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Research Center for Advanced Science and Technology, University of Tokyo | 論文
- Electric-field-induced giant strain in Bi_Na_TiO_3-based single crystals : Influence of high-oxygen-pressure annealing
- High-quality single crystal growth of Bi-based perovskite ferroelectrics based on defect chemistry
- Optical Gain of Polarized Emission in InAs Quantum Dots with In_xGa_As Capping Layer
- Optical Polarization Properties of InAs/GaAs Quantum Dot Semiconductor Optical Amplifier
- C-3-25 40 nm widely tunable fiber Bragg grating
- 反応試薬を必要としない環境計測用リン酸イオンセンサシステム
- Fabrication of 10-Nanometer-scale GaAs Dot Structures by In Situ Selective Gas Etching with Self-Assembled InAs Dots as a Mask
- 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-3-138 A Nonlinearly Temperature Chirped Fiber Bragg Grating for Dispersion Slope Compensation
- C-3-137 An Adjustable Dispersion Compensator with Wavelength Tunability Based on A Thermally Chirped Fiber Bragg Grating
- C-3-136 Design of Tunable Dispersion Slope Compensators Based on Nonlinearly 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
- Investigation of the Modulation Efficiency of InGaAsP/InP Ridge Waveguide Phase Modulators at 1.55 μm
- One-Shot-Laser-Pulse-Induced Cooperative Charge Transfer Accompanied by Spin Transition in a Co-Fe Prussian Blue Analog at Room Temperature
- InAsSb Quantum Dots Grown on GaAs Substrates by Molecular Beam Epitaxy