Kikuchi K | Research Center For Advanced Science And Technology University Of Tokyo
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概要
関連著者
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Kikuchi K
Univ. Tokyo Tokyo Jpn
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Kikuchi K
Univ. Tokyo Jpn
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Kikuchi Kazuro
Research Center For Advanced Science And Technology The University Of Tokyo
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Kikuchi K
Research Center For Advanced Science And Technology University Of Tokyo
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Kikuchi Kazuro
Research Center for Advanced Science and Technology, University of Tokyo
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Kikuchi Kazuro
Research Center For Advanced Science And Technology (rcast) University Of Tokyo
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Set S
Micron Optics Inc. Georgia Usa
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Set S
Alnair Labs Corporation
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Goh Chee
Alnair Labs Corp.:university Of Tokyo
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Goh C
Alnair Labs Corporation
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Set Sze
Alnair Labs Corp.:university Of Tokyo
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Goh Chee
Research Center For Advanced Science And Technology (rcast) University Of Tokyo:alnair Labs Corporat
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Set Sze
Alnair Laboratories Corporation
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Takushima Yuichi
Research Center For Advanced Science And Technology The University Of Tokyo
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Feng Dejun
Research Center for Advanced Science and Technology, University of Tokyo
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Feng Dejun
Research Center For Advanced Science And Technology University Of Tokyo
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Kikuchi Kazuro
University Of Tokyo
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Liu Tao
Research Center For Advanced Science And Technology University Of Tokyo
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Futami F
Fujitsu Lab. Ltd. Kawasaki‐shi Jpn
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Goh Chee
Alnair Labs Corporation
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Futami Fumio
Research Center For Advanced Science And Technology The University Of Tokyo
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Set Sze
Research Center for Advanced Science and Technology, University of Tokyo
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Set Sze
Micron Optics, Inc.
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WANG Xiaomin
Research Center for Advanced Science and Technology, the University of Tokyo
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Wang X
Tsinghua Univ. Beijing Chn
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Goh Chee
Alnair Laboratories Corporation, Tokyo 154-0005, Japan
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Set Sze
アルネアラボラトリ
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SOTOBAYASHI Hideyuki
Communications Research Laboratory, Ministry of Posts and Telecommunications
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Goh Chee
University Of Tokyo
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Wang Dexiang
Research Center for Advanced Science and Technology, University of Tokyo
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Goh Chee
東大
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Feng Dejun
東大
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Kikuchi Kazuro
東大
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Ibsen Morten
Southampton University
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Wang Dexiang
Research Center For Advanced Science And Technology University Of Tokyo
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Sotobayashi Hideyuki
Communications Research Laboratory Ministry Of Posts And Telecommunications
著作論文
- Design Theory of Ultra-Short Pulse Generation from Actively Mode-Locked Fiber Lasers
- C-3-42 Fabrication of Dispersion-free Fiber Bragg Grating Designed by Inverse Scattering Algorithm in Time Domain Representation(C-3. 光エレクトロニクス, エレクトロニクス1)
- C-3-89 Phase-sampled Fibre Bragg Gratings for Multi-channel Tunable Dispersion Compensators
- C-3-87 A Tunable Dispersion Compensator with Cascaded Strain-Chirped Fiber Bragg Gratings
- C-3-69 A Dispersion Free Filter with Bandwidth Tunability based on Simultaneous S-bend Chirping of Twin Linearly Chirped Fiber Bragg Gratings
- B-13-32 A Tunable Pure Dispersion Slope Compensating-module With Fixed Center Wavelength Based on Strain-chirped Fiber Bragg Gratings
- C-4-4 Broadly Tunable Fiber Distributed-Feedback Lasers
- C-3-117 A Novel Technique for Dispersion Slope Compensation based on Chirped Fiber Bragg Gratings
- Spectrum Tuning of Fiber Bragg Gratings by Strain Distributions and Its Applications(Optical Signal-Processing Devices for Photonic Networks)
- Multi-Gigahertz Pulse Train Generation in a Figure-8 Laser Incorporating a Sampled Fiber Bragg Grating (IEICE Trans., Electron., Vol. E86-C, No. 5, Joint Special Issue on Recent Progress in Optoelectronics and Communications)
- Generation of Wideband and Flat Supercontinuum over a 280-nm Spectral Range from a Dispersion-Flattened Optical Fiber with Normal Group-Velocity Dispersion (Joint Special Issue on Recent Progress in Optoelectronics and Communications)
- Analysis of Dispersion-Managed Optical Fiber Transmission System Using Non-Return-to-Zero Pulse Format and Performance Restriction from Third-Order Dispersion (Joint Special Issue on Recent Progress in Optoelectronics and Communications)
- Generation of Wideband and Flat Supercontinuum over a 280-nm Spectral Range from a Dispersion-Flattened Optical Fiber with Normal Group-Velocity Dispersion (Joint Special Issue on Recent Progress in Optoelectronics and Communications)
- Analysis of Dispersion-Managed Optical Fiber Transmission System Using Non-Return-to-Zero Pulse Format and Performance Restriction from Third-Order Dispersion (Joint Special Issue on Recent Progress in Optoelectronics and Communications)