GROSSHANS Frédéric
بـحــث
وحـدة : QI
Tel: +33 1 44 27 83 16, Frederic.Grosshans (at) nulllip6.fr
https://lip6.fr/Frederic.Grosshans
وحـدة : QI
- Sorbonne Université - LIP6
Boîte courrier 169
Couloir 26-00, Étage 1, Bureau 101c
4 place Jussieu
75252 PARIS CEDEX 05
FRANCE
Tel: +33 1 44 27 83 16, Frederic.Grosshans (at) nulllip6.fr
https://lip6.fr/Frederic.Grosshans
2 مسجلون في الدكتوراه (رئاسـة البـحث / تأطـير مـشـترك)
- FITTIPALDI Paolo : Dynamic routing through quantum repeaters
- MEYER Uta Isabella : Theoretical aspects of Quantum Information Networks
إصدارات 2019-2023
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2023
- P. Hilaire, Y. Castor, E. Barnes, S. Economou, F. Grosshans : “Linear optical logical Bell state measurements with optimal loss-tolerance threshold”, PRX Quantum, vol. 4 (4), pp. 040322, (APS Physics) (2023)
- F. Centrone, F. Grosshans, V. Parigi : “Cost and Routing of Continuous Variable Quantum Networks”, Physical Review A, vol. 108 (4), pp. 042615, (American Physical Society) (2023)
- P. Fittipaldi, A. Giovanidis, F. Grosshans : “A Linear Algebraic Framework for Dynamic Scheduling Over Memory-Equipped Quantum Networks”, (2023)
- U. Meyer, F. Grosshans, D. Markham : “Inflated Graph States Refuting Communication-Assisted LHV Models”, Physical Review A, vol. 108 (1), pp. 012402, (American Physical Society) (2023)
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2022
- P. Fittipaldi, A. Giovanidis, F. Grosshans : “A Linear Algebraic Framework for Quantum Internet Dynamic Scheduling”, IEEE International Conference on Quantum Computing and Engineering (QCE22), Broomfield, CO, United States, pp. 447-453, (IEEE) (2022)
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2021
- G. Sorelli, N. Treps, F. Grosshans, F. Boust : “Detecting a target with quantum entanglement”, IEEE Aerospace and Electronic Systems Magazine, (Institute of Electrical and Electronics Engineers) (2021)
- C. Meignant, F. Grosshans, D. Markham : “Classical-quantum network coding: a story about tensor”, (2021)
- L. Colisson, F. Grosshans, E. Kashefi : “Non-Destructive Zero-Knowledge Proofs on Quantum States, and Multi-Party Generation of Authorized Hidden GHZ States”, (2021)
- U. Chabaud, F. Grosshans, E. Kashefi, D. Markham : “Efficient verification of Boson Sampling”, Quantum, vol. 5, pp. 578, (Verein) (2021)
- P. Hilaire, E. Barnes, S. Economou, F. Grosshans : “Error-correcting entanglement swapping using a practical logical photon encoding”, Physical Review A, vol. 104 (5), pp. 052623, (American Physical Society) (2021)
- U. Chabaud, G. Ferrini, F. Grosshans, D. Markham : “Classical simulation of Gaussian quantum circuits with non-Gaussian input states”, Physical Review Research, vol. 3 (3), pp. 033018, (American Physical Society) (2021)
- U. Chabaud, P.‑E. Emériau, F. Grosshans : “Witnessing Wigner Negativity”, Quantum, vol. 5, pp. 471, (Verein) (2021)
- U. Chabaud, G. Roeland, M. Walschaers, F. Grosshans, V. Parigi, D. Markham, N. Treps : “Certification of Non-Gaussian States with Operational Measurements”, PRX Quantum, vol. 2 (2), pp. 020333, (APS Physics) (2021)
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2020
- A. Olivo, U. Chabaud, A. Chailloux, F. Grosshans : “Breaking simple quantum position verification protocols with little entanglement”, (2020)
- U. Chabaud, T. Douce, F. Grosshans, E. Kashefi, D. Markham : “Building trust for continuous variable quantum states”, 15th Conference on the Theory of Quantum Computation, Communication and Cryptography (TQC 2020), vol. 158, Leibniz International Proceedings in Informatics (LIPIcs), Riga, Latvia, pp. 3:1-3:15, (Schloss Dagstuhl--Leibniz-Zentrum für Informatik) (2020)
- U. Chabaud, D. Markham, F. Grosshans : “Stellar representation of non-Gaussian quantum states”, Physical Review Letters, (American Physical Society) (2020)
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2019
- C. Meignant, D. Markham, F. Grosshans : “Distributing Graph States Over Arbitrary Quantum Networks”, Physical Review A, vol. 100, pp. 052333, (American Physical Society) (2019)
- F. Arzani, G. Ferrini, F. Grosshans, D. Markham : “Random coding for sharing bosonic quantum secrets”, Physical Review A, vol. 100 (2), pp. 022303, (American Physical Society) (2019)
- M. Bozzio, E. Diamanti, F. Grosshans : “Semi-device-independent quantum money with coherent states”, Physical Review A, vol. 99 (2), pp. 022336, (American Physical Society) (2019)