大学材料工学科
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牧 巌
名古屋工業大学
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牧 巌
名古屋工大 工
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光松 正人
名古屋工業大学
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奥田 章二
名古屋工業大学材料工学科
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Takagi Yuji
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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Kato Makoto
Department Of Internal Medicine The Cardiovascular Institute
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OKAWA Takashi
Daiken Chemical Co.
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IMAEDA Masaki
Department of Materials Science and Engineering Institute of Nagoya Institute of Technology
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遠藤 真生
名古屋工業大学材料工学科
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伊藤 憲治
日本特殊陶業(株)
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金重 利彦
名古屋工業大学無機材料工学科
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中井 雄吉
名古屋工業大学
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Wada Kensuke
Department Of Physics Tokyo Institute Of Technology
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森 克宏
名城大
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WUNDERLICH Wilfried
Nagoya Institute of Technology; Ceramic Research Laboratory
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ISHIHARA Soichi
Faculty of Science and Technology, Meijo University
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Ishihara Soichi
Faculty Of Science And Teclmology Meijo University
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Ishihara Soichi
Faculty Of Science And Engineering Meiji University
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西 文人
埼玉工業大学電子工学科
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OHISHI Yoshihiro
Department of Anatomic Pathology, Kyushu University Graduate School
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Watanabe M
Nec Corp. Ibaraki Jpn
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MORITA Koichiro
General R&D Laboratories, TAIYO YUDEN Co., Ltd.
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OHNUMA Kenji
Graduate School of Engineering Department of Materials Science and Engineering, Nagoya Institute of
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OHSATO Hitoshi
Graduate School of Engineering Department of Materials Science and Engineering, Nagoya Institute of
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OKINO Yoshikazu
General R&D Laboratories, Taiyo Yuden Co., Ltd.
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HIGASHIDA Yutaka
Japan Fine Ceramics Center, JAPAN
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OHISHI Yoshihiro
Nagoya Institute of Technology, Department of Materials Science and Engineering
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TSUNOOKA Tsutomu
Department of Materials Science and Engineering, Nagoya Institute of Technology
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SUGIYAMA Tomonori
Department of Materials Science and Engineering, Nagoya Institute of Technology
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CHO Won
Department of Materials Science and Engineering, Nagoya Institute of Technology
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TAKETANI Hidekazu
Faculty of Science and Technology, Meijo University
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ARAKI Nobukazu
Nagoya Institute of Technology
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IWATAKI Tsuyoshi
Nagoya Institute of Technology
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KURIBAYASHI Takahiro
Tohoku University
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KUDOH Yasuhiro
Tohoku University
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MORIKOSHI Hiroki
Materials Reserch Center, TDK Co.
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OHNUMA Kenji
Nagoya Institute of Technology, Department of Material Science
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OZAKI Nobutaka
Nagoya Institute of Technology, Department of Material Science
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YOKOYAMA Y.
Nagoya Institute of Technology, Department Material Science
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NISHIGAKI Susumu
Robert Bosch GmbH
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MIZUNO Youichi
Taiyo Yuden Co. Ltd., Material Development, General Research and Development Laboratories
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HAGIWARA Tomoya
Taiyo Yuden Co. Ltd., Material Development, General Research and Development Laboratories
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KIRIANOV Andrei
Nagoya Institute of Technology, Department of Material Science and Engineering
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大沼 健二
名工大
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尾崎 靖尚
名工大
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増田 いづみ
名工大
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伊藤 進朗
名工大
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OZAKI Nobutaka
Department of Material Science and Engineering, Nagoya Institute of Technology
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SUGISHITA Junji
Faculty of Science and Technology Meijo University
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Hatanaka Shigeru
Faculty of Science and Engineering, Meijo Unviersity
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HUMPHREYS Colin
Department of Materials Science and Metallurgy, University of Cambridge
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Sugishita Junji
Faculty Of Science And Engineering Meijo University
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Ohnuma Kenji
Graduate School Of Engineering Department Of Materials Science And Engineering Nagoya Institute Of T
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Masuda Izumi
Department Of Materials Science And Engineering Graduate School Of Engineering Nagoya Institute Of T
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Ito Kiichiro
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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Ozaki Nobutaka
Department Of Material Science And Engineering Nagoya Institute Of Technology
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Ozaki Nobutaka
Department Of Material Science And Chemistry Faculty Of Systems Engineering Wakayama University
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Ohsato Hitoshi
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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HONDA Mutsumi
General R&D Laboratories, Taiyo Yuden Co., Ltd.
