Your search keyword '"Shuichi Nagasawa"' showing total 3 results

1. Three-dimensional adiabatic quantum-flux-parametron fabricated using a double-active-layered niobium process.

Author

Takumi Ando, Shuichi Nagasawa, Naoki Takeuchi, Naoki Tsuji, Fumihiro China, Mutsuo Hidaka, Yuki Yamanashi, and Nobuyuki Yoshikawa

Subjects

*NIOBIUM, *FABRICATION (Manufacturing), *ADIABATIC flow, *ENERGY consumption, *ROBUST control

Abstract

Adiabatic quantum-flux-parametron (AQFP) is an ultra-low-power superconductor logic. In this study, we proposed and designed three-dimensional (3D) AQFP to achieve high circuit density and efficient interconnections. In 3D-AQFP, different AQFP logic circuits can be designed both over and under a ground plane (GP). The 3D-AQFP circuits are fabricated using the AIST 10 kA cm−2 Nb double gate process, in which two active layers are separated by a single GP. Followed by basic logic cell tests, we show an experimental demonstration of a 3D-XOR gate, the building block cells of which are vertically stacked to save circuit area and wiring length. The measurement results showed reasonable excitation current margins of more than ±16% for the 3D-XOR gate. [ABSTRACT FROM AUTHOR]

Published

2017

2. Adiabatic quantum-flux-parametron cell library designed using a 10 kA cm−2 niobium fabrication process.

Author

Naoki Takeuchi, Shuichi Nagasawa, Fumihiro China, Takumi Ando, Mutsuo Hidaka, Yuki Yamanashi, and Nobuyuki Yoshikawa

Subjects

*NIOBIUM, *ELECTRIC power consumption, *JOSEPHSON junctions

Abstract

Adiabatic quantum-flux-parametron (AQFP) logic is an energy-efficient superconductor logic with zero static power consumption and very small switching energy. In this paper, we report a new AQFP cell library designed using the AIST 10 kA cm−2 Nb high-speed standard process (HSTP), which is a high-critical-current–density version of the AIST 2.5 kA cm−2 Nb standard process (STP2). Since the intrinsic damping of the Josephson junction (JJ) of HSTP is relatively strong, shunt resistors for JJs were removed and the energy efficiency improved significantly. Also, excitation transformers in the new cells were redesigned so that the cells can operate in a four-phase excitation mode. We described the detail of HSTP and the AQFP cell library designed using HSTP, and showed experimental results of cell test circuits. [ABSTRACT FROM AUTHOR]

Published

2017

3. Operation of a Josephson arbitrary waveform synthesizer with optical data input.

Author

Chiharu Urano, Michitaka Maruyama, hisa Kaneko, Hirotake Yamamori, Akira Shoji, Masaaki Maezawa, Yoshihito Hashimoto, Hideo Suzuki, Shuichi Nagasawa, Tetsuro Satoh, Mutsuo Hidaka, and Shogo Kiryu

Subjects

SUPERCONDUCTING quantum interference devices, ELECTRIC potential, JOSEPHSON junctions, OPTOELECTRONICS, LIQUID helium, TEMPERATURE measurements, NOISE generators (Electronics)

Abstract

In order to establish a quantum ac voltage standard at NMIJ/AIST, we have developed a Josephson arbitrary waveform synthesizer based on overdamped Josephson junction arrays (JJAs) using optoelectronics and a liquid helium free compact cryocooler. We have succeeded in the generation of sine waves at 60 Hz and 152.6 kHz. To verify the performance of the system, two different types of JJAs with different characteristic frequencies have been developed. An application to a quantized voltage noise source for Johnson noise thermometry is also discussed, with experimental results. [ABSTRACT FROM AUTHOR]

Published

2009