Giulia Ferrini
Giulia Ferrini is Associate Professor at the department of Microtechnology and Nanoscience (MC2) and a PI at the Wallenberg Centre for Quantum Technologies (www.wacqt.se). She obtained her PhD from the University of Grenoble (France) in 2011, with a thesis on "Macroscopic quantum coherent phenomena in Bose-Josephson junctions". Before joining Chalmers she spent 3 years in Laboratoire Kastler Brossel, Paris, where she studied applications to quantum information of multimode quantum optics experiments (2011-2014); one year in University Paris-Diderot (2015), and two years in University of Mainz, where she was recipient of a Marie Sklodowska Curie Individual Fellowship, with the goal of defining sub-universal models of quantum computation in continuous variables (2016-2017). At Chalmers she leads the research activity on theoretical quantum information with continuous variables and is responsible for the course "Quantum Computing".
Visar 20 publikationer
Sufficient Condition for Universal Quantum Computation Using Bosonic Circuits
Study of noise in virtual distillation circuits for quantum error mitigation
Hybrid Quantum-Classical Heuristic to Solve Large-Scale Integer Linear Programs
The vacuum provides quantum advantage to otherwise simulatable architectures
Vacuum provides quantum advantage to otherwise simulatable architectures
Gaussian conversion protocol for heralded generation of generalized Gottesman-Kitaev-Preskill states
Quantifying Qubit Magic Resource with Gottesman-Kitaev-Preskill Encoding
Efficient simulation of Gottesman-Kitaev-Preskill states with Gaussian circuits
Robust Preparation of Wigner-Negative States with Optimized SNAP-Displacement Sequences
Deterministic Gaussian conversion protocols for non-Gaussian single-mode resources
Classical simulation of Gaussian quantum circuits with non-Gaussian input states
Gaussian Conversion Protocols for Cubic Phase State Generation
Efficient simulatability of continuous-variable circuits with large Wigner negativity
Universal Gate Set for Continuous-Variable Quantum Computation with Microwave Circuits
Applying the Quantum Approximate Optimization Algorithm to the Tail-Assignment Problem
Random coding for sharing bosonic quantum secrets
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Visar 3 forskningsprojekt
Destillation av kvantinformation i bosoniska kvantdatorer
CryptoQuaC: Cryptography meets Verifiable Quantum Computation
Kvantfördel i kontinuerlig variabel-arkitekturer