スポンサーリンク
Department of Electrical Engineering, Science University of Tokyo | 論文
- Motion Characteristics Measurement of Rotating Object Using Surface Acoustic Wave Oscillator
- Gas-Temperature-Controlled (GTC) CVD of Aluminum and Aluminum-Silicon Alloy Film for VLSI Processing : Techniques, Instrumentations and Measurement
- Epitaxial Growth of Al on Si by Gas-Temperature-Controlled Chemical Vapor Deposition : Techniques, Instrumentations and Measurement
- Structural Properties of GaN Film with AIN Buffer Layers with Varying Growth Temperatures by Plasma-Assisted Molecular Beam Epitaxy
- Filling of Sub-μm Through-holes by Self-sputter Deposition
- Copper Self-Sputtering by Planar Magnetron
- Comparison of Optical Properties in GaN/AlGaN and InGaN/AlGaN Single Quantum Wells
- Suppression of Lipid-Hydroperoxide and DNA-Adduct Formation by Isoflavone-Containing Soy Hypocotyl Tea in Rats
- Propagation Characteristics of Lamb Waves in PbZrO_3-Based Ceramic Substrate
- Piezoelectric Characteristics of PbZrO_3-Based Ceramics around Ferroelectric Phase Transition Temperature : Ultrasonic Transduction
- Automated Piezoelectric Measurement System and Its Application to BLSF Ceramics : P: PIEZOELECTRICS
- Surface Acoustic Wave Characteristics of Grain-Oriented Bismuth Layer-Structured Ferroelectric Ceramics : SAW and Communication Devices
- ATOMIC PROCESSES IN DISCHARGE ARGON PLASMAS FOR SOFT X-RAY LASER AMPLIFICATION
- ATOMIC PROCESSES IN CAPILLARY DISCHARGE Z-PINCH PLASMAS FOR SOFT-X-RAY AMPLIFICATION
- A Novel CMOS Analog Square Circuit Free from Mobility Reduction and Body Effect
- A CMOS Analog Multiplier Free from Mobility Reduction and Body Effect (Special Section on Analog Circuit Techniques and Related Topics)
- Equilibrium Charge States of Incident Uranium Ions with Relativistic Velocity
- High-Vacuum Planar Magnetron Sputtering
- Development of a Fast-Cycle, Extremely High-Vacuum System Using Cryopump
- Electrical Properties of Grain-Oriented Piezoelectric Ceramics in Layer-Structure Oxide Family : Communication Devices and Materials