Hashimoto Osamu | Aoyama Gakuin Univ. Sagamihara‐shi Jpn
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概要
関連著者
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Hashimoto Osamu
Aoyama Gakuin Univ. Sagamihara‐shi Jpn
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HASHIMOTO Osamu
Aoyama Gakuin University
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Hashimoto O
Department Of Electrical And Electronic Engineering Aoyama Gakuin University
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Hashimoto Osamu
Department of Electrical and Electronic Engineering, Aoyama Gakuin University
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Wada K
Department Of Bioscience And Biotechnology Faculty Of Agriculture University Of The Ryukyus
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Wada K
Univ. Electro‐communications Chofu‐shi Jpn
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Wada Koji
Department Of Bioscience And Biotechnology Faculty Of Agriculture University Of The Ryukyus
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Wada Koji
Faculty Of Agriculture University Of The Ryukyus
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Wada Kouji
Aoyama Gakuin University
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Hashimoto Osamu
College Of Science And Engineering Aoyama Gakuin University
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TAKAHASHI Takeshi
TDK Corp.
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POKHAREL Ramesh
青山学院大学理工学部
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ポカレル ラメシュ
青山学院大学
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HASHIMOTO OSAMU
Department of Surgery, Yamato City Hospital
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Pokharel R
Aoyama Gakuin Univ. Sagamihara‐shi Jpn
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Pokharel R
青山学院大
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Hashimoto Osamu
Department Of Electrical Engineering And Electronics Aoyama Gakuin University
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Kurihara Hiroshi
Tdk Corporation
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Hashimoto Osamu
Department Of Applied Physics Seieki University
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ポカレル ラメシュ
Kyushu University
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Pokharel Ramesh
Aoyama Gakuin University
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WATANABE Shinya
Aoyama Gakuin University
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AIHARA Yoshiyuki
Aoyama Gakuin University
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NISHIZAWA Shinichiro
Institut fuer Hochfrequenztechnik, University of Stuttgart
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WADA Kouji
Department of Electronic, the University of Electro-Communications
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OHNO Takanobu
Department of Electrical Engineering and Electronics, Aoyama Gakuin University
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Wada Kouji
The University of Electro-Communications
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Ohno Takanobu
Department Of Electrical Engineering And Electronics Aoyama Gakuin University
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Takizawa Koji
Tdk Corporation Emc Engineering Div.
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SAITO Toshifumi
TDK Corporation
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Nishizawa S
Institut Fuer Hochfrequenztechnik University Of Stuttgart
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KAMIYAMA Tomohide
Aoyama Gakuin University
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NAKAGAWA Kouichi
Aoyama Gakuin University
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Wada Kouji
Department Of Bioscience And Biotechnology College Of Agriculture University Of The Ryukyus
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Watanabe Shinya
Nec Corp. Otsuki‐shi Jpn
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Landstorfer Friedrich
University Of Stuttgart Germany
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Landstorfer Friedrich
Institut Fuer Hochfrequenztechnik University Of Stuttgart
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Landstorfer Friedrich
Institue Fuer Hochfrequenztechnik University Of Stuttgart
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Landstorfer Friedrich
University Of Stuttgart Institute Of Radio Frequency Technology
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Landstorfer Friedrich
University Of Stuugart Germany
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Landstorfer Friedrich
Univ. Stuttgart Stuttgart Deu
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HASHIMOTO Osamu
College of Science and Technology, Aoyama Gakuin University
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Nomura Toru
Institute For Nuclear Study University Of Tokyo
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Onishi Teruo
Ntt Docomo Inc. Yokosuka‐shi Jpn
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Onishi Teruo
Ntt Docomo Inc.
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Suzuki Shinsuke
College Of Science And Engineering Aoyama Gakuin University
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WADA Kouji
College of Science and Engineering, Aoyama Gakuin University
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HASHIMOTO Osamu
the Department of Electrical and Electronic Engineering, Aoyama Gakuin University
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Shibata K
Hachinohe Inst. Of Technol. Hachinohe‐shi Jpn
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UEBAYASHI Shinji
NTT DoCoMo, Inc.
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NISHIZAWA Shinichiro
Aoyama Gakuin University
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Uebayashi Shinji
Ntt Docomo Inc.
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Wada Kouji
College Of Science And Engineering Aoyama Gakuin University
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EBARA Hidetoshi
NTT DoCoMo, Inc.
