Experimental demonstration of 17.5 Gb/s physical layer key distribution over 100 km fiber link based on channel physical intrinsic property and polarization reciprocity

Taihang Qiu; Taihang Qiu; Lei Deng; Lei Deng; Qi Yang; Qi Yang; Qi Yang; Xiaoxiao Dai; Xiaoxiao Dai; Deming Liu; Deming Liu; Deming Liu; Mengfan Cheng; Mengfan Cheng; Mengfan Cheng

doi:10.1364/OL.517847

Optics Letters
Vol. 49,
Issue 8,
pp. 2001-2004
(2024)
•https://doi.org/10.1364/OL.517847

Experimental demonstration of 17.5 Gb/s physical layer key distribution over 100 km fiber link based on channel physical intrinsic property and polarization reciprocity

Taihang Qiu, Lei Deng, Qi Yang, Xiaoxiao Dai, Deming Liu, and Mengfan Cheng

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Taihang Qiu, Lei Deng, Qi Yang, Xiaoxiao Dai, Deming Liu, and Mengfan Cheng, "Experimental demonstration of 17.5 Gb/s physical layer key distribution over 100 km fiber link based on channel physical intrinsic property and polarization reciprocity," Opt. Lett. 49, 2001-2004 (2024)

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Table of Contents Category
- Fiber Optics and Optical Communications
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The topics in this list come from the Optics and Photonics Topics applied to this article.

About this Article
History
- Original Manuscript: January 5, 2024
- Revised Manuscript: March 5, 2024
- Manuscript Accepted: March 6, 2024
- Published: April 9, 2024

Abstract

Secure key distribution (SKD) schemes based on fiber channel reciprocity provide information-theoretic security as well as a simple symmetric structure. However, the nonlinear effects and backscattering effects introduced during the bidirectional transmission process degrade the channel reciprocity. Recent unidirectional SKD schemes avoid non-reciprocal factors but require additional negotiation mechanisms to aggregate the transmitter and receiver data. Here, we propose a unidirectional SKD scheme based on channel physical intrinsic property and polarization reciprocity. The designed loopback structure constructs asymmetry between legitimate and illegitimate parties while aggregating data. The deployment of a broadband chaotic entropy source significantly improves the key generation rate (KGR). In the experiment, the KGR reaches 17.5 Gb/s, and the distribution distance reaches 100 km.

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Data underlying the results presented in this paper are not publicly available at this time but may be obtained from the authors upon reasonable request.

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Scheme	KGR (b/s)	Distance (km)	Uni/Bidirectional
[7]	127.12 M	300	Bidirectional
[8]	2.7 G	10	Bidirectional
[10]	2.07 G	10	Bidirectional
[12]	1.85 G	50	Bidirectional
[17]	3.07 G	300	Unidirectional
This work	17.5 G	100	Unidirectional

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