スポンサーリンク
Toyota Technological Institute | 論文
- Effect of Thermal Stress on a N-Related Recombination Center in GaAsN Grown by Chemical Beam Epitaxy
- Transmission Electron Microscopy Analysis of a Threading Dislocation with c+a Burgers Vector in 4H-SiC
- Study of MgAl2O4(111) Spinel Surface Using Noncontact Atomic Force Microscopy
- Wireless Driving of a Micromirror Device by Electoromagnetic Excitation Tuned to Mechanical Resonance of Rotation
- Shape Anisotropy of Electromagnetic Materials in Application of Microwave by Micro-sized Numerical Electromagnetic Field Calculation
- Observation of In-Plane Asymmetric Strain Relaxation during Crystal Growth and Growth Interruption in InGaAs/GaAs(001)
- Origin Investigation of a Nitrogen-Related Recombination Center in GaAsN Grown by Chemical Beam Epitaxy
- Transmission Electron Microscopy Analysis of a Threading Dislocation with c+a Burgers Vector in 4H-SiC
- Fundamental Theory for Magnetized Radio-Frequency Discharges between Planar Electrodes and Its Application to the ECR Case
- Magnetic Properties of Nanometer-sized Particles Fabricated by Ion Beam Induced Chemical Vapor Deposition
- Obituary for Professor, Dr. Alex Hubert (1938-1999)
- Improvements in Optoelectrical Properties of GaAsN by Controlling Step Density during Chemical Beam Epitaxy Growth
- Scanning Tunneling Microscopy Study of Pd Adsorption on Pt(111)
- Crystal Structures of Copper–Phthalocyanine on C60(111) Surface Grown by Molecular Beam Epitaxy
- Effects of Residual Carbon and Hydrogen Atoms on Electrical Property of GaAsN Films Grown by Chemical Beam Epitaxy
- Chemical Beam Epitaxy of GaAsN Thin Films with Monomethylhydrazine as N Source
- Nitrogen-Related Recombination Center in GaAsN Grown by Chemical Beam Epitaxy
- Radiation Resistance of Wide Band Gap $n^{+}/ p$ AlInGaP Solar Cell for High-Efficient Multijunction Space Solar Cells
- Carbon Reduction in GaAsN Thin Films by Flow-Rate-Modulated Chemical Beam Epitaxy
- Properties of a Nitrogen-Related Hole Trap Acceptor-Like State in p-Type GaAsN Grown by Chemical Beam Epitaxy