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Intérêts

- Quantum computation and information
- Quantum network protocols
- Entanglement
- Foundations of quantum information

- Inflated Graph States Refuting Communication-Assisted LHV Models
- Private network parameter estimation with quantum sensors
- Quantum Metrology with Delegated Tasks
- Classical-quantum network coding: a story about tensor
- Verification of graph states in an untrusted network
- Efficient verification of Boson Sampling
- Outcome determinism in measurement-based quantum computation with qudits
- Classical simulation of Gaussian quantum circuits with non-Gaussian input states
- Quantum machine learning with adaptive linear optics
- Experimental Approach to Demonstrating Contextuality for Qudits
- Certifying dimension of quantum systems by sequential projective measurements
- Certification of Non-Gaussian States with Operational Measurements
- Flow conditions for continuous variable measurement-based quantum computing
- Practical Limits of Error Correction for Quantum Metrology
- Authenticated teleportation and verification in a noisy network
- Fault-tolerant quantum speedup from constant depth quantum circuits
- Quantum certification and benchmarking
- Graph States as a Resource for Quantum Metrology
- Stellar representation of non-Gaussian quantum states
- A simple protocol for certifying graph states and applications in quantum networks
- Distributing Graph States Over Arbitrary Quantum Networks
- Robust quantum metrology with explicit symmetric states
- Unitary $t$-designs from $relaxed$ seeds
- Authenticated teleportation with one-sided trust
- Random coding for sharing bosonic quantum secrets
- Anonymity for Practical Quantum Networks
- Efficient approximate unitary t-designs from partially invertible universal sets and their application to quantum speedup
- Probabilistic Fault-Tolerant Universal Quantum Computation and Sampling Problems in Continuous Variables
- Optimal quantum-programmable projective measurement with linear optics
- Demonstration of Einstein-Podolsky-Rosen Steering Using Hybrid Continuous- and Discrete-Variable Entanglement of Light
- Building trust for continuous variable quantum states
- Cryptographic approach to Quantum Metrology
- Optimal quantum-programmable projective measurements with coherent states
- Violating Bell inequalities with entangled optical frequency combs and multi-pixel homodyne detection