Ad-hoc hybrid-heterogeneous metropolitan-range quantum key distribution network

Ad-hoc hybrid-heterogeneous metropolitan-range quantum key distribution network

This paper presents the development and implementation of a versatile ad-hoc metropolitan-range Quantum Key Distribution (QKD) network. The approach presented integrates various types of physical channels and QKD protocols, and a mix of trusted and untrusted nodes. Unlike conventional QKD networks t...

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Hauptverfasser: Goy, Matthias, Krause, Jan, Bayraktar, Ömer, Ancsin, Philippe, David, Florian, Dirmeier, Thomas, Doell, Nico, Dwan, Jansen, Fohlmeister, Friederike, Freund, Ronald, Goebel, Thorsten A, Hilt, Jonas, Jaksch, Kevin, Kohout, Oskar, Kopf, Teresa, Krzic, Andrej, Leipe, Markus, Leuchs, Gerd, Marquardt, Christoph, Mendez, Karen L, Milde, Anja, Mishra, Sarika, Moll, Florian, Paciorek, Karolina, Pavlovic, Natasa, Richter, Stefan, Rothe, Markus, Rüddenklau, René, Sauer, Gregor, Schell, Martin, Schreck, Jan, Schreier, Andy, Sharma, Sakshi, Spier, Simon, Spiess, Christopher, Steinlechner, Fabian, Tünnermann, Andreas, Vural, Hüseyin, Walenta, Nino, Weide, Stefan
Format: Artikel
Sprache:eng
Schlagworte:
Physics - Applied Physics
Physics - Quantum Physics
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Zusammenfassung:This paper presents the development and implementation of a versatile ad-hoc metropolitan-range Quantum Key Distribution (QKD) network. The approach presented integrates various types of physical channels and QKD protocols, and a mix of trusted and untrusted nodes. Unlike conventional QKD networks that predominantly depend on either fiber-based or free-space optical (FSO) links, the testbed presented amalgamates FSO and fiber-based links, thereby overcoming some inherent limitations. Various network deployment strategies have been considered, including permanent infrastructure and provisional ad-hoc links to eradicate coverage gaps. Furthermore, the ability to rapidly establish a network using portable FSO terminals and to investigate diverse link topologies is demonstrated. The study also showcases the successful establishment of a quantum-secured link to a cloud server.
DOI:10.48550/arxiv.2412.07473