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Continuous-variable quantum key distribution at 10 GBaud using an integrated photonic-electronic receiver

Adnan A. E. Hajomer, Cédric Bruynsteen, Ivan Derkach, Nitin Jain, Axl Bomhals, Sarah Bastiaens, Ulrik L. Andersen, Xin Yin, Tobias Gehring

2024Optica73 citationsDOIOpen Access PDF

Abstract

Quantum key distribution (QKD) is a widely recognized application of quantum information theory, guaranteeing information-theoretically secure key exchange. However, commercial viability of QKD systems is currently impeded by issues such as scalability, network integration, and high manufacturing costs. Low-cost, high-volume production of photonic and electronic integrated circuits could be the breakthrough needed for broad-scale deployment of cutting-edge QKD systems. Here, we present a continuous-variable (CV) QKD system that is based on an integrated photonic-electronic receiver. It combines a silicon photonic integrated circuit, featuring a phase-diverse receiver, with custom-designed GaAs pHEMT transimpedance amplifiers. Operating at a classical telecom symbol rate of 10 GBaud, our QKD system generates high secret key rates - exceeding 0.7 Gb/s over a 5 km distance and 0.3 Gb/s over a 10 km. The secret keys are secure against collective attacks, even when accounting for finite-size effects in the parameter estimation, thanks to well-designed digital signal processing that enables broadband system operation. Our experiment sets a record for secure key exchange and paves the way for the implementation of real-time broadband CV-QKD systems.

Topics & Concepts

Quantum key distributionComputer sciencePhotonicsElectronic engineeringKey (lock)BroadbandKey exchangeScalabilityTelecommunicationsComputer networkEngineeringPhysicsPhotonOptoelectronicsOpticsEncryptionDatabaseComputer securityPublic-key cryptographyQuantum Information and CryptographyQuantum optics and atomic interactionsOptical Network Technologies