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Fujitsu Ltd. Atsugi Jpn | 論文
- InAs/GaAs Multi-Coupled Quantum Dots Structure Enabling High-Intensity, Near-1.3-μm Emission due to Cascade Carrier Tunneling
- Electron Spin-relaxation Dynamics in GaAs/AlGaAs Quantum Wells and InGaAs/InP Quantum Wells
- Performance of All-Optical Switch Utilizing the Spin-Dependent Transient Rotation in a Multiple-Quantum-Well Etalon
- Large Lateral Modulation in InAs/GaAs In-Plane Strained Superlattice on Slightly Misoriented (110) InP Substrate
- Phonon Assisted Tunneling and Peak-to-Valley Ratio in a Magnetically Confined Quasi Zero Dimensional InGaAs/InAlAs Resonant Tunneling Diode
- InGaAs/GaAs Tetrahedral-Shaped Recess Quantum Dot (TSR-QD)Technology (Special Issue on Quantum Effect Devices and Their Fabrication Technologies)
- Stacked InAs Self-Assembled Quantum Dots on (001) GaAs Grown by Molecular Beam Epitaxy
- Quantum Dots Infrared Photodetector Using Modulation Doped InAs Self-Assembled Quantum Dots
- The Influence of Surface Treatment on the Quality of Pd/Au Contacts to p-type ZnSe
- Surface Preparation Effects for Molecular Beam Epitaxial Growth of ZnSe Layers on InGaP Layers
- Highly Reliable Operation of InGaP/InGaAlP Multi-Quantum-Well Visible Laser Diodes
- High-Power InGaAIP Laser Diodes for High-Density Optical Recording : Visible Lasers
- High-Power InGaAlP Laser Diodes for High-Density Optical Recording
- Reliable High-Power Operation of InGaAlP Visible Light Laser Diodes with Strained Active Layer
- Carbon Nanotube Vias Fabricated by Remote Plasma-Enhanced Chemical Vapor Deposition
- Electrical properties of carbon nanotubes grown at a low temperature by radical chemical vapor deposition for future LSI interconnects
- Carbon Nanotube Via Technologies for Advanced Interconnect Integration
- Chemical Modification of Multi-walled Carbon Nanotubes (MWNTs) By Vacuum Ultraviolet (VUV) Irradiation Dry Process
- Carbon Nanotube Growth Technologies Using Tantalum Barrier Layer for Future ULSIs with Cu/Low-k Interconnect Processes
- Diameter-Controlled Growth of Multi-Walled Carbon Nanotubes by Hot-Filament Chemical Vapor Deposition with Ferritin as a Catalyst on a Silicon Substrate