Loss Control-Based Key Distribution under Quantum Protection.

Kirsanov, Nikita; Pastushenko, Valeria; Kodukhov, Aleksei; Aliev, Aziz; Yarovikov, Michael; Strizhak, Daniel; Zarubin, Ilya; Smirnov, Alexander; Pflitsch, Markus; Vinokur, Valerii

Kirsanov, Nikita; Pastushenko, Valeria; Kodukhov, Aleksei; Aliev, Aziz; Yarovikov, Michael; Strizhak, Daniel; Zarubin, Ilya; Smirnov, Alexander; Pflitsch, Markus; Vinokur, Valerii.

Affiliation

Kirsanov N; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Pastushenko V; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Kodukhov A; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Aliev A; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Yarovikov M; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Strizhak D; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Zarubin I; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Smirnov A; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Pflitsch M; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.
Vinokur V; Terra Quantum AG, Kornhausstrasse 25, 9000 St. Gallen, Switzerland.

Entropy (Basel) ; 26(6)2024 May 22.

Article in En | MEDLINE | ID: mdl-38920446

ABSTRACT

ABSTRACT

Quantum cryptography revolutionizes secure information transfer, providing defense against both quantum and classical computational attacks. The primary challenge in extending the reach of quantum communication comes from the exponential decay of signals over long distances. We meet this challenge by experimentally realizing the Quantum-Protected Control-Based Key Distribution (QCKD) protocol, utilizing physical control over signal losses. By ensuring significant non-orthogonality of the leaked quantum states, this control severely constrains eavesdroppers' capacities. We demonstrate the performance and scale of our protocol by experiments over a 1707 km long fiber line. The scalability of the QCKD opens the route for globally secure quantum-resistant communication.

Key words

OTDR; QCKD; long-distance fiber communication; loss control; non-orthogonal quantum states; optical time-domain reflectometry; quantum communication; quantum cryptography; quantum networks; quantum-protected control-based key distribution; scalability of quantum protocols

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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: Entropy (Basel) Year: 2024 Document type: Article Affiliation country: Suiza Country of publication: Suiza

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