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Fast self-testing quantum random number generator based on homodyne detection

Davide Rusca, Hamid Tebyanian, Anthony Martin, Hugo Zbinden

2020Applied Physics Letters29 citationsDOIOpen Access PDF

Abstract

Self-testing and semi-device independent protocols are becoming the preferred choice for quantum technologies, being able to certify their quantum nature with few assumptions and simple experimental implementations. In particular, for quantum random number generators, the possibility of monitoring, in real time, the entropy of the source only by measuring the input/output statistics is a characteristic that no other classical system could provide. The cost of this possibility is not necessarily increased complexity and reduced performance. Indeed, here we show that with a simple optical setup consisting of commercially available components, a high bit generation rate can be achieved. We manage to certify 145.5 MHz of quantum random bit generation rate.

Topics & Concepts

Random number generationQuantumQuantum sensorPhysicsEntropy (arrow of time)Statistical physicsQuantum opticsHomodyne detectionQuantum error correctionSimple (philosophy)Computer scienceQuantum mechanicsGenerator (circuit theory)Quantum imagingAlgorithmElectronic engineeringQuantum algorithmQuantum metrologyQuantum technologyQuantum networkMeasure (data warehouse)Quantum operationSignal generatorMathematicsQuantum informationQuantum systemOpen quantum systemQuantum capacityDirect-conversion receiverStochastic processRandom variableQuantum stateQuantum processQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureQuantum Mechanics and Applications
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