yan-lin tang scite author profile

yan-lin tang

4Publications

0Citation Statements Received

41Citation Statements Given

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Affiliations

Shandong Institute of Quantum Science and Technology, QuantumCTek (China)

Publications

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Field test of quantum key distribution over aerial fiber based on simple and stable modulation

tang

Xie

Zhang³

et al. 2023

Opt. Express

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We have developed a simple time-bin phase encoding quantum key distribution system, using the optical injection locking technique. This setup incorporates both the merits of simplicity and stability in encoding, and immunity to channel disturbance. We have demonstrated the field implementation of quantum key distribution over long-distance deployed aerial fiber automatically. During the 70-day field test, we achieved approximately a 1.0 kbps secure key rate with stable performance. Our work takes an important step toward widespread implementation of QKD systems in diverse and complex real-life scenarios.

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Time-bin phase-encoding quantum key distribution using Sagnac-based optics and compatible electronics

tang¹,

Zhang²,

Li³

et al. 2023

Opt. Express

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In this work, we present a new time-bin phase-encoding quantum key distribution (QKD), where the transmitter utilizes an inherently stable Sagnac-type interferometer, and has comparable electrical requirements to existing polarization or phase encoding schemes. This approach does not require intensity calibration and is insensitive to environmental disturbances, making it both flexible and high-performing. We conducted experiments with a compact QKD system to demonstrate the stability and secure key rate performance of the presented scheme. The results show a typical secure key rate of 6.2 kbps@20 dB and 0.4 kbps@30 dB with channel loss emulated by variable optical attenuators. A continuous test of 120-km fiber spool shows a stable quantum bit error rate of the time-bin basis within 0.4%∼0.6% over a consecutive 9-day period without any adjustment. This intrinsically stable and compatible scheme of time-bin phase encoding is extensively applicable in various QKD experiments, including BB84 and measurement-device-independent QKD.

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Field test of quantum key distribution over aerial fiber based on simple and stable modulation

tang¹,

Xie²,

Zhang³

et al. 2023

Preprint

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We have developed a simple time-bin phase encoding quantum key distribution system, using the optical injection locking technique. This setup incorporates both the merits of simplicity and stability in encoding, and the immunity to channel disturbance. We have demonstrated, to our knowledge, the longest field implementation of quantum key distribution over deployed aerial fiber with a distance of 87 km. During the 70-day field test, we achieved approximately a 1.0 kbps secure key rate with stable performance. Our work takes an important step toward widespread implementation of QKD systems in diverse and complex real-life scenarios.

show abstract

Field test of quantum key distribution over aerial fiber based on simple and stable modulation

tang¹,

Xie²,

Zhang³

et al. 2023

Preprint

View full text Add to dashboard Cite

We have developed a simple time-bin phase encoding quantum key distribution system, using the optical injection locking technique. This setup incorporates both the merits of simplicity and stability in encoding, and the immunity to channel disturbance. We have demonstrated, to our knowledge, the longest field implementation of quantum key distribution over deployed aerial fiber with a distance of 87 km. During the 70-day field test, we achieved approximately a 1.0 kbps secure key rate with stable performance. Our work takes an important step toward widespread implementation of QKD systems in diverse and complex real-life scenarios.

show abstract

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yan-lin tang

Field test of quantum key distribution over aerial fiber based on simple and stable modulation

Time-bin phase-encoding quantum key distribution using Sagnac-based optics and compatible electronics

Field test of quantum key distribution over aerial fiber based on simple and stable modulation

Field test of quantum key distribution over aerial fiber based on simple and stable modulation

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