Shimizu Yasutaka | Cradle Tokyo Institute Of Technology
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概要
関連著者
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Shimizu Yasutaka
Cradle Tokyo Institute Of Technology
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Shimizu Yasutaka
CRADLE, Tokyo Institute of Technology
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Murota Masao
CRADLE, Tokyo Institute of Technology
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Murota Masao
Cradle Tokyo Institute Of Technology
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Nishikata Atsuhiro
Cradle Tokyo Institute Of Technology
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Irino Toshio
Cradle Tokyo Institute Of Technology
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Tonami Shigetaka
Cradle Tokyo Institute Of Technology
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NISHIKATA Atsuhiro
CRADLE, Tokyo Institute of Technology
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YAMAMOTO Kouichi
CRADLE, Tokyo Institute of Technology
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Shimizu Yasutaka
Graduate School Of Decision Science And Technology Tokyo Institute Of Technology
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SATO Takashi
CRADLE, Tokyo Institute of Technology
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Taki K
Tokyo Inst. Technology Tokyo Jpn
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NAKAYAMA Minoru
CRADLE, Tokyo Institute of Technology
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Nakayama Minoru
Cradle Tokyo Institute Of Technology
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TAKI Kouji
CRADLE, Tokyo Institute of Technology
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Shimizu Y
Osaka Univ. Osaka Jpn
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Taki Kouji
Cradle Tokyo Institute Of Technology
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MOCHIDA Norihiko
Miyazaki Akae Secondary School
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FUKUZOE Seiichi
Nobeoka Hitotsugaoka Elementary School
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TONAMI Shigetaka
CRADLE, Tokyo Institute of Technology
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Yamamoto Kouichi
Cradle Tokyo Institute Of Technology
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USUKI Tatsuro
New Materials Research Center, SANYO Electric Co., Ltd.
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SHIBATA Kenichi
New Materials Research Center, SANYO Electric Co., Ltd.
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入野 俊夫
日本電信電話株式会社nttコミュニケーション科学基礎研究所
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Takeuchi K
Riken (the Institute Of Physical And Chemical Research)
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Murota M
Tokyo Inst. Technol. Tokyo Jpn
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Usuki T
Sanyo Electric Co. Ltd. Osaka Jpn
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Usuki T
New Materials Research Center Sanyo Electric Co. Ltd.
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Usuki Tatsuro
New Materials Research Center Sanyo Electric Co. Ltd.
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Kobayashi Y
Tokai Univ. Kanagawa Jpn
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Kobayashi Y
Ntt Basic Research Lab. Kanagawa
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Kobayashi Y
Matsushita Electric Industrial Co. Ltd. Kyoto Jpn
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Takeuchi K
Greduate School Of Science And Engineering Saitama University:riken (the Institute Of Physical And C
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Shimizu Y
Tokyo Inst. Technol. Tokyo Jpn
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Shimizu Y
Cradle Tokyo Institute Of Technology
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Shibata K
New Materials Research Center Sanyo Electric Co. Ltd.
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Kangawa Yoshihiro
Department Of Applied Chemistry Tokyo University Of Agriculture And Technology
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Shibata Kenichi
New Material Research Center Sanyo Electric Co. Ltd.
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Kobayashi Y
Department Of Nuclear Engineering Graduate School Of Engineering
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KOBAYASHI Yasumi
New Materials Research Center, SANYO Electric Co., Ltd.
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Takeuchi Kousuke
New materials Research Center, SANYO Electric Co., Ltd.
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HIRAO Yasuhiro
New Materials Research Center, SANYO Electric Co., Ltd.
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Irino T
Tokyo Inst. Technology Tokyo Jpn
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Shimizu Y
Keio Univ. Yokohama Jpn
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Teraishi Kazuo
Department Of Materials And Chemistry Graduate School Of Engineering Tohoku University
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Uehara M
Matsushita Techno‐res. Co. Ltd. Osaka Jpn
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Hirao Yasuhiro
New Materials Research Center Sanyo Electric Co. Ltd.
