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Department of Physical Electronics, Tokyo Institute of Technology | 論文
- InP DHBT with 0.5μm Wide Emitter alongDirection toward BM-HBT with Narrow Emitter(Joint Special Issue on Heterostructure Microelectronics with TWHM 2000)
- Reduction of Base-Collector Capacitance inSubmicron InP/GalnAs Heterojunction Bipolar Transistors with Buried Tungsten Wires : Semiconductors
- Peak Width Analysis of Current-Voltage Characteristics of Triple-Barrier Resonant Tunneling Diodes
- First Fabrication of GaInAs/InP Buried Metal Heterojunction Bipolar Transistor and Reduction of Base-Collector Capacitance
- A 25-nm-pitch GaInAs/InP Buried Structure Using Calixarene Resist
- High Peak-to-Valley Current Ratio GaInAs/GaInP Resonant Tunneling Diodes
- Characterization of GaInAs/InP Triple-Barrier Resonant Tunneling Diodes Grown by Organo-Metallic Vapor Phase Epitaxy for High-Temperature Estimation of Phase Coherent Length of Electrons
- Seventy-nm-Pitch Patterning on CaF_2 by e-beam Exposure
- Current-Voltage Characteristics of Triple-Barrier Resonant Tunnnel Diodes Including Coherent and Incoherent Tunneling Processes (Special Issue on Quantum Effect Devices and Their Fabrication Technologies)
- High Temperature Estimation of Phase Coherent Length of Hot Electron Using GaInAs/InP Triple-Barrier Resonant Tunneling Diodes Grown by OMVPE
- Monolayer Steps Formation in InP and GaInAs by OMVPE and Reduction of Resonant Energy Width in GaInAs/InP RTDs
- Electrical Properties of 100 nm Pitch Cr/Au Fine Electrodes with 40 nm Width on GaInAs
- The Electrostrictive Unimorph for Displacement Control
- A Highly-Sensitive AC Interferometric Dilatometer
- Low-Temperature Chemical-Vapor-Deposition of Silicon-Nitride Film from Hexachloro-Disilane and Hydrazine
- Effects of Light Pulse Duration on Excimer-Laser Crystallization Characteristics of Silicon Thin Films
- Fabrication of Vertical InGaAs Channel Metal-Insulator-Semiconductor Field Effect Transistor with a 15-nm-Wide Mesa Structure and a Drain Current Density of 7MA/cm^2
- 招待講演 InGaAs/InP MISFET with epitaxially grown source (Silicon devices and materials)
- 招待講演 InGaAs/InP MISFET with epitaxially grown source (Electron devices)
- Improvement in Gate Insulation in InP Hot Electron Transistors for High Transconductance and High Voltage Gain