Realistic noise-tolerant randomness amplification using finite number of devices

Realistic noise-tolerant randomness amplification using finite number of devices

Quantum mechanics allows to generate nearly ideal random strings from initially weak random sources, important for security of data systems, but this remains elusive in practice. Here the authors propose a realistic, error-tolerant and secure protocol for randomness amplification of arbitrary bits.

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Autores principales: Fernando G. S. L. Brandão, Ravishankar Ramanathan, Andrzej Grudka, Karol Horodecki, Michał Horodecki, Paweł Horodecki, Tomasz Szarek, Hanna Wojewódka
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Science
Q
Acceso en línea:https://doaj.org/article/0732deb71054410fb2249885822f5961
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spelling oai:doaj.org-article:0732deb71054410fb2249885822f59612021-12-02T17:32:05ZRealistic noise-tolerant randomness amplification using finite number of devices10.1038/ncomms113452041-1723https://doaj.org/article/0732deb71054410fb2249885822f59612016-04-01T00:00:00Zhttps://doi.org/10.1038/ncomms11345https://doaj.org/toc/2041-1723Quantum mechanics allows to generate nearly ideal random strings from initially weak random sources, important for security of data systems, but this remains elusive in practice. Here the authors propose a realistic, error-tolerant and secure protocol for randomness amplification of arbitrary bits.Fernando G. S. L. BrandãoRavishankar RamanathanAndrzej GrudkaKarol HorodeckiMichał HorodeckiPaweł HorodeckiTomasz SzarekHanna WojewódkaNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-6 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Fernando G. S. L. Brandão
Ravishankar Ramanathan
Andrzej Grudka
Karol Horodecki
Michał Horodecki
Paweł Horodecki
Tomasz Szarek
Hanna Wojewódka
Realistic noise-tolerant randomness amplification using finite number of devices
description Quantum mechanics allows to generate nearly ideal random strings from initially weak random sources, important for security of data systems, but this remains elusive in practice. Here the authors propose a realistic, error-tolerant and secure protocol for randomness amplification of arbitrary bits.
format article
author Fernando G. S. L. Brandão
Ravishankar Ramanathan
Andrzej Grudka
Karol Horodecki
Michał Horodecki
Paweł Horodecki
Tomasz Szarek
Hanna Wojewódka
author_facet Fernando G. S. L. Brandão
Ravishankar Ramanathan
Andrzej Grudka
Karol Horodecki
Michał Horodecki
Paweł Horodecki
Tomasz Szarek
Hanna Wojewódka
author_sort Fernando G. S. L. Brandão
title Realistic noise-tolerant randomness amplification using finite number of devices
title_short Realistic noise-tolerant randomness amplification using finite number of devices
title_full Realistic noise-tolerant randomness amplification using finite number of devices
title_fullStr Realistic noise-tolerant randomness amplification using finite number of devices
title_full_unstemmed Realistic noise-tolerant randomness amplification using finite number of devices
title_sort realistic noise-tolerant randomness amplification using finite number of devices
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/0732deb71054410fb2249885822f5961
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AT ravishankarramanathan realisticnoisetolerantrandomnessamplificationusingfinitenumberofdevices
AT andrzejgrudka realisticnoisetolerantrandomnessamplificationusingfinitenumberofdevices
AT karolhorodecki realisticnoisetolerantrandomnessamplificationusingfinitenumberofdevices
AT michałhorodecki realisticnoisetolerantrandomnessamplificationusingfinitenumberofdevices
AT pawełhorodecki realisticnoisetolerantrandomnessamplificationusingfinitenumberofdevices
AT tomaszszarek realisticnoisetolerantrandomnessamplificationusingfinitenumberofdevices
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