Doctoral Training Network for Quantum Enhanced Optical Communication Network Security

Project Information

QuNEST

Grant agreement ID: 101120422

DOI

10.3030/101120422

EC signature date 20 June 2023

Start date 1 October 2023

End date 30 September 2027

Funded under

Marie Skłodowska-Curie Actions (MSCA)

Total cost

No data

EU contribution

€ 2 661 328,80

Coordinated by

TECHNISCHE UNIVERSITEIT EINDHOVEN
Netherlands

CORDIS provides links to public deliverables and publications of HORIZON projects.

Links to deliverables and publications from FP7 projects, as well as links to some specific result types such as dataset and software, are dynamically retrieved from OpenAIRE .

Deliverables

D2.3 Impact of classical channel configuration on QKD security

Impact of classical channel impairments on the QKD security

D2.2 Implementation security for DV- and CV-QKD

Establishing and extending the security proofs for DV- and CV-QKD

D2.1 A detailed survey on state of the art and emerging QKD protocols

A detailed survey on state of the art and emerging QKD protocols

D1.1 Identification of methods, channel assumptions for impairments and implications on security

Identification of methods, channel assumptions for impairments (e.g., SRS, SBS,scattering effects, thermal/shot noise) and implications on security

D1.2 Description of the state-of-the-art simulation capabilities for weak coherent based QKD systems

Description of the state-of-the-art simulation capabilities for weak coherent-based QKD systems

D3.3 Low-rate Coding for classical and quantum channels

Low-rate coding for classical and quantum channels

D4.3 Control plane considerations for coexisting transport of QKD

Control plane considerations for coexisting transport of QKD

D3.1 Detailed analysis of DV- and CV-QKD signal processing requirements

Detailed analysis of DV- and CV-QKD signal processing requirements

Publications

Protograph-Based LDPC Codes with Local Irregularity

Author(s): Vincent Wüst,Erdem Eray Cil, Laurent Schmalen
Published in: Proc. International Symposium on Information Theory (ISIT), 2025
Publisher: IEEE
DOI: 10.48550/ARXIV.2505.17837

Hybrid Time-Path High-Dimensional Quantum Key Distribution in Multicore Fibers: Addressing Crosstalk and Enhancing Performance Metrics

Author(s): Ian Korobov, Piotr Novik, Igor Koltchanov
Published in: 2025 25th Anniversary International Conference on Transparent Optical Networks (ICTON), 2025
Publisher: IEEE
DOI: 10.1109/ICTON67126.2025.11124835

Accurate and Effective Model for Coexistence of Classical and Quantum Signals In Optical Fibers

Author(s): Lucas Alves Zischler, Çağla Özkan, Tristan Vosshenrich, Qi Wu, Giammarco Di Sciullo, Divya A. Shaji, Chiara Lasagni, Paolo Serena, Alberto Bononi, Amirhossein Ghazisaeidi, Chigo Okonkwo, Antonio Me
Published in: Journal of Lightwave Technology, 2025
Publisher: Arxiv
DOI: 10.48550/ARXIV.2510.02807

Integration of quantum key distribution and high-throughput classical communications in field-deployed multi-core fibers

Author(s): Qi Wu, Domenico Ribezzo, Giammarco Di Sciullo, Sebastiano Cocchi, Divya Ann Shaji, Lucas Alves Zischler, Ruben Luis, Paolo Serena, Chiara Lasagni, Alberto Bononi, Tetsuya Hayashi, Alessandro Gagliano,
Published in: Light: Science & Applications, Issue 14, 2025, ISSN 2047-7538
Publisher: Springer Science and Business Media LLC
DOI: 10.1038/S41377-025-01982-Z

Accurate and Effective Model for Coexistence of Classical and Quantum Signals In Optical Fibers

Author(s): Lucas Alves Zischler, Çağla Özkan, Tristan Vosshenrich, Qi Wu, Giammarco Di Sciullo, Divya A. Shaji, Chiara Lasagni, Paolo Serena, Alberto Bononi, Amirhossein Ghazisaeidi, Chigo Okonkwo, Antonio Me
Published in: 2025
Publisher: Journal of Lightwave Technology
DOI: 10.48550/ARXIV.2510.02807

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Deliverables

Publications

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