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Department Of Electrical Engineering Osaka University | 論文
- Application of Stirring Method to Micro-Scale and Vapor Diffusion Protein Crystallization
- Synthesis of Low-Resistivity Aluminum Nitride Films Using Pulsed Laser Deposition
- 387-nm Generation in Gd_xY_Ca_4O(BO_3)_3 Crystal and Its Utilization for 193-nm Light Source
- Growth of Large GaN Single Crystal Using the Liquid Phase Epitaxy (LPE) Technique
- Growth and Characterization of KMgF_3 Single Crystals by the Czochralski Technique under CF_4 Atmosphere
- Stabilization of Timed Discrete Event Systems with Forcible Events (Special Section of Selected Papers from the 9th Karuizawa Workshop on Circuits and Systems)
- A Forbidden Marking Problem in Controlled Complementary-Places Petri Nets
- Covalent Fixation of the Cyclic Tetramer of a Metallo-porphyrin Based on Self-complementary Quadruple Hydrogen Bonding
- Direct Generation of 27/mj,309-nm Pulses from a Cu^:LiLuF_4 Oscillator Using a Large-Size Ce^:LiLuF_4 Crystal
- High average power THz-radiation from femtosecond laser irradiated InAs under the magnetic field
- A Palm-Size Ultraviolet Laser Using a Combination of a Monolithic Wavelength Converter and an Optical Fiber
- Improvement in UV Optical Properties of CsLiB_6O_ by Reducing Water Molecules in the Crystal
- 355-nm UV Light Generation in High-Quality CsB_3O_5 Fabricated by Post-Growth Heat Treatment
- Threshold of Lower Hybrid Parametric Instability in a Modulated Electron-Beam : Plasma System
- Ion Heating by the Lower-Hybrid Parametric Instability in a Modulated Electron Beam-Plasma System
- Influence of Crystallinity on the Bulk Laser-Induced Damage Threshold and Absorption of Laser Light in CsLiB_6O_ Crystals : Optics and Quantum Electronics
- Fabrication of Au Fine Patterns by Ar Sputter Etching Using MoO_3 Mask
- Application of MoO_3 Electron Resist to Lift-Off Process
- MoO_3 Electron Resist and Its Application to Fabrication of Mo Fine Pattern
- Optimization of Single Crystal Preparation of Bi_2Sr_2CaCu_2O_x Superconductor by the Travelling Solvent Floating Zone Method