A remarkable aspect of quantum theory is that certain measurement outcomes are entirely unpredictable to all possible observers. Such quantum events can be harnessed to generate numbers whose randomness is asserted based upon the underlying physical processes. We formally introduce, design and experimentally demonstrate an ultrafast optical quantum random number generator that uses a totally untrusted photonic source. While considering completely general quantum attacks, we certify and generate in real-time random numbers at a rate of 8.05Gb/s with a rigorous security parameter of 10−10. Our security proof is entirely composable, thereby allowing the generated randomness to be utilised for arbitrary applications in cryptography and beyond. To our knowledge, this represents the fastest composably secure source of quantum random numbers ever reported.
@article{arxiv.1905.09665,
title = {Certified Quantum Random Numbers from Untrusted Light},
author = {David Drahi and Nathan Walk and Matty J. Hoban and Aleksey K. Fedorov and Roman Shakhovoy and Akky Feimov and Yury Kurochkin and W. Steven Kolthammer and Joshua Nunn and Jonathan Barrett and Ian A. Walmsley},
journal= {arXiv preprint arXiv:1905.09665},
year = {2021}
}
Comments
37 pages, 7 figures. New substantial material has been added and the title was modified accordingly