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Institute Of Microelectronics | 論文
- C-3-41 20-32Gbps低損失MZシリコン変調器(C-3.光エレクトロニクス,一般セッション)
- 10Gbps高消光比MZ型シリコン光変調器(光パッシブコンポネント(フィルタ、コネクタ、MEMS)、シリコンフォトニクス、光ファイバ、一般)
- Erbium silicided Schottky Source/Drain Silicon Nanowire N-Metal–Oxide–Semiconductor Field-Effect Transistors
- Sub-30 nm Strained p-Channel Fin-Type Field-Effect Transistors with Condensed SiGe Source/Drain Stressors
- Eliminating Sidewall Damage During Etch Process for Ultra Low-$k$ Film
- A Dual BARC method for Lithography and Etch for Dual Damascene with Low $K$
- Pt–Germanide Formed by Laser Annealing and Its Application for Schottky Source/Drain Metal–Oxide–Semiconductor Field-Effect Transistor Integrated with TaN/Chemical Vapor Deposition HfO2/Ge Gate Stack
- Improving the Accuracy of Modified Shift-and-Ratio Channel Length Extraction Method Using Scanning Capacitance Microscopy
- A High-Resolution and Robust 12-bit DPWM for Digital DC-DC Converters
- Direct Current and Microwave Characteristics of Sub-micron AlGaN/GaN High-Electron-Mobility Transistors on 8-Inch Si(111) Substrate
- Complementary Metal Oxide Semiconductor Compatible Hf-Based Resistive Random Access Memory with Ultralow Switching Current/Power
- Mechanism of Semiconductor Opening Switch
- Novel Extended-Pi Shaped Silicon–Germanium Source/Drain Stressors for Strain and Performance Enhancement in p-Channel Tri-Gate Fin-Type Field-Effect Transistor
- 10Gbps高消光比MZ型シリコン光変調器
- Strained Silicon–Germanium-on-Insulator n-Channel Transistor with Silicon Source and Drain Regions for Performance Enhancement
- Low Temperature Metal-Induced Lateral Crystallization of Si1-xGex Using Silicide/Germanide-Forming-Metals
- Silicon Mach-Zehnder modulator using low-loss phase shifter with bottom PN junction formed by restricted-depth doping
- Characterization of Silicon Mach-Zehnder Modulator in 20-Gbps NRZ-BPSK Transmission
- シリコンマッハ-ツェンダ変調器による10Gb/s 80km光ファイバ伝送(超高速伝送・変復調・分散補償技術,超高速光信号処理技術,広帯域光増幅・WDM技術,受光デバイス,高光出力伝送技術,一般(ECOC報告))
- シリコンマッハ-ツェンダ変調器による10Gb/s 80km光ファイバ伝送(超高速伝送・変復調・分散補償技術,超高速光信号処理技術,広帯域光増幅・WDM技術,受光デバイス,高光出力伝送技術,一般(ECOC報告))
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