Long-distance entanglement-based quantum key distribution experiment using practical detectors

Hiroki Takesue; Ken Ichi Harada; Kiyoshi Tamaki; Hiroshi Fukuda; Tai Tsuchizawa; Toshifumi Watanabe; Koji Yamada; Sei Ichi Itabashi

doi:10.1364/OE.18.016777

Long-distance entanglement-based quantum key distribution experiment using practical detectors

Hiroki Takesue^*, Ken Ichi Harada, Kiyoshi Tamaki, Hiroshi Fukuda, Tai Tsuchizawa, Toshifumi Watanabe, Koji Yamada, Sei Ichi Itabashi

^*Corresponding author for this work

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31 Scopus citations

Abstract

We report an entanglement-based quantum key distribution experiment that we performed over 100 km of optical fiber using a practical source and detectors. We used a silicon-based photon-pair source that generated high-purity time-bin entangled photons, and high-speed single photon detectors based on InGaAs/InP avalanche photodiodes with the sinusoidal gating technique. To calculate the secure key rate, we employed a security proof that validated the use of practical detectors. As a result, we confirmed the successful generation of sifted keys over 100 km of optical fiber with a key rate of 4.8 bit/s and an error rate of 9.1%, with which we can distill secure keys with a key rate of 0.15 bit/s.

Original language	English
Pages (from-to)	16777-16787
Number of pages	11
Journal	Optics Express
Volume	18
Issue number	16
DOIs	https://doi.org/10.1364/OE.18.016777
State	Published - 2010/08/02

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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title = "Long-distance entanglement-based quantum key distribution experiment using practical detectors",

abstract = "We report an entanglement-based quantum key distribution experiment that we performed over 100 km of optical fiber using a practical source and detectors. We used a silicon-based photon-pair source that generated high-purity time-bin entangled photons, and high-speed single photon detectors based on InGaAs/InP avalanche photodiodes with the sinusoidal gating technique. To calculate the secure key rate, we employed a security proof that validated the use of practical detectors. As a result, we confirmed the successful generation of sifted keys over 100 km of optical fiber with a key rate of 4.8 bit/s and an error rate of 9.1%, with which we can distill secure keys with a key rate of 0.15 bit/s.",

author = "Hiroki Takesue and Harada, {Ken Ichi} and Kiyoshi Tamaki and Hiroshi Fukuda and Tai Tsuchizawa and Toshifumi Watanabe and Koji Yamada and Itabashi, {Sei Ichi}",

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T1 - Long-distance entanglement-based quantum key distribution experiment using practical detectors

AU - Takesue, Hiroki

AU - Harada, Ken Ichi

AU - Tamaki, Kiyoshi

AU - Fukuda, Hiroshi

AU - Tsuchizawa, Tai

AU - Watanabe, Toshifumi

AU - Yamada, Koji

AU - Itabashi, Sei Ichi

PY - 2010/8/2

Y1 - 2010/8/2

N2 - We report an entanglement-based quantum key distribution experiment that we performed over 100 km of optical fiber using a practical source and detectors. We used a silicon-based photon-pair source that generated high-purity time-bin entangled photons, and high-speed single photon detectors based on InGaAs/InP avalanche photodiodes with the sinusoidal gating technique. To calculate the secure key rate, we employed a security proof that validated the use of practical detectors. As a result, we confirmed the successful generation of sifted keys over 100 km of optical fiber with a key rate of 4.8 bit/s and an error rate of 9.1%, with which we can distill secure keys with a key rate of 0.15 bit/s.

AB - We report an entanglement-based quantum key distribution experiment that we performed over 100 km of optical fiber using a practical source and detectors. We used a silicon-based photon-pair source that generated high-purity time-bin entangled photons, and high-speed single photon detectors based on InGaAs/InP avalanche photodiodes with the sinusoidal gating technique. To calculate the secure key rate, we employed a security proof that validated the use of practical detectors. As a result, we confirmed the successful generation of sifted keys over 100 km of optical fiber with a key rate of 4.8 bit/s and an error rate of 9.1%, with which we can distill secure keys with a key rate of 0.15 bit/s.

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Long-distance entanglement-based quantum key distribution experiment using practical detectors

Abstract

ASJC Scopus subject areas

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