Quantum Teleportation Coexisting with Conventional Classical Communications in Optical Fiber

Jordan M. Thomas, Fei I. Yeh, Jim Hao Chen, Joe J. Mambretti, Scott J. Kohlert, Gregory S. Kanter, Prem Kumar
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Abstract

The ability for quantum and classical networks to operate in the same optical fibers would aid the deployment of quantum network technology. However, quantum performance can be susceptible to noise photons generated by spontaneous Raman scattering of high-power coexisting classical light. Quantum teleportation is a fundamental operation in quantum networking, but has yet to be demonstrated in fibers populated with high data rate conventional optical signals. In this paper, we demonstrate a three-node quantum state teleportation system coexisting with 400-Gbps C-band classical communications in 30.2 km of fiber. To protect quantum fidelity, Raman noise rates are suppressed using optimized O-band quantum channels and filtering in multiple degrees of freedom. Fidelity is shown to be well maintained with elevated classical powers as high as 18.7 dBm, which could support multiple classical channels with many terabits/s aggregate data rates. These results show the feasibility of advanced quantum and classical network applications operating within a unified fiber infrastructure.
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光纤中与传统经典通信共存的量子远距传输
量子网络和经典网络在同一根光纤中运行的能力将有助于量子网络技术的部署。然而,量子性能容易受到共存的高功率经典光的自发拉曼散射所产生的噪声光子的影响。量子远距传输是量子网络中的一项基本操作,但在装有高数据速率传统光信号的光纤中尚未得到证实。为了保护量子保真度,我们使用优化的 O 波段量子信道和多自由度滤波来抑制拉曼噪声率。结果表明,在经典功率高达 18.7dBm 的情况下,保真度仍能得到很好的维持,这可以支持多条具有数太比特/聚合数据速率的经典信道。这些结果表明,在统一的光纤基础设施内运行先进的量子和经典网络应用是可行的。
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