Overview of publications and pre-prints

This is an overview of all my scientific publications; they can be divided into two topics:

• Anonymous communication
• Multi-partite entanglement and local equivalence

A per-topic overview can be found at the above links, here follows a list in chronological order.

1. Anonymous Conference Key Agreement (arxiv, Published)

Hahn, de Jong, Pappa - Anonymous Conference Key Agreement. PRX Quantum 1, 020325 (2020).

• The first proof of concept for anonymous conference key agreement (ACKA) in quantum networks.

2. Anonymous and secret communications in quantum networks (arxiv, Published)

Thalacker, Hahn, de Jong, Pappa, Barz - New J. Phys. 23 083026 (2021).

• Experimental realization of the first ACKA protocol.

3. Secure Anonymous Conferencing in Quantum Networks (arxiv, Published)

Grasselli*, Murta*, de Jong, Hahn, Bruß, Kampermann, Pappa - PRX Quantum 3, 040306 (2022). * these authors have contributed equally.

• An improved ACKA protocol that is both robust and more secure. Includes finite key analysis and simulations.

4. Anonymous conference key agreement in linear quantum networks (arxiv, Published)

de Jong, Hahn, Eisert, Walk, Pappa - Quantum 7, 1117 (2023).

• An ACKA protocol that uses linear networks, which are much easier to realize than the central networks of the previous protocols.

5. Extracting GHZ states from linear cluster states (arxiv, Published)

de Jong, Hahn, Tcholtchev, Hauswirth, Pappa - Phys. Rev. Research 6, 013330 (2023).

• A complete characterization of how GHZ states can be realized from linear cluster states in quantum networks.

6. Experimental ACKA using linear cluster states (arxiv, Published)

Rückle, Budde, de Jong, Hahn, Pappa, Barz - Phys. Rev. Research 5, 033222 (2023).

• Experimental realization of the ACKA protocol in linear networks.

7. Distinguishing graph states by the properties of their marginals (arxiv, Published)

Vandré*, de Jong*, Hahn, Burchardt, Gühne, Pappa - Phys. Rev. A 111, 052449 (2025). * these authors have contributed equally.

• A study on how to detect distinguish different forms of entanglement in quantum networks by using the properties of reduced states.

8. Anonymous and private parameter estimation in networks of quantum sensors (arxiv, Published)

de Jong, Scheiner, Solomons, Chaoui, Markham, Pappa - Phys. Rev. Applied 24, 054053 (2025).

• The first network sensing protocol to perform parameter estimation in both a private and anonymous fashion.