Advances in quantum cryptography
Quantum cryptography is arguably the fastest growing area in quantum information science. Novel theoretical protocols are designed on a regular basis, security proofs are constantly improving, and experiments are gradually moving from proof-of-principle lab demonstrations to in-field implementations...
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Optical Society of America ( OSA Publishing )
2020
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Online Access: | http://irep.iium.edu.my/88130/1/1012.pdf http://irep.iium.edu.my/88130/ https://www.osapublishing.org/DirectPDFAccess/C35EFC76-D318-3205-7C086FD4113EF5CE_444736/aop-12-4-1012.pdf?da=1&id=444736&seq=0&mobile=no |
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my.iium.irep.881302021-02-02T02:07:12Z http://irep.iium.edu.my/88130/ Advances in quantum cryptography Pirandola, S. Andersen, U. L. Banchi, L. Berta, M. Bunandar, D. Colbeck, R. Englund, D. Gehring, T. Lupo, C. Ottaviani, C. Pereira, J. L. Razavi, M. Shamsul Shaari, Jesni Tomamichel, M. Usenko, V. C. Vallone, G. Villoresi, P. Wallden, P QC Physics Quantum cryptography is arguably the fastest growing area in quantum information science. Novel theoretical protocols are designed on a regular basis, security proofs are constantly improving, and experiments are gradually moving from proof-of-principle lab demonstrations to in-field implementations and technological prototypes. In this paper, we provide both a general introduction and a state-of-the-art description of the recent advances in the field, both theoretical and experimental. We start by reviewing protocols of quantum key distribution based on discrete variable systems. Next we consider aspects of device independence, satellite challenges, and protocols based on continuous-variable systems. We will then discuss the ultimate limits of point-to-point private communications and how quantum repeaters and networks may overcome these restrictions. Finally, we will discuss some aspects of quantum cryptography beyond standard quantum key distribution, including quantum random number generators and quantum digital signatures. Optical Society of America ( OSA Publishing ) 2020-12 Article PeerReviewed application/pdf en http://irep.iium.edu.my/88130/1/1012.pdf Pirandola, S. and Andersen, U. L. and Banchi, L. and Berta, M. and Bunandar, D. and Colbeck, R. and Englund, D. and Gehring, T. and Lupo, C. and Ottaviani, C. and Pereira, J. L. and Razavi, M. and Shamsul Shaari, Jesni and Tomamichel, M. and Usenko, V. C. and Vallone, G. and Villoresi, P. and Wallden, P (2020) Advances in quantum cryptography. Advances in Optics and Photonics, 12 (4). pp. 1012-1236. ISSN 1943-8206 https://www.osapublishing.org/DirectPDFAccess/C35EFC76-D318-3205-7C086FD4113EF5CE_444736/aop-12-4-1012.pdf?da=1&id=444736&seq=0&mobile=no 10.1364/AOP.361502 |
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QC Physics Pirandola, S. Andersen, U. L. Banchi, L. Berta, M. Bunandar, D. Colbeck, R. Englund, D. Gehring, T. Lupo, C. Ottaviani, C. Pereira, J. L. Razavi, M. Shamsul Shaari, Jesni Tomamichel, M. Usenko, V. C. Vallone, G. Villoresi, P. Wallden, P Advances in quantum cryptography |
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Quantum cryptography is arguably the fastest growing area in quantum information science. Novel theoretical protocols are designed on a regular basis, security proofs are constantly improving, and experiments are gradually moving from proof-of-principle lab demonstrations to in-field implementations and technological prototypes. In this paper, we provide both a general introduction and a state-of-the-art description of the recent advances in the field, both theoretical and experimental. We start by reviewing protocols of quantum key distribution based on discrete variable systems. Next we consider aspects of device independence, satellite challenges, and protocols based on continuous-variable systems. We will then discuss the ultimate limits of point-to-point private communications and how quantum repeaters and networks may overcome these restrictions. Finally, we will discuss some aspects of quantum cryptography beyond standard quantum key distribution, including quantum random number generators and quantum digital signatures. |
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Article |
author |
Pirandola, S. Andersen, U. L. Banchi, L. Berta, M. Bunandar, D. Colbeck, R. Englund, D. Gehring, T. Lupo, C. Ottaviani, C. Pereira, J. L. Razavi, M. Shamsul Shaari, Jesni Tomamichel, M. Usenko, V. C. Vallone, G. Villoresi, P. Wallden, P |
author_facet |
Pirandola, S. Andersen, U. L. Banchi, L. Berta, M. Bunandar, D. Colbeck, R. Englund, D. Gehring, T. Lupo, C. Ottaviani, C. Pereira, J. L. Razavi, M. Shamsul Shaari, Jesni Tomamichel, M. Usenko, V. C. Vallone, G. Villoresi, P. Wallden, P |
author_sort |
Pirandola, S. |
title |
Advances in quantum cryptography |
title_short |
Advances in quantum cryptography |
title_full |
Advances in quantum cryptography |
title_fullStr |
Advances in quantum cryptography |
title_full_unstemmed |
Advances in quantum cryptography |
title_sort |
advances in quantum cryptography |
publisher |
Optical Society of America ( OSA Publishing ) |
publishDate |
2020 |
url |
http://irep.iium.edu.my/88130/1/1012.pdf http://irep.iium.edu.my/88130/ https://www.osapublishing.org/DirectPDFAccess/C35EFC76-D318-3205-7C086FD4113EF5CE_444736/aop-12-4-1012.pdf?da=1&id=444736&seq=0&mobile=no |
_version_ |
1691732920077647872 |