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Watanabe Takaya
Nippon Electric Corporation
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Watanabe Takaya
Nec Corporation
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ENDO Yousuke
CRADLE, Tokyo Institute of Technology
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Tanaka Masafumi
Cradle Tokyo Institute Of Technology
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Endo Yousuke
Cradle Tokyo Institute Of Technology
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UEHARA Michihiro
CRADLE, Tokyo Institute of Technology
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Nishikata Atsushi
Cradle Tokyo Institute Of Technology
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Tonami S
Tokyo Inst. Technol. Tokyo Jpn
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Shimizu Tohru
Cradle Tokyo Institute Of Technology
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OZAWA Hidetaka
CRADLE, Tokyo Institute of Technology
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Ozawa Hidetaka
Cradle Tokyo Institute Of Technology
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Nishikata Atsuhiro
CRADLE, Tokyo Institute of Technology, Tokyo 152, Japan
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Tonami Shigetaka
CRADLE, Tokyo Institute of Technology, Tokyo 152, Japan
著作論文
- Effects of a thin aluminum plate on the characteristics of leaky surface waves propagating on Li__2B__4O__7 substrate
- Characteristics of Leaky Surface Waves Propagating on LiTaO_3 Substrate : SAW and Communication Device
- Elastic Constants and Temperature Coefficients of LiTaO_3 for SAW Application : SAW and Communication Devices
- Characteristic of Leaky Surface Waves Propagating on Li_2B_4O_7 substrate with a Thin Aluminum Plate : SAW and Communication Devices
- Characteristics of Leaky Surface Wave Propagating on Li_2B_4O_7 Substrate : SAW and Communication Devices
- Characteristics of Surface Acoustic Waves Propagating on Bi_GeO_ Substrate : SAW and Communication Devices
- Characteristics of Rayleigh and Leaky Surface Acoustic Wave Propagating on a La_3Ga_5SiO_ Substrate
- New High-Phase-Velocity Leaky Surface Acoustic Wave Mode on LiTaO_3 and LiNbO_3
- Characteristics of Surface Acoustic Waves Propagating on a La_3Ga_5SiO_ Substrate
- Material Constants of LiTaO_3 Determined from Surface Acoustic Wave Velocities
- Leaky Surface Wave Propagating on LiTaO_3 Substrate : SAW and BAW Materials, Devices and Theories
- Accuracy of Surface Acoustic Wave Velocity Measured to Determine the Elastic Constants on LiTaO_3 Substrate
- A Study on Measuring Techniques of Phase Velocities of Surface Acoustic Waves
- Zero Slope Temperature SiC/SiO_2/LiTaO_3 Substrate for Boundary Acoustic Waves : SAW and Communication Devices
- Acoustic Boundary Waves Propagating along a Thin Layer between Two Bounded Substrates : SAW and Communication Devices
- Stoneley Waves Propagating along an Interface between Piezoelectric Material and Glass : Surface Acoustic Waves and Devices
- Leaky Surface Wave on Quarts and a New Cut with Extremely Small Temperature Coefficient : SAW and Communication Devices
- An Experiment on Presentation Effectiveness of Texts and Summaries
- An Experiment on Presentation Effectiveness--The Effectiveness of Texts and Summaries
- Analysis of Leaky Surface Acoustic Waves Propagating on Piezoelectric Substrates of Finite Thickness
- The Second-Order Temperature Coefficient of Surface Wave Propagating on Quartz Substrate with Arbitrary Cuts : SAW and Communication Devices
- Characteristics of Leaky Surface Acoustic Waves Propagating on LiNbO_3 and LiTaO_3 Substrates
- SAW Propagation Characteristics of Piezoelectric Ceramics Polarized in an Arbitrary Direction : SAW and Communication Devices
- A Theoretical Study of the Characteristics of Leaky-Surface-Acoustic-Wave Filters with Propagation Loss by an Equivalent Circuit Model : SAW and BAW Materials, Devices and Theories
- Analysis of Leaky Surface Acoustic Waves Propagating on Piezoelectric Substrates of Finite Thickness