WATANABE Hiroshi | Fukushima National College of Technology
スポンサーリンク
概要
関連著者
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WATANABE Hiroshi
Fukushima National College of Technology
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Ishikawa T
Japan Aerospace Exploration Agency (jaxa)
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Saito Hironobu
Fukushima Toyo Communication Equipment Co. Ltd.
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SAITO Hisao
NTT Basic Research Laboratories
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Ishida Takanori
Fukushima National College Of Technology
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Shimizu Hirofumi
High-technology Research Center And Faculty Of Engineering Kansai University
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Shimizu Hirofumi
Semiconductor And Integrated Circuits Division Hitachi Ltd.
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SHIMIZU Hiroshi
Aomori University
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Saito H
Nec Corp. Ibaraki Jpn
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Watanabe Hiroshi
Super-fine Sr Lithography Laboratory Association Of Super-advanced Electronics Technologies(aset) At
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Katayose Yuichi
Fukushima National College Of Technology
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ISHIKAWA Toshihiro
Research & Development Unit, Tokin Co.,
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ABE Hiroshi
Research & Development Unit, Tokin Co.,
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MIYAZAKI Noriko
R&D Center, Tokin Co
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Watanabe H
Tokyo Univ. Pharmacy And Life Sci. Tokyo Jpn
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SAITO Hideaki
Laser Laboratory, Second Research Center, TRDI, Japan Defense Agency
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ABE Hiroshi
R&D Center, Tokin Corporation
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Watanabe H
Diamond Research Center National Institute Of Advanced Industrial Science And Technology (aist)
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Shimizu H
High-technology Research Center And Faculty Of Engineering Kansai University
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Katayose Yuichi
Fukushima National College of Technology, Iwaki, Fukushima 970-8034, Japan
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Ishikawa Toshihiro
Research & Development Unit, Tokin Co., Koriyama, Taihaku-ku, Sendai 982-8510, Japan
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Ishida Takanori
Fukushima National College of Technology, Iwaki, Fukushima 970-8034, Japan
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Miyazaki Noriko
R&D Center, Tokin Co., 398 Shibokuchi Takatsu-ku Kawasaki, Kanagawa 213, Japan
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Yoshida Tetsuo
R&D Center, Tokin Co., 398 Shibokuchi Takatsu-ku Kawasaki, Kanagawa 213, Japan
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Ishikawa Toshihiro
R&D Center, Tokin Co., 398 Shibokuchi Takatsu-ku Kawasaki, Kanagawa 213, Japan
著作論文
- Analysis of the Thickness Edge Mode in Piezoelectric Plates and Its Application to Resonators
- Edge Mode Vibrator Using Piezoelectric Ceramic Bar with Stepped End and Its Application in Sensor for Detecting Hardness
- Optimum Electrode Design for Effective Excitation of the Edge Mode by Taking Account of Its Electric Potential Distribution : SAW and Communication Device
- Vibration Analysis of Thickness-Shear-Mode Trapped-Energy Resonators Excited by Parallel Electric Field
- Trapped Energy Gyroscopes Using Thickness Shear Vibrations in a Partially Polarized Piezoelectric Ceramic Plate
- Edge Mode Vibrator Using Piezoelectric Ceramic Bar with Stepped End and Its Application in Sensor for Detecting Hardness
- Vibration Analysis of Thickness-Shear-Mode Trapped-Energy Resonators Excited by Parallel Electric Field
- Trapped Energy Gyroscopes Using Thickness Shear Vibrations in a Partially Polarized Piezoelectric Ceramic Plate