JRC is very pleased to announce that it has been selected to host the test and evaluation laboratory of the European Quantum Communication infrastructure (EuroQCI), currently being developed by the NOSTRADAMUS project led by the Austrian Institute of Technology, Thales and Deutsche Telekom. The project, began in early 2024, is funded by the Digital Europe Programme under the responsibility of DG CNECT. The facility’s purpose is to enable manufacturers of quantum key distribution-based information-security technologies to assess and validate their products in a secure environment, not linked to national control, with a view to future certification. Companies are encouraged to deliver their devices for testing so that governmental and commercial users of EuroQCI can be confident that they will not be vulnerable to cyber-attacks. Operational activities of the laboratory are planned to start from 2026 onwards and be progressively passed to JRC Ispra, with complete transfer by November 2027.
Quantum technologies at the JRC
JRC works on technologies exploiting the principles of quantum physics to ensure that decisions made for the EU programme are scientifically informed. We study technology principles and practice, use-cases and applications, and products and companies. We work in close partnership with colleagues from the Directorate-General for Communications Networks, Content and Technology (DG CNECT), DG for Defence Industry and Space, the European Space Agency and the European Defence Agency, contributing to the development of EU policy.
Quantum technologies carry a social and economic significance that demands the attention of public authorities to help realise their economic and societal potential, and to adapt or introduce regulatory regimes and standards. Applications in the public sector are in critical areas such as cybersecurity, health-care, environmental monitoring and defence. It is also vital to foster the development of a strong European quantum industry.
Our work involves studying scientific literature, patents and company data, testing and evaluating equipment, exploring new concepts, reviewing and collating expert opinion, aiding in the evaluation of proposals, and participating actively in working groups and standards committees. We strive to be objective and independent, to distinguish real promise from hyperbole and to take a realistic view of Europe’s position internationally.
EU actions related to quantum technology
- Quantum from DG CNECT
- The Quantum Flagship - long-term research and innovation initiative to consolidate and expand European scientific leadership and excellence in this area
- European Quantum Communication Infrastructure (EuroQCI) initiative
- Quantum computers constructed under the High Performance Computing Joint Undertaking
- Facilities investment under the Chips Act
- Networking of member state programmes through the Quantera programme
- Networking of national metrology laboratories through the European Metrology Network for Quantum Technologies programme
- COST actions - 4-year interdisciplinary research networks
- Standardisation activity by CEN-CENELEC and ETSI
- Projects conducted under the EU Space Programme
- Defence projects funded by the EDA
Some JRC publications
Reports
A secure quantum communications infrastructure for Europe – Technical background for a policy vision, EUR 31133 EN 2022
Quantum Key Distribution in-field implementations, EUR 29865 EN 2019
Quantum Key Distribution (QKD) experimental assessment
Overview and performance assessment of QKD system at JRC, 2023
Cold Atom Interferometry for Inertial Navigation Sensors: Technology assessment for space and defence applications, EUR 30492 EN 2020
Cold Atom Interferometry Physics and Technologies, EUR 30289 EN 2020
Cold Atom Interferometry for Earth Observation, Perspectives for satellite-based quantum gravimetry, EUR 30371 EN 2020
Impact of quantum technologies on future EU policy
Part 1: Quantum Time, EUR 28555 EN 2017
Part 2: Quantum Communications: from science to policies, EUR 29017 EN 2018
Part 3: Perspectives for Quantum Computing EUR 29402 EN 2018
Papers
Optimal individual and collective measurements for nonorthogonal quantum key distribution signals, Phys. Rev. A 109, 032615, 2024
Quantum communications infrastructure architecture: theoretical background, network structure and technologies. A review of recent studies from a European public infrastructure perspective, arXiv:2110.06762, 2022
