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Bias-free source-independent quantum random number generator

Ziyong Zheng, Yichen Zhang, Min Huang, Ziyang Chen, Song Yu, Hong Guo

2020Optics Express24 citationsDOIOpen Access PDF

Abstract

A bias-free source-independent quantum random number generator scheme based on the measurement of vacuum fluctuation is proposed to realize the effective elimination of system bias and common mode noise introduced by the local oscillator. Optimal parameter settings are derived to avoid the system recording two canonically conjugate quadratures simultaneously in each measurement. In particular, it provides a new approach to investigate the performance difference between measuring two quadratures of equal and unequal intensity. It is experimentally demonstrated that the system supports 4.2 Gbps bias-free source-independent random number generation, where its common mode rejection ratio reaches 61.17 dB. Furthermore, the scheme offers an all-optical method facilitating the integration of source-independent quantum random number generators into compact chips.

Topics & Concepts

Random number generationQuantumGenerator (circuit theory)PhysicsQuantum noiseMode (computer interface)Scheme (mathematics)Quantum systemNoise (video)OpticsQuantum mechanicsComputer scienceQuantum fluctuationMathematicsTopology (electrical circuits)Statistical physicsQuantum opticsQuantum error correctionQuantum channelRandom noiseAlgorithmQuantum informationQuantum sensorStochastic processMeasure (data warehouse)Quantum algorithmQuantum metrologyQuantum key distributionSignal generatorChaos-based Image/Signal EncryptionQuantum Information and CryptographyChaos control and synchronization
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