SAITOH Kunimasa | Division of Media and Network Technologies, Hokkaido University
スポンサーリンク
概要
関連著者
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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
Division Of Media And Network Technology Graduate School Of Information Science And Technology Hokka
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SAITOH Kunimasa
Division of Media and Network Technologies, Hokkaido University
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Saitoh Kunimasa
Graduate School Of Information Sci. And Technol. Hokkaido Univ.
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Takenaga Katsuhiro
Optics And Electrical Laboratory Fujikura Ltd.
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Matsuo Shoichiro
Fujikura Ltd. Sakura‐shi Jpn
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Florous Nikolaos
Graduate School Of Information Science And Technology Hokkaido University
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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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Arakawa Yoko
Optics And Electrical Laboratory Fujikura Ltd.
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Tanigawa Shoji
Optics And Electrical Laboratory Fujikura Ltd.
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Matsuo Shoichiro
Optics And Electrical Laboratory Fujikura Ltd.
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TU Jiajing
Division of Media and Network Technologies, Hokkaido University
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MURAO Tadashi
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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MUKASA Kazunori
Furukawa Electric
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IMAMURA Katsunori
Furukawa Electric
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TSUCHIDA Yukihiro
Furukawa Electric
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SUGIZAKI Ryuichi
Furukawa Electric
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Saitoh Kunimasa
Division Of Electronics And Information Engineering Graduate School Of Engineering Hokkaido Universi
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Koshiba Masanori
Division Of Electronics And Information Engineering Faculty Of Engineering Hokkaido University
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Guan Ning
Optics And Electronics Laboratory Fujikura Ltd.
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Sugizaki Ryuich
Furukawa Electric
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Guan Ning
Optics And Electrical Laboratory Fujikura Ltd.
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Tu Jiajing
Graduate School of Information Science and Technology, Hokkaido University
著作論文
- Detailed theoretical investigation of bending properties in solid-core photonic bandgap fibers
- Realistic Design of Large-Hollow-Core Photonic Band-Gap Fibers With Suppressed Higher Order Modes and Surface Modes
- Design of effectively single-mode air-core photonic bandgap fiber with improved transmission characteristics for the realization of ultimate low loss waveguide
- Design of photonic band gap fibers with suppressed higher-order modes: Towards the development of effectively single mode large hollow-core fiber platforms
- Full-vectorial coupled mode theory for the evaluation of macro-bending loss in multimode fibers. application to the hollow-core photonic bandgap fibers
- Numerical Modeling of Cryogenic Temperature Sensors Based on Plasmonic Oscillations in Metallic Nanoparticles Embedded Into Photonic Crystal Fibers
- Coupling Characteristics of Multicore Photonic Crystal Fiber-Based 1 × 4 Power Splitters
- Thermooptical Sensitivity Analysis of Highly Birefringent Polarimetric Sensing Photonic Crystal Fibers With Elliptically Elongated Veins
- Understanding formation of photonic bandgap edge for maximum propagation angle in all-solid photonic bandgap fibers
- Multiple resonant coupling mechanism for suppression of higher-order modes in all-solid photonic bandgap fibers with heterostructured cladding
- Investigation on multi-core fibers with large Aeff and low micro bending loss
- 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
- Large-effective-area ten-core fiber with cladding diameter of about 200 μm
- Multi- core fiber design and analysis : coupled-mode theory and coupled-power theory
- A large effective area multi-core fiber with an optimized cladding thickness
- Design and analysis of large-effective-area heterogeneous trench-assisted multi-core fiber
- B-13-44 Low Crosstalk Heterogeneous Multi-Core Fibers under Bending Condition
- A bend-insensitive heterogeneous trench-assisted multi-core fiber with large effective area