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TAKAHASHI Yoshinao
Department of Material Science and Engineering, Nagoya Institute of Technology
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Humphreys Colin
Department Of Materials Science And Metallurgy University Of Cambridge
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金重 利彦
名古屋工業大学無機材料工学科 : (現)品川白煉瓦(株)科学研究所
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光松 正人
名古屋工業大学材料工学科
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ITO Shinro
Department of Materials Science and Engineering, Nagoya Institute of Technology
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Ito Shinro
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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UENOYAMA Koji
Department of Materials Science and Engineering, Nagoya Institute of Technology
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OHSATO Hiroshi
Department of Materials Science and Engineering, Nagoya Institute of Technology
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Komura Atushi
Department of Materials Science and Engineering, Nagoya Institute of Technology
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SUMIYA Kazuhiko
Department of Materials Science and Engineering, Nagoya Institute of Technology
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Morita Kouhei
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Uenoyama Koji
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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Honda Mutsumi
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Kakimoto Ken-ichi
Department Of Material Science And Engineering Faculty Of Engineering Nagoya Institute Of Technology
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Kakimoto Ken-ichi
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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Kato Makoto
Department Of Material Science And Engineering Nagoya Institute Of Technology
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Kato Makoto
Department Of Geology And Mineralogy Faculty Of Science Hokkaido University
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Suzuki Shinya
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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Okino Yoshikazu
General R&d Laboratories Taiyo Yuden Co. Ltd.
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Hatanaka Shigeru
Faculty Of Science And Engineering Meijo Unviersity
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Sumiya Kazuhiko
Department Of Materials Science And Engineering Nagoya Institute Of Technology
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Suzuki Shinya
Department Of Chemistry Faculty Of Science Toho University
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Takahashi Yoshinao
Department Of Material Science And Engineering Nagoya Institute Of Technology
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Suzuki Shinya
Department Of Cardiology Cardiovascular Institute
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Morita Koichiro
General R&D Laboratories, TAIYO YUDEN Co., Ltd.
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西 文人
埼玉工業大学
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奥田 高士
名古屋工業大学
著作論文
- タングステンブロンズ型Ba_R_Ti_O_(R=La, Pr, Nd及びSm)固溶体におけるマイクロ波誘電特性
- K-Al-プリデライト(K_xAl_xTi_O_)の生成域
- Microwave Dielectric Properties of Bi-Added Ba_4Nd_Ti_O_ Solid SoIutions
- cryptomelane の生成領域とカリウムの溶出
- 溶質反応生成型フラックス法によるZnO単結晶の合成(3. 液相反応法)(新技術によるセラミックスの合成と評価(II))
- 溶質反応生成型フラックス法によるZnO単結晶の合成 (新技術によるセラミックスの合成と評価-2-) -- (液相反応法)
- MnO_2-BaMnO_3系の相関係と合成ホンダイトBa_xMn_8O_16(1. 23
- カリウムの充てん率の異なるクリプトメレーンの合成と加熱による相変化
- 3NaF・AlF_3-TiO_2系融合体から晶出したブロンズの化学組成, 形態, 光学的性質及び加熱変化
- EPMAによるソ-ダ・石灰珪酸塩の定量分析
- ZnO-Al_2O_3-SiO_2系ガラスから析出する準安定Indialite
- 3E09 ゾルゲル法による Y_2O_3-BaO-CuO 系マイクロ波誘電体セラミックスの微構造
- 3E08 R_2O_3-BaO-ZnO(R=rare-earth) 系セラミックスのマイクロ波誘電特性
- Relationship between Microstructural Evolution and Electrical Properties in Ba(Ti, Zr)O_3-Based Materials for Ni-MLCC
- 24-P-21 Use of LiF to Achieve a Low-Temperature Co-Fired Ceramics (LTCC) with Low Dielectric Loss
- 24-P-13 Controlled tf of (1-x)Al_2O_TiO_2 Microwave Dielectric Ceramics