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TANI Kensuke
Aoyama Gakuin University
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Ebara Hidetoshi
Ntt Docomo Inc.:aoyama Gakuin University
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YAMAMOTO Yasuhisa
Aoyama Gakuin University
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SHIBATA Kouji
Aoyama Gakuin University
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OHNO Takanobu
Aoyama Gakuin University
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Takizawa Koji
Tdk Corporation
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POKHAREL Ramesh
Kyushu University
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Li Keren
NICT
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YAMAZAKI Toshimitsu
Department of Physics,University of Tokyo
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Li Keren
National Inst. Of Information And Communications Technol.
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Landstorfer Friedrich
University of Stuttgart
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Landstorfer Friedrich
University Of Sutttgart
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Ishihara Masayasu
Institute For Nuclear Study University Of Tokyo:(present Address) The Nieles Bohr Institute Universi
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Ishihara Masayasu
Institute For Nuclear Study University Of Tokyo
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NOMURA Toru
Department of Physics, University of Tokyo
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MIYANO Kazumasa
Department of Physics, Niigata University
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Li Keren
National Institute Of Information And Communications Technology (nict)
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Nomura Toru
Department Of Physics University Of Tokyo
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Spreitzer Wolfgang
University Of Stuttgart
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Kobayashi S
Non Destructive Evaluation And Science Research Center Faculty Of Engineering Iwate University
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Iwata Takeo
Highway Industry Development Organization
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KURIHARA Hiroshi
EMC Engineering Div., TDK Corporation
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HIRAI Yoshihito
EMC Engineering Div., TDK Corporation
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TAKIZAWA Koji
EMC Engineering Div., TDK Corporation
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Kurita Daisuke
National Institute of Information and Communications Technology
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Kurita Daisuke
National Institute Of Information And Communications Technology (nict)
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MATSUMOTO Kouta
Department of Electrical and Electronic Engineering, Aoyama Gakuin University
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SAITO Kazuhiro
Tochigi Research Laboratories of Kao Corporation
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Ikeda N
Kdd R&d Lab. Saitama Jpn
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Yamazaki Toshimitsu
Institute For Nuclear Study University Of Tokyo
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Yamazaki Toshimitsu
Department Of Physics Faculty Of Science University Of Tokyo
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HIGASHIDA Yutaka
Japan Fine Ceramics Center, JAPAN
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Komori Fumio
Institute for Solid State Physics, University of Tokyo
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Miyano Kazumasa
Department Of Physics Kyoto University
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POKHAREL Ramesh
Department of Electronics, Graduate School of Information Science and Electrical Engineering, Kyushu
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POKHAREL Ramesh
the Department of Electrical Engineering, Aoyama Gakuin University
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RUOSS Hans-Oliver
University of Stuttgart
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Fukuda Tomokazu
Institute For Nuclear Study University Of Tokyo
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Katsumoto Shingo
Department Of Physics Faculty Of Science University Of Tokyo
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Pokharel Ramesh
Department Of Electronics Graduate School Of Information Science And Electrical Eng. Kyushu Universi
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IKEHATA Seiichiro
Department of Applied Physics, Faculty of Science, Science University of Tokyo
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Soh Tetsu
Yokohama Rubber Co. Ltd.
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Shoji Hiroki
Dept. Of Endocrinology Kagawa Medical University
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Komori F
Institute For Solid State Physics University Of Tokyo:crest Japan Science And Technology Cooperation
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Komori Fumio
Department Of Physics Faculty Of Science University Of Tokyo
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Shibata Kouji
Hachinohe Institute Of Technology
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Sugino Hiromu
Inst For Enzyme Research University Of Tokushima
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Kobayashi Shun-ichi
Department Of Physics Faculty Of Science University Of Tokyo
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MIKI Daisuke
Aoyama Gakuin University
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Nishikata Atsuhiro
Tokyo Inst. Technol.
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SASAGAWA Tetsuhiro
Aoyama Gakuin University
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TANIGUCHI Akitoshi
Aoyama Gakuin University
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SAITO Kota
Aoyama Gakuin University
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Yamamoto Y
Aoyama Gakuin University
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Ikeda Nobuo
Institute For Nuclear Study University Of Tokyo
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AIHARA Yoshiyuki
Department of Electrical Engineering and Electronics, Aoyama Gakuin University
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NAKAGAWA Kouichi
Department of Electrical Engineering and Electronics, Aoyama Gakuin University
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HARADA Hieoshi
Yokogawa Denshikiki,Co.,Ltd.
