スポンサーリンク
Nanomaterials Microdevices Research Center Osaka Institute Of Technology | 論文
- Electronic States in Selectively Si-Doped N-AlGaAs/GaAs/N-AlGaAs Single Quantum Well Structures Grown by MBE
- Improved 2DEG Mobility in Inverted GaAs/n-AlGaAs Heterostructures Grown by MBE
- Electrical Properties of Si-Doped Al_xGa_As Layers Grown by MBE
- Model Test of Biperiodic L-support Disk-and-Washer Linac Structure
- Extremely High 2DEG Concentration in Selectively Doped In_Ga_As/N-In_Al_As Heterostructures Grown by MBE
- MBE Growth of High-Quality GaAs Using Triethylgallium as a Gallium Source
- Selectively Doped GaAs/ N-Al_Ga_As Heterostructures Grown by Gas-Source MBE : Semiconductors and Semiconductor Devices
- Phase-Sensitive Optical Probe for Surface Acoustic Wave Soliton Investigation
- Experimental Studies on Nonlinear Dispersive Surface Acoustic Waves for Solitons
- Reconstruction of Three-Dimensional Images of Surface Acoustic Waves by Means of Computer-Controlled Laser Probe
- Interface-Treated Josephson Junctions in Trilayer Structures
- Novel Nanofabrication Process for InAs/AlGaSb Heterostructures Utilizing Atomic Force Microscope Oxidation
- Coulomb Blockade Observed in InAs/AlGaSb Nanostructures Produced by an Atomic Force Microscope Oxidation Process
- Atomic Force Microscope Nanofabrication of InAs/AlGaSb Heterostructures ( Quantum Dot Structures)
- Characteristics of Polycrystalline ZnO-Based Electrolyte-Solution-Gate Field-Effect Transistors Fabricated on Glass Substrates
- Charge-storage Effect of Vertically Stacked InAs Nanodots Embedded in AI_Ga_As Matrix
- CF and CF_2 Radical Densities in 13.56-MHz CHF_3/Ar Inductively Coupled Plasma(Nuclear Science, Plasmas, and Electric Discharges)
- Planarization of the Yba_2Cu_3O_ Base Electrodes in Trilayer Josephson Junctions : Superconductors
- Lamb Wave Propagation Characteristics and Transducer Performances in Layered Substrate Composed of Piezoelectric Thin Plate and Glass Thin Plate
- Characteristics of Self-Assembled InSb Dots Grown on (100) AlGaSb by Molecular Beam Epitaxy