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Hauptverfasser: Raubitzek, Sebastian, Strasser, Werner, Ramacher, Sebastian, Lebeth, Thomas, Neuhold, Andreas, Pacher, Christoph
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2604.06764
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author Raubitzek, Sebastian
Strasser, Werner
Ramacher, Sebastian
Lebeth, Thomas
Neuhold, Andreas
Pacher, Christoph
author_facet Raubitzek, Sebastian
Strasser, Werner
Ramacher, Sebastian
Lebeth, Thomas
Neuhold, Andreas
Pacher, Christoph
contents The European Union is developing the European Quantum Communication Infrastructure (EuroQCI) as a pan-European network to provide secure communication capabilities across Member States, including governmental and critical-infrastructure domains. While the strategic objective is defined at EU level, the required scale and structure of national quantum key distribution (QKD) networks remain largely unspecified. This work addresses the question of how to plan and size national terrestrial QKD networks to support critical infrastructure and public authorities. We propose a reproducible planning methodology that estimates network size, total fiber length, and the number of required QKD components based on a small set of explicit assumptions. The approach is demonstrated for Austria, where a synthetic but structured network model is constructed and evaluated using Monte Carlo simulation. The model focuses on terrestrial QKD infrastructure and explicitly excludes space-based segments. It estimates endpoint counts, trusted repeater node requirements, and hop-length distributions under realistic operational constraints. The Austrian case is then used as a baseline to derive scaling rules for other EU Member States based on population and geographic extent. The results provide first-order planning estimates for national QKD backbone sizes across Europe. These estimates are not intended as deployment designs but as planning-level references that support early-stage cost assessment and infrastructure dimensioning under the EuroQCI framework.
format Preprint
id arxiv_https___arxiv_org_abs_2604_06764
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Towards National Quantum Communication in Europe: Planning and Sizing Terrestrial QKD Networks
Raubitzek, Sebastian
Strasser, Werner
Ramacher, Sebastian
Lebeth, Thomas
Neuhold, Andreas
Pacher, Christoph
Networking and Internet Architecture
Quantum Physics
The European Union is developing the European Quantum Communication Infrastructure (EuroQCI) as a pan-European network to provide secure communication capabilities across Member States, including governmental and critical-infrastructure domains. While the strategic objective is defined at EU level, the required scale and structure of national quantum key distribution (QKD) networks remain largely unspecified. This work addresses the question of how to plan and size national terrestrial QKD networks to support critical infrastructure and public authorities. We propose a reproducible planning methodology that estimates network size, total fiber length, and the number of required QKD components based on a small set of explicit assumptions. The approach is demonstrated for Austria, where a synthetic but structured network model is constructed and evaluated using Monte Carlo simulation. The model focuses on terrestrial QKD infrastructure and explicitly excludes space-based segments. It estimates endpoint counts, trusted repeater node requirements, and hop-length distributions under realistic operational constraints. The Austrian case is then used as a baseline to derive scaling rules for other EU Member States based on population and geographic extent. The results provide first-order planning estimates for national QKD backbone sizes across Europe. These estimates are not intended as deployment designs but as planning-level references that support early-stage cost assessment and infrastructure dimensioning under the EuroQCI framework.
title Towards National Quantum Communication in Europe: Planning and Sizing Terrestrial QKD Networks
topic Networking and Internet Architecture
Quantum Physics
url https://arxiv.org/abs/2604.06764