LIP6 - QI Team
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Frédéric Grosshans
Quantum cryptography, relativistic cryptography, quantum networks, quantum continuous variables.
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Interests
Quantum cryptography
Relativistic cryptography
Quantum networks
Quantum continuous variables
Latest
Self-Testing Graph States Permitting Bounded Classical Communication
A Linear Algebraic Framework for Dynamic Scheduling Over Memory-Equipped Quantum Networks
Linear optical logical Bell state measurements with optimal loss-tolerance threshold
Inflated Graph States Refuting Communication-Assisted LHV Models
A Linear Algebraic Framework for Quantum Internet Dynamic Scheduling
A Linear Algebraic Framework for Quantum Internet Dynamic Scheduling
Detecting a target with quantum entanglement
Cost and Routing of Continuous Variable Quantum Networks
Classical-quantum network coding: a story about tensor
Non-Destructive Zero-Knowledge Proofs on Quantum States, and Multi-Party Generation of Authorized Hidden GHZ States
Efficient verification of Boson Sampling
Classical simulation of Gaussian quantum circuits with non-Gaussian input states
Witnessing Wigner Negativity
Certification of Non-Gaussian States with Operational Measurements
Error-correcting entanglement swapping using a practical logical photon encoding
Breaking simple quantum position verification protocols with little entanglement
Stellar representation of non-Gaussian quantum states
Distributing Graph States Over Arbitrary Quantum Networks
Random coding for sharing bosonic quantum secrets
Semi-device-independent quantum money with coherent states
Building trust for continuous variable quantum states
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