Koshiba Masanori | Graduate School Of Engineering Hokkaido University
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概要
関連著者
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Koshiba Masanori
Graduate School Of Engineering Hokkaido University
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Saitoh Kunimasa
Graduate School Of Engineering Hokkaido University
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Saitoh Kunimasa
Graduate School of Information Science and Technology, Hokkaido University
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Koshiba Masanori
Graduate School Of Information Sci. And Technol. Hokkaido Univ.
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Saitoh Kunimasa
Graduate School Of Information Sci. And Technol. Hokkaido Univ.
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Hasegawa Koji
Muroran Institute Of Technology
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Hasegawa K
Muroran Inst. Technol. Muroran Jpn
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INAGAWA Kiyoshi
Tomakomai National College of Technology
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Hasegawa K
Muroran Institute Of Technology
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Saitoh Kunimasa
Division Of Media And Network Technology Graduate School Of Information Science And Technology Hokka
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HASEGAWA Koji
Kushiro National College of Technology
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SAITOH Kunimasa
Division of Media and Network Technologies, Hokkaido University
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Matsuo Shoichiro
Fujikura Ltd. Sakura‐shi Jpn
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Matsuo Shoichiro
Optics And Electrical Laboratory Fujikura Ltd.
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Takenaga Katsuhiro
Optics And Electrical Laboratory Fujikura Ltd.
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Florous Nikolaos
Graduate School of Information Science and Technology, Hokkaido University
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MURAO Tadashi
Graduate School of Information Science and Technology, Hokkaido University
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Arakawa Yoko
Optics And Electrical Laboratory Fujikura Ltd.
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Tanigawa Shoji
Optics And Electrical Laboratory Fujikura Ltd.
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Florous Nikolaos
Graduate School Of Information Science And Technology Hokkaido University
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Koshiba Masanori
Department Of Electronics Faculty Of Engineering Hokkaido University
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Hasegawa Koji
Department of Cardiovascular Medicine, Graduate School of Medicine, Kyoto University
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Tsuchida Yukihiro
Graduate School of Information Science and Technology, Hokkaido University
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Saitoh K
Graduate School Of Engineering Hokkaido University
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TSUCHIDA Yukihiro
Furukawa Electric
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ENOMORI Ikumi
Graduate School of Information Science and Technology, Hokkaido University
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Hasegawa Koji
Department Of Cardiovascular Medicine Graduate School Of Medicine Kyoto University
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Skorobogatiy Maksim
Ecole Polytechnique de Montreal, Genie Physique
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Mortensen N.
Crystal Fiber A
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Koshiba Masanori
S
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Kokubun Yasuo
Graduate School of Engineering, Yokohama National University
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Kokubun Yasuo
Graduate School Of Eng. Yokohama National Univ.
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INAGAWA Kiyoshi
Department of Electronic Engineering, Faculty of Engineering, Hokkaido University
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Koshiba Masanori
Department Of Electronic Engineering Faculity Of Engineering Hokkaido University
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Guan Ning
Optics And Electronics Laboratory Fujikura Ltd.
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Enomori Ikumi
Graduate School Of Information Science And Technology Hokkaido University
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Matsuo Shoichiro
Optics and Electronics Laboratory, Fujikura Ltd.
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Takenaga Katsuhiro
Optics and Electronics Laboratory, Fujikura Ltd.
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Arakawa Yoko
Optics and Electronics Laboratory, Fujikura Ltd.
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Sasaki Yusuke
Optics and Electronics Laboratory, Fujikura Ltd.
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Tanigawa Shoji
Optics and Electronics Laboratory, Fujikura Ltd.
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Hasegawa Koji
Department Of Biology College Of Liberal Arts Kagoshima University
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Koshiba Masanori
Department Of Electronic And Information Engineering Hokkaido University
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Guan Ning
Optics And Electrical Laboratory Fujikura Ltd.
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Kokubun Yasuo
Graduate School Of Engineering Yokohama National Univ.
