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Full polarization random drift compensation method for quantum communication

Mariana F. Ramos, Nuno A. Silva, Nelson J. Muga, Armando N. Pinto

2022Optics Express17 citationsDOIOpen Access PDF

Abstract

Long-term quantum key distribution (QKD) using polarization encoding requires a random drift compensation method. We propose a method to compensate any state of polarization based on the quantum bit error rate (QBER) of two states from two non-orthogonal mutually unbiased bases. The proposed method does not require dedicated equipment, and through a simple but highly efficient feedback loop it compensates the polarization random drift suffered by photons while transmitted over the optical fiber quantum channel. A QBER lower than 2% was observed even considering imperfect single photon detectors. Besides, we verify a 82% secret key rate generation improvement in a finite-key size BB84 implementation for a 40 km fiber-optics quantum channel.

Topics & Concepts

Quantum key distributionBB84PhysicsPhotonOpticsPolarization (electrochemistry)Photon polarizationQuantum cryptographyQuantumQuantum information scienceOptical fiberQuantum channelOptical communicationQuantum imagingPolarization mode dispersionQuantum opticsBit error rateComputer sciencePolarization controllerQuantum sensorFeedback loopCoherent statesRobustness (evolution)ImperfectQuantum stateSingle-photon sourceQuantum networkKey generationPhoton countingQuantum informationElectronic engineeringFree-space optical communicationQuantum error correctionCompensation (psychology)Multi-mode optical fiberQuantum Information and CryptographyOptical Network TechnologiesQuantum optics and atomic interactions
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