Litcius/Paper detail

Coexistence of Continuous-Variable Quantum Key Distribution and Classical Data over 120 km Fiber

Adnan A. E. Hajomer, Ivan Derkach, Vladyslav C. Usenko, Ulrik L. Andersen, Tobias Gehring

2025Physical Review Letters9 citationsDOIOpen Access PDF

Abstract

Integrating quantum key distribution (QKD) with classical data transmission over the same fiber is crucial for scalable quantum-secured communication. However, noise from classical channels limits QKD distance. We demonstrate the longest-distance continuous-variable QKD (CV-QKD) over 120 km (20 dB loss) in the asymptotic regime, and over 100 km (17 dB loss) in the finite-size regime, both coexisting with a fully populated coarse wavelength division multiplexing system. Natural mode filtering of the local oscillator and phase noise mitigation enabled this without additional filtering or wavelength reallocation. Benchmarking against a commercial discrete-variable QKD system and considering finite-size effects confirms the feasibility of CV-QKD as a plug-and-play solution for typical 80-100 km long-haul optical networks. Our results set a record fiber distance for CV-QKD, showing its potential for cost-effective, large-scale deployment in existing network infrastructure.

Topics & Concepts

Quantum key distributionPhysicsMultiplexingPhase noiseNoise (video)Optical fiberTransmission (telecommunications)ScalabilityWavelength-division multiplexingFiberQuantum networkQuantum channelQuantum noiseLocal oscillatorKey (lock)QuantumInterference (communication)OpticsComputer scienceSingle-mode optical fiberWavelengthData transmissionQuantum opticsSet (abstract data type)Mode (computer interface)Statistical physicsOptical communicationCoherent statesBenchmarkingDispersion-shifted fiberPolarization-maintaining optical fiberCore (optical fiber)Multi-mode optical fiberElectronic engineeringDispersion (optics)Quantum information scienceFiber-optic communicationQuantum informationDistribution (mathematics)Phase (matter)Quantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum optics and atomic interactions