Paper 2025/1247

Field-Tested Authentication for Quantum Key Distribution and DoS Attacks

Antoine Gansel, University of Regensburg
Juliane Krämer, University of Regensburg
Tim Schumacher, TU Darmstadt
Patrick Struck, University of Konstanz
Maximilian Tippmann, TU Darmstadt
Thomas Walther, TU Darmstadt
Abstract

Authentication is a crucial requirement for the security of Quantum Key Distribution (QKD). Yet, the integration of suitable methods in QKD systems tends to receive little attention from the research community. As a result, Wegman-Carter message authentication established itself as the go-to solution, leading to serious inefficiencies and additional trust assumptions, making it hard to recover from denial-of-service attacks. Another method is to use the lattice-based signature scheme Dilithium, as proposed by Wang et al. (npj quantum information; 2021). This method avoids the drawbacks of Wegman-Carter but, unfortunately, introduces new disadvantages. In this work, we implement and test several authentication methods on an actual QKD system. We compare and analyze three authentication variants, i.e., Wegman-Carter, Dilithium, and the established message-authentication code Chaskey, as a new method for authentication in QKD, which uses fewer quantum keys. We focus on the key consumptions, runtimes, and practicality in a field test of the QKD system. Lastly, we take a broader look at authentication for QKD in the context of Denial-of-Service attacks and propose a solution by combining several authentication methods to achieve their individual advantages while simultaneously avoiding several drawbacks.

Metadata
Available format(s)
PDF
Category
Applications
Publication info
Published elsewhere. Quantum Safe Hybrid Cryptography (QSHC) 2025
Keywords
QKDAuthenticationPost-Quantum Security
Contact author(s)
antoine gansel @ ur de
juliane kraemer @ ur de
tim schumacher 64 @ stud tu-darmstadt de
patrick struck @ uni kn
maximilian tippmann @ physik tu-darmstadt de
thomas walther @ physik tu-darmstadt de
History
2025-07-11: approved
2025-07-07: received
See all versions
Short URL
https://ia.cr/2025/1247
License
Creative Commons Attribution
CC BY

BibTeX

@misc{cryptoeprint:2025/1247,
      author = {Antoine Gansel and Juliane Krämer and Tim Schumacher and Patrick Struck and Maximilian Tippmann and Thomas Walther},
      title = {Field-Tested Authentication for Quantum Key Distribution and {DoS} Attacks},
      howpublished = {Cryptology {ePrint} Archive, Paper 2025/1247},
      year = {2025},
      url = {https://eprint.iacr.org/2025/1247}
}
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