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Kokubun Yasuo
Faculty of Engineering, Yokohama National University
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Hasegawa Koji
Department Of Applied Chemistry Nagoya Institute Of Technology
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Tu Jiajing
Graduate School of Information Science and Technology, Hokkaido University
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Tu Jiajing
Graduate School Of Information Science And Technology Hokkaido University
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Koshiba Masanori
Graduate School of Engineering, Hokkaido University, Sapporo 060-8628, Japan
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Koshiba Masanori
Graduate School of Information Science and Technology, Hokkaido University
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Hasegawa Koji
Muroran Institute of Technology, Muroran 050-8585, Japan
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TU Jiajing
Division of Media and Network Technologies, Hokkaido University
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Gotoh Hitoshi
Hakodate National College of Technology
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Tsuji Yasuhide
Graduate School of Engineering, Muroran Institute of Technology
著作論文
- Design of effectively single-mode leakage channel fibers with large mode area and low bending loss
- Fundamental Characteristics of Localized Acoustic Modes in Photonic Crystal Fibers(Optical Fibers, Cables and Fiber Devices, Recent Progress in Optoelectronics and Communications)
- C-3-87 Multi-Core Photonic Band Gap Fiber Splitters Based on Highly-Selective Non-Proximity Resonant Coupling
- C-3-82 Thermo-Optical Sensitivity of Polarimetric-Sensing Photonic Crystal Fibers
- C-3-136 Modeling of Realistic Air-Core Photonic Band-Gap Fibers
- Novel multi-core fibers for mode division multiplexing: proposal and design principle
- C-3-135 Applicability of Classical Optical Fiber Theory to Holey Fibers
- Coefficients of Coupled-Mode Equations for Interdigital Transducers with Solid Electrodes of Gold, Silver, Tantalum, or Tungsten Alloy on a 50°Y-25°X La_3Ga_5SiO_ Substrate
- Coefficients of Coupled-Mode Equations for Reversal of Directivity Transducers on a 50〓Y-25〓XLa_3Ga_5SiO_Substrate
- Analysis of an Electrode-Width-Difference-Reversal-of Directivity Transducer on a La_3Ga_Nb_O_ Substrate
- Coefficients of Coupled-Mode Equations for a Natural-Single-Phase-Unidirectional Transducer and an Electrode-Width-Difference-Reversal-of-Directivity Transducer on a 50°Y-24°X La_3Ga_5SiO_Substrate
- Parameters of Coupling-of-Modes Equations for a Natural Single-Phase-Unidirectional Transducer on a La_3Ga_Nb_O_Substrate
- Parameters in the Coupling-of-Modes Equations for a Natural Single-Phase Unidirectional Transducer and a Transduction Center Shift Reversal of Directivity Transducer on a La_3Ga_5SiO_ Substrate
- An Analysis of Excitation Characteristics of Interdigital Transducers for Surface Acoustic Waves : SAW and Communication Devices
- Crosstalk behavior of cores in multi-core fiber under bent condition
- An Analysis of Periodic Leaky Surface Acoustic Waveguides Using the Hybrid Finite Element Method
- Coupled-Mode Equations for Interdigital Transducers for Leaky Surface Acoustic Waves
- Multiple resonant coupling mechanism for higher-order-modes' suppression in all-solid photonic bandgap fibers with heterostructured cladding (光ファイバ応用技術)
- Multiple resonant coupling mechanism for higher-order-modes' suppression in all-solid photonic bandgap fibers with heterostructured cladding
- An Investigation on Crosstalk in Multi-Core Fibers by Introducing Random Fluctuation along Longitudinal Direction
- Finite-element time-domain beam propagation method with perfectly matched layer for electron waveguide simulations
- Heterogeneous multi-core fibers : proposal and design principle
- B-13-44 Low Crosstalk Heterogeneous Multi-Core Fibers under Bending Condition
- Coupled-Mode Equations for Interdigital Transducers for Leaky Surface Acoustic Waves