SHIOTA Fuyuhiko | Faculty of Engineering, University of Tokyo
スポンサーリンク
概要
関連著者
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SHIOTA Fuyuhiko
National Research Laboratory of Metrology (NRLM)
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SHIOTA Fuyuhiko
Faculty of Engineering, University of Tokyo
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Fujii Yusaku
National Research Laboratory Of Metrology (nrlm)
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Fujii Yoshio
National Research Laboratory Of Metrology (nrlm)
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Miki Y
National Research Laboratory Of Metrology (nrlm)
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Shiota F
National Research Laboratory Of Metrology (nrlm)
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HIRATA Takaaki
Optoelectronics Laboratory, Yokogawa Electric Co.
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Hirata T
Sophia Univ. Tokyo Jpn
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Shiota Fuyuhiko
Faculty Of Engineering University Of Tokyo
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Hara Ko
Faculty Of Engineering University Of Tokyo
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SHIN Seiichi
Department of Mechanical Engineering and Intelligent Systems, The University of Electro-Communicatio
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Shin Seiichi
Department Of Mathematical Engineering And Instrumentation Physics Faculty Of Engineering The Univer
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FRANTSUZ Edmund
D. I. Mendeleyev Institute of Metrology (VNIIM)
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MIKI Yukinobu
National Research Laboratory of Metrology (NRLM)
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KHAVINSON Vladislav
D. I. Mendeleyev Institute of Metrology (VNIIM)
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Miki Yukinobu
National Research Laboratory Of Metrology
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Shiota Fuyuhiko
Department Of Mathematical Engineering And Instrumentation Physics Faculty Of Engineering The Univer
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Shiota Fuyuhiko
Department Of Mathematical Engineering And Instrumentation Physics Faculty Of Engineering The Univer
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Hara Ko
Department Of Mathematical Engineering And Instrumentation Physics Faculty Of Engineering The Univer
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MORIYA Takehiro
Department of Mathematical Engineering and Instrumentation Physics, Faculty of Engineering, The Univ
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HIRATA Takaaki
Yokogawa-Hokushin Electric
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HIRATA Takaaki
Faculty of Engineering, University of Tokyo
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Moriya Takehiro
Department Of Mathematical Engineering And Instrumentation Physics Faculty Of Engineering The Univer
著作論文
- Simulation Algorithm for Superconducting Magnetic Levitation system
- Liquid helium transfer using a mass-flow controller
- Vertical Displacement Determination of a Levitated Superconducting Mass
- A Buoyancy-Free Mass Comparator with Precision Better than 10-6 for Use in a Superconducting Magnetic Levitation System
- Attitude and Position Measurement System for Use in a Superconducting Magnetic Levitation System
- Electrical Analog of a Single-Flux Quantum Device for Logic Design
- Improvement of the Superconducting Magnetic Levitation System for an Absolute Determination of the Magnetic Flux Quantum
- A Study of an Absolute Determination of the Magnetic Flux Quantum Using a Superconducting Levitation System