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WADA Kouji
The authors are with Aoyama Gakuin University
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KAMIYAMA Tomohide
The authors are with Aoyama Gakuin University
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HASHIMOTO Osamu
The authors are with Aoyama Gakuin University
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HARADA Hiroshi
Yokogawa Denshikiki, Co., Ltd.
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Sugino Hiromu
徳島大学医学部
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Sugino Kishiko
徳島大学医学部
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Hashimoto Osamu
徳島大学医学部
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HASHIMOTO Osamu
Institute for Nuclear Study,University of Tokyo
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Ikehata Seiichiro
Department Of Physics Faculty Of Science University Of Tokyo
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Harada H
National Inst. Information And Communications Technol. Yokosuka Jpn
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SUGA Ryousuke
Aoyama Gakuin University
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Nishikata Atsuhiro
Tokyo Inst. Technol. Tokyo Jpn
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Yamazaki Toshimitsu
Department Of Physics And Meson Science Laboratory Faculty Of Science University Of Tokyo
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Suzuki Hirosuke
Keycom Corp.
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Higashida Yutaka
Japan Fine Ceramics Center
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Hirai Yoshihito
Emc Engineering Div. Tdk Corporation
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Itou Akihiko
Toppan Printing Co. Ltd.
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KAKUTA Youichi
Aoyama Gakuin University
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Watanabe S
Aoyama Gakuin University
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Nakagawa Kouichi
Department Of Dermatology Kobe University School Of Medicine
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Harada Hiroshi
Yokogawa Denshikiki Co. Ltd.
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Yokokawa Hidehiro
Aoyama Gakuin Univesity
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Hashimoto Osamu
Institute For Nuclear Study University Of Tokyo
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HANKUI Eiji
NEC Corporation, EMC Engineering Center
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NAKAMURA Tatsuya
Toda Kogyo Corporation, R&D division
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SUMI Kazutoshi
Aoyama Gakuin Univesity
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Nishikata Atsuhiro
Tokyo Inst. Of Technol.
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WATANABE Takuto
Aoyama Gakuin University
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Kobayashi Shun-ichi
Department Of Pediatrics Institute Of Health Bioscience The University Of Tokushima Graduate School
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FUKUDA Tomokazu
Institute for Nuclear Study, University of Tokyo
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KOMORI Fumio
Department of Physics, University of Tokyo
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Kobayashi Shun-ichi
Department of Functional Machinery and Mechanics, Shinshu University
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NAKAMURA Tatsuya
Toda Kogyo Corporation, R&D division
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Nakagawa Kouichi
Department of Chemistry, Boston University
著作論文
- The g Factor of the 8^+ State in ^Sr
- An Improvement of Communication Environment for ETC System by Using Transparent EM Wave Absorber(Electromagnetic Theory)
- Transmission Characteristics of an MSL which has Arranged the Dielectric Rods Periodically Inside the Dielectric Substrate
- A Study on Transmission Characteristics of Periodic Structures Using Cylindrical Dielectric Materials in Microwave Band
- Non-destructive Dielectric Measurement of Solid Lossy Dielectric Material Using Open-Ended Waveguide Infilled with Low-Loss Dielectric Material(Near-/Far-Field EM Absorption and Shielding)
- Method for Estimating Complex Permittivity Based on Measuring Effective Permittivity of Dielectric Mixtures in Radio Frequency Band(Biological Effects, 2004 International Symposium on Electromagnetic Compatibility)
- Magnetic Field and Dosimetric Study at Intermediate Frequency Range Using the Coil Source Model(Electromagnetic Theory)
