Experimental Demonstration of the Coexistence of Phase-Time Coding QKD with Intense C-Band Signals

IF 0.48 Q4 Physics and Astronomy Bulletin of the Russian Academy of Sciences: Physics Pub Date : 2025-02-25 DOI:10.1134/S106287382470936X

A. V. Borisova, K. V. Stepanov, A. N. Klimov, A. S. Timoshenko

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Abstract

Integration of quantum key distribution (QKD) into existing optical transport network is one of the important problems that should be solved to expand the applicability of QKD systems and to develop quantum networks. When multiplexing a quantum channel with classical ones, researchers and engineers are faced with a high background count rate caused by spontaneous Raman scattering. This paper presents the results of Raman noise measurement in the O-band at different distances and launched power of the C-Band channels. Based on this data, the 1310 nm QKD system capable to integrate into DWDM optical network was developed. Its performance has been experimentally confirmed in testing on coexistence with intense C-band signals. The experiments were carried out on the propagation of classical and quantum signals in the same fiber as well as in the opposite directions. As a result, the stable QKD over a distance up to 60 km with a total launched power of classical channels up to 20 mW has been demonstrated.

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相位时编码QKD与强c波段信号共存的实验证明

将量子密钥分发（QKD）集成到现有的光传输网络中是扩大量子密钥分发系统适用性和发展量子网络需要解决的重要问题之一。当量子信道与经典信道复用时，研究人员和工程师面临着由自发拉曼散射引起的高背景计数率。本文给出了不同距离和c波段发射功率下o波段拉曼噪声的测量结果。在此基础上，开发了能够集成到DWDM光网络中的1310nm QKD系统。在与强c波段信号共存的实验中证实了其性能。对经典信号和量子信号在同一光纤中以及在相反方向上的传播进行了实验。因此，在长达60公里的距离上，在经典信道的总发射功率高达20兆瓦的情况下，稳定的QKD已经被证明。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Bulletin of the Russian Academy of Sciences: Physics Physics and Astronomy-Physics and Astronomy (all)

CiteScore

0.90

自引率

0.00%

发文量

251

期刊介绍： Bulletin of the Russian Academy of Sciences: Physics is an international peer reviewed journal published with the participation of the Russian Academy of Sciences. It presents full-text articles (regular, letters to the editor, reviews) with the most recent results in miscellaneous fields of physics and astronomy: nuclear physics, cosmic rays, condensed matter physics, plasma physics, optics and photonics, nanotechnologies, solar and astrophysics, physical applications in material sciences, life sciences, etc. Bulletin of the Russian Academy of Sciences: Physics focuses on the most relevant multidisciplinary topics in natural sciences, both fundamental and applied. Manuscripts can be submitted in Russian and English languages and are subject to peer review. Accepted articles are usually combined in thematic issues on certain topics according to the journal editorial policy. Authors featured in the journal represent renowned scientific laboratories and institutes from different countries, including large international collaborations. There are globally recognized researchers among the authors: Nobel laureates and recipients of other awards, and members of national academies of sciences and international scientific societies.

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