Coexistence of 11 Tbps (110×100 Gbps) classical optical communication and quantum key distribution based on single-mode fiber

Author:

Dou Tianqi,Liu Rende1,Liao Shengkai23ORCID,Tang Jianjun,Tong Jiangang,Ma Rui1,Wan Yingxuan1,Wang Ruichun4,Wu Jun4,Zhang Xiaolei5,Pan Zhengjun5,Li Yang23ORCID,Zhang Chengliang,Tang Shibiao1

Affiliation:

1. QuantumCTek Corporation Limited

2. University of Science and Technology of China

3. Shanghai Research Center for Quantum Sciences

4. Yangtze Optical Fiber and Cable Joint Stock Limited Company

5. Huawei Technologies Co., Ltd.

Abstract

Integrating quantum key distribution (QKD) with classical optical communication is a deployment-friendly and cost-effective approach to advancing QKD network implementation. However, the noise introduced by intense classical signals into the quantum channel severely impacts the performance of the QKD system, presenting challenges for long-distance coexistence transmission. In this paper, we successfully demonstrate the simultaneous propagation of QKD and optical transport network (OTN) in the C-band over distances exceeding 100 km. We establish a coexistence transmission system based on a commercial OTN equipment and QKD device equipped with the Fabry-Perot filters, demonstrating the feasibility of combining QKD with 11 Tbps (110×100 Gbps) classical data over a 101.86 km fiber. To investigate longer transmission distances, we employ an optimized wavelength allocation method and conduct the co-propagation of QKD and 1 Tbps classical data over a 152.34 km fiber. To the best of our knowledge, these results are the first time that report the integration of QKD and large-capacity classical communication over hundred-kilometer scale fiber. Our works represent a significant advancement in developing OTN networks incorporating QKD systems.

Funder

Innovation Program for Quantum Science and Technology

Publisher

Optica Publishing Group

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