Papers - YOSHIDA Daisuke

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Multiplexed quantum repeaters based on single-photon interference with mild stabilization

Yoshida, D; Horikiri, T

COMMUNICATIONS PHYSICS   7 ( 1 )   2024.11  [Reviewed]

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Space-division multiplexed phase compensation for quantum communication: concept and field demonstration

Maruyama, R; Yoshida, D; Nagano, K; Kouyou, K; Tsurusawa, H; Horikiri, T

Optica Quantum   3 ( 2 )   137 - 146   2025.2  [Reviewed]

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Frequency-multiplexed on-demand storage in five modes of atomic frequency comb through simultaneous application of control pulses

Masuko, T; Yoshida, D; Aida, A; Hong, FL; Horikiri, T

APPLIED OPTICS   63 ( 7 )   1875 - 1880   2024.3  [Reviewed]

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Characterisation of storage efficiency in magnetic field for extending coherence time of Pr:YSO quantum memory

Minaguchi, K; Masuko, T; Nodaguchi, Y; Yoshida, D; Nakamura, I; Hong, FL; Horikiri, T

JAPANESE JOURNAL OF APPLIED PHYSICS   63 ( 1 )   2024.1  [Reviewed]

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Frequency-multiplexed Hong-Ou-Mandel interference

Ichihara, M; Yoshida, D; Hong, FL; Horikiri, T

PHYSICAL REVIEW A   107 ( 3 )   2023.3  [Reviewed]

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Frequency-Multiplexed Storage and Distribution of Narrowband Telecom Photon Pairs over a 10-km Fiber Link with Long-Term System Stability

Ito, K; Kondo, T; Mannami, K; Niizeki, K; Yoshida, D; Minaguchi, K; Zheng, MY; Xie, XP; Hong, FL; H … Show more authors

PHYSICAL REVIEW APPLIED   19 ( 2 )   2023.2  [Reviewed]

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Single-shot high-resolution identification of discrete frequency modes of single-photon-level optical pulses

Yoshida, D; Ichihara, M; Kondo, T; Hong, FL; Horikiri, T

PHYSICAL REVIEW A   106 ( 5 )   2022.11  [Reviewed]

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Cavity-enhanced two-photon source emitting narrow linewidth telecommunication wavelength photons for improved quantum memory-coupling efficiency enabling long-distance quantum communications

Onozawa, R; Yoshida, D; Niizeki, K; Horikiri, T

JAPANESE JOURNAL OF APPLIED PHYSICS   61 ( 10 )   2022.10  [Reviewed]

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Transfer of linewidth and frequency stability from an iodine-stabilized Nd:YAG laser to a quantum memory control laser through an optical frequency comb

Kondo Takeshi, Shindo Seiho, Yoshida Daisuke, Goji Yuma, Nishihara Mikitaka, Aizawa Taiki, Hong Fen … Show more authors

Japanese Journal of Applied Physics   61 ( 8 )   088003   2022.8  [Reviewed]

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To implement quantum repeaters for long-distance quantum communications, frequency stabilization is necessary for coupling telecommunication wavelength photons with quantum memories that operate in the visible region. Here, a narrow-linewidth optical frequency comb for frequency stabilization is developed through phase-locking to an iodine-stabilized Nd:YAG laser using high-speed servo control. Subsequently, we phase lock a Pr3+:Y2SiO5 (Pr:YSO) quantum memory control laser to the developed optical frequency comb for linewidth transfer. The obtained linewidth (3.1 kHz) and frequency stability (1.84 x 10(-12) at an average time of 0.01 s) are sufficient for multimode storage in Pr:YSO quantum memory.

Coupling of a quantum memory and telecommunication wavelength photons for high-rate entanglement distribution in quantum repeaters

Mannami Kyoko, Kondo Takeshi, Tsuno Tomoki, Miyashita Takuto, Yoshida Daisuke, Ito Ko, Niizeki Kazu … Show more authors

Optics Express   29 ( 25 )   41522 - 41533   2021.12  [Reviewed]

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Language：English   Publishing type：Research paper (scientific journal)   Publisher：Optical Society of America(OSA)   Joint Work  

Quantum repeaters are indispensable tools for long-distance quantum communication. However, frequency matching between entangled photon sources and remote quantum memories (QMs) is difficult, which is an obstacle to the implementation of quantum repeaters. In this paper, we demonstrate a method to achieve the coupling of a Pr:YSO as a fixed-time QM with a single telecommunication-wavelength photon through frequency stabilization using an optical frequency comb over all applied laser wavelengths. The demonstrated method can lead to the implementation of a quantum repeater scheme enabling an improvement of the entanglement generation rate, paving the way for long-distance quantum communication. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Two-photon comb with wavelength conversion and 20-km distribution for quantum communication

Niizeki, K; Yoshida, D; Ito, K; Nakamura, I; Takei, N; Okamura, K; Zheng, MY; Xie, XP; Horikiri, T

COMMUNICATIONS PHYSICS   3 ( 1 )   2020.8  [Reviewed]

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Entanglement distribution between quantum repeater nodes with an absorptive type memory

Yoshida, D; Niizeki, K; Tamura, S; Horikiri, T

INTERNATIONAL JOURNAL OF QUANTUM INFORMATION   18 ( 5 )   2020.8  [Reviewed]

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