- Study of the Magnetic Field Properties around Household Appliances Using Coil Source Model as Prescribed by the European Standard EN50366(Electromagnetic Theory)
- Realization of Attenuation Poles, Spurious Resonance Suppression and Size Reduction by Microstrip SIR Loaded with Dielectric Rods(Devices, Wireless Technologies and Computational Electromagnetics)
- Out-of-Band Improvement by Microstrip Line BPFs with Multiple Attenuation Poles in Stopband Using Various Conditions of Coupling Length of Partially Coupled-Line Section(Resonators & Filters, Recent Technologies of Microwave and Millimete
- C-2-83 Experimental Study on LTCC Resonators Loaded with Dielectric Rods(C-2. マイクロ波B(受動デバイス), エレクトロニクス1)
- A Method for LTCC Resonators to Realize Improved-Resonant Characteristics on Reduced-Size Microstrip Structure(Components and Devices)(Wave Technologies for Wireless and Optical Communications)
- C-2-80 Resonant Characteristics of Tapped Resonators Loaded with Dielectric Rods
- Induced Current Density in the Human Body Using Equivalent Sources for Low-Frequency Inhomogeneous Fields
- Study on the Temperature Limitation of the Injecting Power to a Pyramidal EM-Wave Absorber
- Computer Simulation about Temperature Distribution of an EM-Wave Absorber Using a Coupled Analysis Method
- Investigation on EM Wave Absorbers by Using Resistive Film with Capacitive Reactance(Electronic Materials)
- B-4-33 Study on Suppression of Scattering Waves from a Thin Wire Coated with Lossy Dielectric Material by Method of Moments(B-4. 環境電磁工学, 通信1)
- Design of Bandpass Filters with a Function to Control the Number of Attenuation Poles(Special Issue on Signals, Systems and Electronics Technology)
- Measurement of Complex Permittivity for Liquid Phantom by Transmission Line Method Using Coaxial Line(General Methods, Materials, and Passive Circuits)(Advances in Characterization and Measurement Technologies for Microwave and Millimeter
- Location of Multiple Transmission Zeros by Tap-Coupling Technique for Bandpass Filters and Duplexers Using Short-Ended λ/2 Resonators(Passive(Filter))(Recent Trends on Microwave and Millimeter Wave Application Technology)
- Realization of Low Spurious Responses by Various Bandpass Filters Using Open-Ended λ/2 Resonators(Passive(Filter))(Recent Trends on Microwave and Millimeter Wave Application Technology)
- Location of Multiple Transmission Zeros by Tap-Coupling Technique for Bandpass Filters and Duplexers Using Short-Ended λ/2 Resonators
- A Class of a Planar Duplexer Consisting of BPFs with Attenuation Poles Designed by Manipulating Tapped Resonators(Special Issue on Microwave and Millimeter Wave Technology)
- New Tapped Distributed Constant Bandpass Filters with Manipulation of Attenuation Pole Arrangement
- An Empirical Study of a Coplanar Bandpass Filter with Attenuation Poles Using Short-Ended Half-Wavelength Resonators
- An Effective Method for Designing Bandpass Filters Using λ/4 Resonators for Improving Out-of-Band Characteristics
- Technique for Improving Out-of-Band Characteristics of Planar Microwave Filters Using Tapped Resonators
- Estimation of Complex Permittivity Using Rectangular Waveguide with Flange by FDTD Method
- Follistatin and its role as an activin-binding protein
- Near-Field Shielding Effect of Oval Human Model for Dipole Antenna Using High-Loss Dielectric and Magnetic Materials
- An Ultra-Wideband (UWB) Bandpass Filter Using Broadside-Coupled Structure and Lumped-Capacitor-Loaded Shunt Stub Resonators(Passive Devices/Circuits,Microwave and Millimeter-Wave Technology)
- Bandpass Filters Using Tunable Half-Wavelength Resonators with Transmission Zeros(Recent Trends of Microwave and Millimeter-Wave Passive Circuit Components and Technologies for Improvement of Characteristics)
- Application of In-Beam Perturbed Angular Distribution to the Study of High-T_c Oxides
- Free Space Measurement Method with Parallel Electromagnetic Wave Beam by Using Dielectric Lenses and Horn Antennas for Reflectivity of Electromagnetic Absorbers in Millimeter Waves(Near-/Far-Field EM Absorption and Shielding)
- Analysis of Error Due to Exclusion of Higher Modes on Complex Permittivity Measurement Using Waveguide with Flange(Microwaves, Millimeter-Waves)
- Fundamentals of Open-Ended Resonators and Their Application to Microwave Filters
- Analysis of Absorbing Characteristics of One-Layer EM-Absorber Using CIP Method(Near-/Far-Field EM Absorption and Shielding)
- Low Loss Magnetic Plate Application for Increasing Radiation Efficiency of Cellular Telephones
- A Fundamental Study of a Thin Thickness λ/4 Wave Absorber Using FSS Technology (IEICE Trans., Vol. J86-B, No.5 in Japanese)
- Reactive Near-field to Far-field Transformation at 30 to 150MHz