First Demonstration of 25λ × 10 Gb/s C+L Band Classical / DV-QKD Co-Existence Over Single Bidirectional Fiber Link

Florian Honz; Florian Prawits; Obada Alia; Hesham Sakr; Thomas Bradley; Cong Zhang; Radan Slavik; Francesco Poletti; George Kanellos; Reza Nejabati; Philip Walther; Dimitra Simeonidou; Hannes Hübel; Bernhard Schrenk

doi:10.1109/JLT.2023.3256352

First Demonstration of 25λ × 10 Gb/s C+L Band Classical / DV-QKD Co-Existence Over Single Bidirectional Fiber Link

Florian Honz (Korresp. Autor*in), Florian Prawits, Obada Alia, Hesham Sakr, Thomas Bradley, Cong Zhang, Radan Slavik, Francesco Poletti, George Kanellos, Reza Nejabati, Philip Walther, Dimitra Simeonidou, Hannes Hübel, Bernhard Schrenk

Quantenoptik, Quantennanophysik und Quanteninformation

Veröffentlichungen: Beitrag in Fachzeitschrift › Artikel › Peer Reviewed

Abstract

As quantum key distribution has reached the maturity level for practical deployment, questions about the co-integration with existing classical communication systems are of utmost importance. To this end we demonstrate how the co-propagation of classical and quantum signals can benefit from the development of novel hollow-core fibers. We demonstrate a secure key rate of 330 bit/s for a quantum channel at 1538 nm in the presence of 25 × 10 Gb/s classical channels, transmitted at an aggregated launch power of 12 dBm, spanning over the C+L-band in the same hollow-core fiber link. Furthermore, we show the co-integration of the classical key-distillation channel onto this fiber link, turning it into a bidirectional fiber link and thereby mitigating the need for multiple fibers. We believe this to be an important step towards the deployment and integration of hollow-core fibers together with DV-QKD for the inherently secure telecom network of the future.

Originalsprache	Englisch
Seiten (von - bis)	3587-3593
Seitenumfang	7
Fachzeitschrift	Journal of Lightwave Technology
Jahrgang	41
Ausgabenummer	11
DOIs	https://doi.org/10.1109/JLT.2023.3256352
Publikationsstatus	Veröffentlicht - 1 Juni 2023

ÖFOS 2012

103021 Optik
103025 Quantenmechanik

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10.1109/JLT.2023.3256352

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Honz, F., Prawits, F., Alia, O., Sakr, H., Bradley, T., Zhang, C., Slavik, R., Poletti, F., Kanellos, G., Nejabati, R., Walther, P., Simeonidou, D., Hübel, H., & Schrenk, B. (2023). First Demonstration of 25λ × 10 Gb/s C+L Band Classical / DV-QKD Co-Existence Over Single Bidirectional Fiber Link. Journal of Lightwave Technology, 41(11), 3587-3593. https://doi.org/10.1109/JLT.2023.3256352

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title = "First Demonstration of 25λ × 10 Gb/s C+L Band Classical / DV-QKD Co-Existence Over Single Bidirectional Fiber Link",

abstract = "As quantum key distribution has reached the maturity level for practical deployment, questions about the co-integration with existing classical communication systems are of utmost importance. To this end we demonstrate how the co-propagation of classical and quantum signals can benefit from the development of novel hollow-core fibers. We demonstrate a secure key rate of 330 bit/s for a quantum channel at 1538 nm in the presence of 25 × 10 Gb/s classical channels, transmitted at an aggregated launch power of 12 dBm, spanning over the C+L-band in the same hollow-core fiber link. Furthermore, we show the co-integration of the classical key-distillation channel onto this fiber link, turning it into a bidirectional fiber link and thereby mitigating the need for multiple fibers. We believe this to be an important step towards the deployment and integration of hollow-core fibers together with DV-QKD for the inherently secure telecom network of the future.",

keywords = "Multiplexing, optical fiber communication, optical fibers, quantum communication, quantum cryptography, quantum key distribution, Raman scattering",

author = "Florian Honz and Florian Prawits and Obada Alia and Hesham Sakr and Thomas Bradley and Cong Zhang and Radan Slavik and Francesco Poletti and George Kanellos and Reza Nejabati and Philip Walther and Dimitra Simeonidou and Hannes H{\"u}bel and Bernhard Schrenk",

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Honz, F, Prawits, F, Alia, O, Sakr, H, Bradley, T, Zhang, C, Slavik, R, Poletti, F, Kanellos, G, Nejabati, R, Walther, P, Simeonidou, D, Hübel, H & Schrenk, B 2023, 'First Demonstration of 25λ × 10 Gb/s C+L Band Classical / DV-QKD Co-Existence Over Single Bidirectional Fiber Link', Journal of Lightwave Technology, Jg. 41, Nr. 11, S. 3587-3593. https://doi.org/10.1109/JLT.2023.3256352

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AU - Honz, Florian

AU - Prawits, Florian

AU - Alia, Obada

AU - Sakr, Hesham

AU - Bradley, Thomas

AU - Zhang, Cong

AU - Slavik, Radan

AU - Poletti, Francesco

AU - Kanellos, George

AU - Nejabati, Reza

AU - Walther, Philip

AU - Simeonidou, Dimitra

AU - Hübel, Hannes

AU - Schrenk, Bernhard

PY - 2023/6/1

Y1 - 2023/6/1

N2 - As quantum key distribution has reached the maturity level for practical deployment, questions about the co-integration with existing classical communication systems are of utmost importance. To this end we demonstrate how the co-propagation of classical and quantum signals can benefit from the development of novel hollow-core fibers. We demonstrate a secure key rate of 330 bit/s for a quantum channel at 1538 nm in the presence of 25 × 10 Gb/s classical channels, transmitted at an aggregated launch power of 12 dBm, spanning over the C+L-band in the same hollow-core fiber link. Furthermore, we show the co-integration of the classical key-distillation channel onto this fiber link, turning it into a bidirectional fiber link and thereby mitigating the need for multiple fibers. We believe this to be an important step towards the deployment and integration of hollow-core fibers together with DV-QKD for the inherently secure telecom network of the future.

AB - As quantum key distribution has reached the maturity level for practical deployment, questions about the co-integration with existing classical communication systems are of utmost importance. To this end we demonstrate how the co-propagation of classical and quantum signals can benefit from the development of novel hollow-core fibers. We demonstrate a secure key rate of 330 bit/s for a quantum channel at 1538 nm in the presence of 25 × 10 Gb/s classical channels, transmitted at an aggregated launch power of 12 dBm, spanning over the C+L-band in the same hollow-core fiber link. Furthermore, we show the co-integration of the classical key-distillation channel onto this fiber link, turning it into a bidirectional fiber link and thereby mitigating the need for multiple fibers. We believe this to be an important step towards the deployment and integration of hollow-core fibers together with DV-QKD for the inherently secure telecom network of the future.

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First Demonstration of 25λ × 10 Gb/s C+L Band Classical / DV-QKD Co-Existence Over Single Bidirectional Fiber Link

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ÖFOS 2012

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