スポンサーリンク
Research Institute for Nanodevice and Bio Systems, Hiroshima University, 1-4-2 Kagamiyama, Higashihiroshima, Hiroshima 739-8527, Japan | 論文
- Confocal Imaging System Using High-Speed Sampling Circuit and Ultra-Wideband Slot Antenna
- Design and Simulation of Silicon Ring Optical Modulator with p/n Junctions along Circumference
- Sensitivity Improvement of Biosensors Using Si Ring Optical Resonators
- Detection of Antigen--Antibody Reaction Using Si Ring Optical Resonators Functionalized with an Immobilized Antibody-Binding Protein
- A Study of Mach--Zehnder Interferometer Type Optical Modulator Applicable to an Accelerometer
- A 5.4--9.2 GHz 19.5 dB Complementary Metal--Oxide--Semiconductor Ultrawide-Band Receiver Front-End Low-Noise Amplifier
- Selective Detection of Antigen-Antibody Reaction Using Si Ring Optical Resonators
- Fabrication of Si Nanowire Field-Effect Transistor for Highly Sensitive, Label-Free Biosensing
- Si Ring Optical Resonators for Integrated On-Chip Biosensing
- Reduction in Operation Voltage of Silicon Ring Optical Modulator Using High-$k$ (Ba,Sr)TiO3 Cladding Layer
- Silicon Single-Electron Memory Having in-Plane Dot with Double Gates
- Confocal Imaging Using Ultra Wideband Antenna Array on Si Substrates for Breast Cancer Detection
- Characterization of Ge Photodiodes Fabricated on Vicinal Si Substrate
- Low-Power Silicon-Area-Efficient Image Segmentation Based on a Pixel-Block Scanning Architecture
- Silicon Ring Optical Modulator with p/n Junctions Arranged along Waveguide for Low-Voltage Operation (Special Issue : Solid State Devices and Materials (2))
- A 3.5–4.5 GHz Complementary Metal–Oxide–Semiconductor Ultrawideband Receiver Frontend Low-Noise Amplifier with On-Chip Integrated Antenna for Interchip Communication
- Conduction Path Fluctuation in Silicon Two-Dimensional Tunnel Junction Array
- Quantitative Determination of Complex Dielectric Function of Amorphous Silicon Dioxide on Silicon Substrate from Transmission Spectrum
- Monte Carlo Simulation of the Two-Dimensional Site Percolation Problem for Designing Sensitive and Quantitatively Analyzable Field-Effect Transistors