Tatsuki Sonoyama scite author profile

Tatsuki Sonoyama

5Publications

30Citation Statements Received

0Citation Statements Given

How they've been cited

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148

Affiliations

The University of Tokyo

Publications

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

et al. 2021

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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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Non-Gaussian quantum state generation by multi-photon subtraction at the telecommunication wavelength

Endo

Sonoyama

et al. 2023

Opt. Express

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In the field of continuous-variable quantum information processing, non-Gaussian states with negative values of the Wigner function are crucial for the development of a fault-tolerant universal quantum computer. While several non-Gaussian states have been generated experimentally, none have been created using ultrashort optical wave packets, which are necessary for high-speed quantum computation, in the telecommunication wavelength band where mature optical communication technology is available. In this paper, we present the generation of non-Gaussian states on wave packets with a short 8-ps duration in the 1545.32 nm telecommunication wavelength band using photon subtraction up to three photons. We used a low-loss, quasi-single spatial mode waveguide optical parametric amplifier, a superconducting transition edge sensor, and a phase-locked pulsed homodyne measurement system to observe negative values of the Wigner function without loss correction up to three-photon subtraction. These results can be extended to the generation of more complicated non-Gaussian states and are a key technology in the pursuit of high-speed optical quantum computation.

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Timing jitter removers of photon detectors

Sonoyama¹,

Takahashi²,

Charoensombutamon³

et al. 2022

Preprint

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Non-Gaussian state generation by multi-photon subtraction at the telecommunication wavelength

Endo

Sonoyama

et al. 2023

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Analysis of optical quantum state preparation using photon detectors in the finite-temporal-resolution regime

et al. 2022

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