Homodyne-based quantum random number generator at 2.9 Gbps secure against quantum side-information

Tobias Gehring; Cosmo Lupo; Arne Kordts; Dino Solar Nikolic; Nitin Jain; Tobias Rydberg; Thomas B. Pedersen; Stefano Pirandola; Ulrik L. Andersen

doi:10.1038/s41467-020-20813-w

Nature Communications (Jan 2021)

Homodyne-based quantum random number generator at 2.9 Gbps secure against quantum side-information

Tobias Gehring,
Cosmo Lupo,
Arne Kordts,
Dino Solar Nikolic,
Nitin Jain,
Tobias Rydberg,
Thomas B. Pedersen,
Stefano Pirandola,
Ulrik L. Andersen

Affiliations

Tobias Gehring: Center for Macroscopic Quantum States (bigQ), Department of Physics, Technical University of Denmark
Cosmo Lupo: Department of Computer Science, University of York
Arne Kordts: Center for Macroscopic Quantum States (bigQ), Department of Physics, Technical University of Denmark
Dino Solar Nikolic: Center for Macroscopic Quantum States (bigQ), Department of Physics, Technical University of Denmark
Nitin Jain: Center for Macroscopic Quantum States (bigQ), Department of Physics, Technical University of Denmark
Tobias Rydberg: Center for Macroscopic Quantum States (bigQ), Department of Physics, Technical University of Denmark
Thomas B. Pedersen: Cryptomathic A/S
Stefano Pirandola: Department of Computer Science, University of York
Ulrik L. Andersen: Center for Macroscopic Quantum States (bigQ), Department of Physics, Technical University of Denmark

DOI: https://doi.org/10.1038/s41467-020-20813-w
Journal volume & issue: Vol. 12, no. 1
pp. 1 – 11

Abstract

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Security analyses for trusted quantum random number generators usually consider only classical side-information. Here, the authors fill this gap by fully characterising the experimental apparatus of a homodyne-based QRNG, assuming that the vacuum fluctuations and noise are stationary and Gaussian.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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