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Research Center for Nanodevices and Systems, Hiroshima University | 論文
- Effect of High-Resistivity Si Substrate on Antenna Transmission Gain for On-Chip Wireless Interconnects
- Characteristics of Si Integrated Antenna for Inter-Chip Wireless Interconnection
- A 2.4GHz Differential Wavelet Generator in 0.18μm CMOS for 1.4Gbps UWB Impulse Radio in Wireless Inter/Intra-Chip Data Communication
- Transmission Characteristics of Gaussian Monocycle Pulses for Inter-Chip Wireless Interconnections Using Integrated Antennas
- A CMOS Monocycle Pulse Generation Circuit in a Ultra-Wideband Transmitter for Intra/Inter Chip Wireless Interconnection
- A CMOS Monocycle Pulse Generation Circuit of UWB Transmitter for Intra/Inter Chip Wireless Interconnection
- A 1Gb/s 3.8pJ/bit Differential Input BPSK Detection Scheme for UWB-IR Communication Using 180nm CMOS Technology
- 4-Port Unified Data/Instruction Cache Design with Distributed Crossbar and Interleaved Cache-Line Words(Integrated Electronics)
- Acceleration of DCT Processing with Massive-Parallel Memory-Embedded SIMD Matrix Processor(Image Processing and Video Processing)
- A 0.18μm CMOS Impulse Radio Based UWB Transmitter for Global Wireless Interconnections of 3D Stacked-Chip System
- Analysis of Transmission Characteristics of Gaussian Monocycle Pulse for Silicon Integrated Antennas
- Theoretical Analysis of Elastic Modulus and Dielectric Constant for Low-k Two-Dimensional Periodic Porous Silica Films
- Imprint Property of Optical Mach-Zehnder Interferometer Using Sputter Deposited (Ba,Sr)TiO_3 at Low Temperature
- Low Temperature Fabrication of Monolithic Mach-Zehnder Optical Modulator on Silicon using Sputtered (Ba,Sr)TiO_3 and Mechanism of Transient Response
- Structure and Optical Band-Gap Energies of Ba_Sr_TiO_3 Thin Films Fabricated by RF Magnetron Plasma Sputtering
- Groove-Buried Optical Waveguides Based on Metal Organic Solution-Derived Ba_Sr_TiO_3 Thin Films
- Structural and Optical Properties of Electro-Optic Material : Sputtered (Ba,Sr)TiO_3
- High-Rate GaAs Epitaxial Lift-Off Technique for Optoelectronic Integrated Circuits
- High-Efficiency Micromirrors and Branched Optical Waveguides on Si Chips
- Single-Chip Integration of Light-Emitting Diode, Waveguide and Micrormirrors