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Department Of Electrical And Electronic Engineering Mie University | 論文
- Electrical Breakdown of Linear Low-Density Polyethylene
- Solid Breakdown Process from Viewpoint of Nature of Pre-Breakdown Current in Polymeric Insulating Materials
- High-Field Conduction and Electrical Breakdown of Polyethylene at High Temperatures
- Consideration on Filamentary Thermal Breakdown by Measuring Pre-Breakdown Current in Solid Dielectrics
- New Approach to Breakdown Study by Measuring Pre-Breakdown Current in Insulating Materials
- A Model for Dielectric Breakdown in Plasma-Polymerized Styrene Thin Films
- Selective Area Growth of III-Nitride and Their Application for Emitting Devices
- Simulation of Compositional Variation in Liquid Phase Epitaxy InGaP Using a Two Dimensional Model
- Hardness and Oxidation Resistance of Perovskite-type Solid Solution of the ScRh_3B-ScRh_3C System
- Synthesis and Magnetic Properties of Mesoporous Vanadium Oxide Sulphate
- Shifts of Core-level Electron Binding Energies for SrBi_2Ta_2O_9 Nano-particles
- Boron-Carbon Atomic Ratio Dependence on the Hardness and Oxidation Resistance of Solid Solutions of Perovskite-Type Borocarbide YRh_3B_xC_ (O ≦ x ≦ 1)
- R-Dependency of the Hardness Of Perovskite-Type RRh_3B Compounds (R = La, Gd, Lu and Sc) : Structure and Mechanical and Thermal Properties of Condensed Matter
- Electron Emission Sites on Carbon Nanotubes and the Energy Spectra : Surfaces, Interfaces, and Films
- Raman Scattering Studies of CuInS_2 Films Grown by RF Ion Plating
- Low-Temperature Deposition of CuIn(S_xSe_)_2 Thin Films by Ionized Cluster Beam Technique
- High-Power Pure Blue InGaN Laser Diodes
- On the Small Enhancement of Electric Field Gradients Caused by a Deformation Potential Interaction : Condensed Matter and Statistical Physics
- Monte Carlo Simulation for Magnetic Behavior of Single-Domain Particle
- Analysis for Thermal Influence on Coercive Force of Single Domain Particle on the Basis of Markov Process : Another Approach for Magnetic Hysteresis Loop of Magnetic Particle without Using Master Equation