スポンサーリンク
Central Research Laboratory, HITACHI, LTD. | 論文
- Dependence of Hopping-Conduction Energy of Holes on Distance between Trap Sites in SiO_2 : a Molecular Orbital Calculation
- Incorporation of N into Si/SiO_2 Interfaces : Molecular Orbital Calculations for Evaluating Interface Strain and Heat of Reaction
- Hopping-Conduction Energy of Holes in SiO_2 Determined Accurately by Molecular Orbital Calculation
- Molecular Orbital Theory Examination into the Improvement of Gate Oxide Integrity with the Incorporation of Nitrogen and Fluorine
- Influence of Strain on Electrical Properties of the Ge Channel in the Modulation-Doped p-Si_Ge_/Ge/Si_Ge_x Heterostructure
- High Hole Mobility in Modulation-Doped and Strain-Controlled p-Si_Ge_/Ge/Si_Ge_ Heterostructures Fabricated Using Molecular Beam Epitaxy
- Design of Low-Distortion MOS OTA Based on Cross-Coupled Differential Amplifier and Its Application for Active Filters (Special Section on High-Performance MOS Analog Circuits)
- Modified EEPRML with 16/17 (3;11) MTR Code and Cyclic Redundancy Check Code for High Density Magnetic Recording Channels (Special Issue on Information Storage Technologies for the 21st Century)
- A Dialogue Control Mechanism for Handling Unknown Inputs in a Spoken Dialogue System
- Extraction of Finger-Vein Patterns Using Maximum Curvature Points in Image Profiles(Image Recognition and Understanding)
- Tracking Method for Digital Optical-Disk Systems
- AC Photovoltaic Measurement of Charge Density Uniformity in Silicon Nitride Film Deposited on Si Wafer
- X-Ray Photoelectron Spectroscopy Study of Native Oxidation on Misoriented Si(100)
- InGaP/GaAs Sub-Square-Micron Emitter HBT with f_>100 GHz
- InGaP/GaAs Sub-Square-Micron Emitter HBT with f_>100GHz
- High Linear Density Recording of 0.3 μm Domain Length on Magneto-Optical Disk : DRIVE TECHNOLOGY II
- High Speed Overwritable Magneto-Optic Recording : DRIVE TECHNIQUE
- Highly Efficient Gettering of Heavy Metals Using Carbon Implanted Eptaxial Si Wafers
- A 2-ns-Access, 285-MHz, Two-Port Cache Macro Using Double Global Bit-Line Pairs
- High-Resolution Proximity Exposure through a Phase Shifter Mask