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Department Of Electronic Engineering University Of Tokyo | 論文
- Thermal Simulation Analysis of Scanning Near-Field Optical Microscope Point Heating Mechanisms
- The Role of Emitter States in Magnetotunneling through Double-Barrier Resonant-Tunneling Diodes at High Magnetic Fields
- Nanometer-Sized Phase-Change Recording Using a Scanning Near-Field Optical Microscope with a Laser Diode
- Fast and Accurate Phase Retardation Measurement of 0° Twisted Nematic Liquid Crystal Panels Based on the Principle of Homodyne Receiving
- Improved Optical Degradation Characteristics of Eu Complex Encapsulated by High-Pressure Annealing
- Improved Switching Performance of Multiple Quantum Well Asymmetric Fabry-Perot Ultrafast All-Optical Switch by Coupled-Cavity Configuration
- Wavelength Filtering Operation in Absorptive-Grating Gain-Coupled Distributed-Feedback MQW Lasers
- Fabrication of LiTaO_3 Optical Waveguide by H^+ Exchange Method
- Generation of Ultrashort (〜 65 fs) Pulses from 1.55 μm Gain-Switched Distributed Feedback (DFB) Laser with Soliton Compression by Dispersion Arrangements
- Photoconductive Properties of Organic Films Based on Porphine Complex Evaluated with Image Pickup Tubes
- Structure and Magnetic Properties of La(Co_Mn_x)_ Crystalline and Amorphous Alloys
- Gain Saturation of a 1.3 μm InGaAsP Traveling-Wave Amplifier in Picosecond Pulse Amplification
- 1.55 μm InGaAs/InAlAs/InP Quantum Wells with Mass-Dependent Width for Polarization-Independent Optical Modulation
- Very Short Electrical Pulse Generation by a Composite Planar GaAs Photodetector
- Preparation and Characterization of Water-Soluble Polysilanes Bearing Chiral Pendant Ammonium Moieties
- Preparation of Amphiphilic Polysilanes Bearing Chiral Pendant Ammonium Moieties
- Optical Coherence Tomographic Features of Macular Diseases
- Interface Effects on Drain Current Instability in GaAs MESFETs with Buffer Layer : B-2: GaAs FET/LED AND DETECTOR
- Spectrally Narrowed Operation of a Gain-Switched 690 nm GaInP/AlGaInP Fabry-Perot Laser by Self-Seeding Technique
- Fiber-Optic Pulse Delay Using Composite Zone Plates for Very Fast Optoelectronics : Waves, Optics and Quantum Electronics