Fumihiro China scite author profile

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.

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Quantum detector tomography of a superconducting nanostrip photon-number-resolving detector

Endo

Sonoyama

Matsuyama

et al. 2021

Opt. Express

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Superconducting nanostrip photon detectors have been used as single-photon detectors, which can discriminate only photons’ presence or absence. It has recently been found that they can discriminate the number of photons by analyzing the output signal waveform, and they are expected to be used in various fields, especially in optical-quantum-information processing. Here, we improve the photon-number-resolving performance for light with a high-average photon number by pattern matching of the output signal waveform. Furthermore, we estimate the positive-operator-valued measure of the detector by a quantum detector tomography. The result shows that the device has photon-number-resolving performance up to five photons without any multiplexing or arraying, indicating that it is useful as a photon-number-resolving detector.

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Generation of Schrödinger cat states with Wigner negativity using a continuous-wave low-loss waveguide optical parametric amplifier

et al. 2022

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Continuous-wave (CW) squeezed light is used in the generation of various optical quantum states, and thus is a fundamental resource of fault-tolerant universal quantum computation using optical continuous variables. To realize a practical quantum computer, a waveguide optical parametric amplifier (OPA) is an attractive CW squeezed light source in terms of its THz-order bandwidth and suitability for modularization. The usages of a waveguide OPA in quantum applications thus far, however, are limited due to the difficulty of the generation of the squeezed light with a high purity. In this paper, we report the first observation of Wigner negativity of the states generated by a heralding method using a waveguide OPA. We generate Schrödinger cat states at the wavelength of 1545 nm with Wigner negativity using a quasi-single-mode ZnO-doped periodically poled LiNbO3 waveguide module we developed. Wigner negativity is regarded as an important indicator of the usefulness of the quantum states as it is essential in the fault-tolerant universal quantum computation. Our result shows that our waveguide OPA can be used in wide range of quantum applications leading to a THz-clock optical quantum computer.

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

Ando

Nagasawa

Takeuchi

et al. 2017

Supercond. Sci. Technol.

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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.

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Scalable readout interface for superconducting nanowire single-photon detectors using AQFP and RSFQ logic families

Takeuchi¹,

China²,

Miki³

et al. 2020

Opt. Express

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We propose a scalable readout interface for superconducting nanowire singlephoton detector (SSPD) arrays, which we call the AQFP/RSFQ interface. This interface is composed of adiabatic quantum flux parametron (AQFP) and rapid single flux quantum (RSFQ) logic families. The AQFP part reads out the spatial information of an SSPD array via a single cable, and the RSFQ part reads out the temporal information via a single cable. The hybrid interface has high temporal resolution owing to low timing jitter in the operation of the RSFQ part. In addition, the hybrid interface achieves high circuit scalability because of low supply current in the operation of the AQFP part. Therefore, the hybrid interface is suitable for handling many-pixel SSPD arrays. We demonstrate a four-pixel SSPD array using the hybrid interface as proof of concept. The measurement results show that the hybrid interface can read out all of the pixels with a low error rate and low timing jitter.

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Fumihiro China

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

Quantum detector tomography of a superconducting nanostrip photon-number-resolving detector

Generation of Schrödinger cat states with Wigner negativity using a continuous-wave low-loss waveguide optical parametric amplifier

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

Scalable readout interface for superconducting nanowire single-photon detectors using AQFP and RSFQ logic families

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Fumihiro China

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

Quantum detector tomography of a superconducting nanostrip photon-number-resolving detector

Generation of Schrödinger cat states with Wigner negativity using a continuous-wave low-loss waveguide optical parametric amplifier

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

Scalable readout interface for superconducting nanowire single-photon detectors using AQFP and RSFQ logic families

Contact Info

Product

Resources

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