Paper 2025/1247
Field-Tested Authentication for Quantum Key Distribution and DoS Attacks
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
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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}
}