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Quantum key distribution integrating with ultra-high-power classical optical communications based on ultra-low-loss fiber

Jia-Qi Geng, Guan-Jie Fan-Yuan, Shuang Wang, Qi-Fa Zhang, Wei Chen, Zhen-Qiang Yin, De-Yong He, Guang-Can Guo, Zheng-Fu Han

2021Optics Letters29 citationsDOI

Abstract

The demand for the integration of quantum key distribution (QKD) and classical optical communication in the same optical fiber medium greatly increases as fiber resources and the flexibility of practical applications are taken into consideration. To satisfy the needs of the mass deployment of ultra-high power required for classical optical networks integrating QKD, we implement the discrete variable quantum key distribution (DV-QKD) under up to 25 dBm launch power from classical channels over 75 km on an ultra-low-loss (ULL) fiber by combining a finite-key security analysis method with the noise model of classical signals. To the best of our knowledge, this is the highest power launched by classical signals on the coexistence of DV-QKD and classical communication. The results exhibit the feasibility and tolerance of our QKD system for use in ultra-high-power classical communications.

Topics & Concepts

Quantum key distributionComputer scienceOptical fiberOptical communicationKey (lock)Quantum channelPower (physics)OpticsQuantum cryptographyElectronic engineeringQuantumPhysicsMulti-mode optical fiberFiber-optic communicationFlexibility (engineering)FiberQuantum information scienceNoise (video)Software deploymentOptical powerQuantum networkTelecommunicationsFree-space optical communicationCommunications systemQuantum opticsPolarization-maintaining optical fiberOptical Transport NetworkTopology (electrical circuits)Quantum informationPhotonicsPhase noiseQuantum noiseWavelength-division multiplexingTelecommunications networkBit error rateOptical cross-connectKey distributionQuantum teleportationOptical amplifierOptical fiber cableQuantum Information and CryptographyOptical Network TechnologiesAdvanced Frequency and Time Standards
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