- 24-P-12 Zero Temperature Dependence of tf and Sinterability of High-Q Forstrite Ceramics with Addition of Rutile
- 24-P-07 Microwave Dielectric Properties of (1-x)MgTiO_SrTiO_3 Ceramics
- 24-P-06 Phase Transition and Microwave Dielectric Properties of Nd_2Ba(Cu_Zn_x)O_5 (x=0 to 0.55) by Zn Substitution for Cu
- 24-O-05 Effect of Grain Orientation on Microwave Dielectric Properties of Ba_4Sm_Ti_O_ Ceramics
- 24-I-01 Correlationship of Site Occupancies of Cations and Microwave Dielectric Properties in Tungstenbronze-Type like Ba_R_Ti_O_ Solid Solutions
- 21-P-19 Crystallographical Investigation on Piezoelectricity of Langasite Crystal under High-Pressure
- 21-P-17 Crystallographic Study on Sm Doped BaTiO_3
- 09-P-15 Electric Resistance of Rare Earth Ruthenate Phases Bi_RE_xRu_2O_7 Predicted by DvXα Calculations and Experimental Confirmation
- 06-P-22 Ferroelectric Property and Crystal Structure of (K_La_x)(Nb_Fe_x)O_3 Lead-Free Piezoceramics
- 06-O-23 Influence of the Milling Process on Microstructure and Electrical Properties for BaTiO_3-Based Ni-MLCC
- 結晶構造
- Effect of Ho/Mg Ratio on Formation of Core-shell Structure in BaTiO_3 and on Dielectric Properties of BaTiO_3 Ceramics
- 2L08 チタン酸バリウムへの Sm の固溶状態の解析
- 1L16 LPE 法による KNbO_3 薄膜の合成
- Studies on the Solid Solution of Mn in BaTiO_3
- Synthesis and crystal structure-microwave dielectric property relations in Sn-substituted Ca3(Zr1-xSnx)Si2O9 solid solutions with cuspidine structure (Special issue: Ferroelectric materials and their applications)
- Microwave Dielectric Properties of Perovskite-Like Structured Ba8Ta6(Ni1-xMx)O24 (M=Co, Cu, and Zn) Solid Solutions (Special Issue: Ferroelectric Materials and Their Applications)
- Low-Temperature Sintering and Microstructure of Mg_4(Nb_V_x)0_9Microwave Dielectrc Ceramic by V Substitution for Nb
- Microwave Dielectric Characteristics of Y_2BaZnO_5 Ceramics with Sm Substitution for Y
- Influence of M (M = Zn and Ni) Substitution for Cu on Microwave Dielectric Characteristics of Yb_2Ba(Cu_M_x)O_5 Solid Solutions
- Microwave Dielectric Properties and Crystal Structure of Y_2(Ba_Sr_x)(Cu_Zn_y)O_5 Solid Solutions Synthesized by a Solid-State Reaction Method
- Microwave Dielectric Properties of Sm_2Ba(Cu_Zn_x)O_5(x = 0 to 1) Solid Solutions
- Microwave Dielectric Properties of Y_2Ba(Cu_Zn_x)O_5 Solid Solutions
- Microwave Dielectric Properties of Ba_Sm_Ti_O_ Solid Solutions with Sr Substituted for Ba
- The Effect of MgO and Rare-Earth Oxide on Formation Behavior of Core-Shell Structure in BaTiO_3
- Microwave Dielectric Properties of the Ba_(Sm_, R_y)_Ti_O_(R=Nd and La) Solid Solutions with Zero Temperature Coefficient of the Resonant Frequency
- Microwave Dielectric Properties and Structure of the Ba_Sm_Ti_O_ Solid Solutions
- Study of Occupational Sites and Dielectric Properties of Ho-Mg and Ho-Mn Substituted BaTiO_3
- Effect of Occupational Sites of Rare-Earth Elements on the Microstructure in BaTiO_3
- Phase transitional behavior and piezoelectric properties of (Na0.5K0.5)NbO3-LiNbO3 ceramics (第28回エレクトロセラミックスセミナー フロンティア 高温電子セラミックス--パワーエレクトロニクス、エネルギーシステムの革新) -- (無鉛ペロブスカイトの高温材料化とその応用)
- Solid-Solution Structure and Piezoelectric Property of KNbO_3 Ceramics Doped with Small Amounts of Elements
- Structure and Electrical Properties of Lead-Free (Na_K_)NbO_3-BaTiO_3 Ceramics
- Controlled Temperature Coefficient of Resonant Frequency of Al_2O_3-TiO_2 Ceramics by Annealing Treatment
- Microwave Dielectric Properties of Ba_Sm_Ti_O_ (x=2/3) Ceramics Produced by Spark Plasma Sintering
- Ferroelectric and Piezoelectric Properties of KNb0_3 Ceramics Containing Small Amounts of LaFe0_3
- Growth Morphology and Crystal Orientation of KNbO_3 Film on SrTiO_3 by Liquid Phase Epitaxy
- Formation of Tungsten Bronze-Type (Ba_Sm_)_αTi_Al_yO_ (α=1+y/36) Solid Solutions and Microwave Dielectric Properties
- Microwave Dielectric Properties of Ba_4(Nd_R_y)Ti_O_ (R = Eu, Dy, Ho, Er and Yb) Solid Solutions
- Microwave Dielectric Properties and Sintering of Ba_R_Ti_O_ (R = Sm,x = 2/3) Solid Solution with Added Rutile
- Formation of Solid Solutions of New Tungsten Bronze-Type Microwave Dielectric Compounds Ba_R_Ti_O_ (R=Nd and Sm, 0≤r≤1)
- Superlattice and Dielectric Properties of BaO-R_2O_3-TiO_2(R=La, Nd and Sm) Microwave Dielectric Compounds