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An optical chip for self-testing quantum random number generation

Nicolò Leone, Davide Rusca, Stefano Azzini, Giorgio Fontana, Fabio Acerbi, A. Gola, Alessandro Tontini, Nicola Massari, Hugo Zbinden, Lorenzo Pavesi

2020APL Photonics20 citationsDOIOpen Access PDF

Abstract

We present an implementation of a semi-device-independent protocol of the generation of quantum random numbers in a fully integrated silicon chip. The system is based on a prepare-and-measure scheme, where we integrate a partially trusted source of photons and an untrusted single photon detector. The source is a silicon photomultiplier, which emits photons during the avalanche impact ionization process, while the detector is a single photon avalanche diode. The proposed protocol requires only a few and reasonable assumptions on the generated states. It is sufficient to measure the statistics of generation and detection in order to evaluate the min-entropy of the output sequence, conditioned on all possible classical side information. We demonstrate that this protocol, previously realized with a bulky laboratory setup, is totally applicable to a compact and fully integrated chip with an estimated throughput of 6 kHz of the certified quantum random bit rate.

Topics & Concepts

DetectorRandom number generationPhotonSilicon photomultiplierChipPhysicsQuantum key distributionComputer sciencePhotomultiplierOpticsOptoelectronicsElectronic engineeringAlgorithmTelecommunicationsEngineeringScintillatorQuantum Mechanics and ApplicationsNeural dynamics and brain functionQuantum Information and Cryptography
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