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Stable, low-error, and calibration-free polarization encoder for free-space quantum communication

Marco Avesani, Costantino Agnesi, Andrea Stanco, Giuseppe Vallone, Paolo Villoresi

2020Optics Letters43 citationsDOIOpen Access PDF

Abstract

Polarization-encoded free-space quantum communication requires a quantum state source featuring fast modulation, long-term stability, and a low intrinsic error rate. Here we present a polarization encoder that, contrary to previous solutions, generates predetermined polarization states with a fixed reference frame in free-space. The proposed device does not require calibration either at the transmitter or at the receiver and achieves long-term stability. A proof-of-concept experiment is also reported, demonstrating a quantum bit error rate lower than 0.2% for several hours without any active recalibration.

Topics & Concepts

PhysicsEncoderOpticsPolarization (electrochemistry)TransmitterQuantumQuantum information scienceQuantum channelBit error rateQuantum key distributionQuantum error correctionComputer scienceOptical communicationBeam splitterError detection and correctionQuantum stateQuantum imagingQuantum informationQuantum sensorElectronic engineeringCoherent statesQuantum networkReference frameQuantum cryptographyPhoton polarizationBit rateQuantum teleportationFree-space optical communicationQuantum opticsQuantum computerOptoelectronicsForward error correctionQuantum mechanicsQuantum noiseOptical circulatorQuantum Information and CryptographyOptical Network TechnologiesOptical Wireless Communication Technologies
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