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Kfir Sulimany, MIT, USA & Technicon, Israel
The rise of cloud-based deep learning sharpens a fundamental question: can useful computation be performed when both the user’s data and the model itself must remain private? more

Prof. Martin Zwierlein, MIT Department of Physics
Strongly interacting atomic Fermi gases allow the realization of superfluids with the highest critical temperature at given density. Their physics connects to strong-coupling superconductors, neutron matter and the quark-gluon plasma of the Early Universe. more

Friederike Butt, RTHW Aachen University, Germany
The ability to perform quantum error correction (QEC) and robust gate operations on encoded qubits is a key step toward practical demonstrations of quantum algorithms. more

Lennart Jehle, University of Vienna, Austria
Despite great efforts and long-lasting interest in foundational quantum optics, we still learn from surprisingly simple systems: a two-level system coupled to an optical cavity. In this talk, I will present two recent studies which finely resolve the dynamical response of such a quantum emitter to a classical or non-classical input field. more

Enzo Bocquel, ISIS, University of Strasbourg, France
Neutral atom arrays are a leading platform for both quantum computing and many-body physics. more

Sasha Ivlev, TU Delft, Netherlands
As quantum information processing progresses towards fault tolerance, the ability to increase the qubit count while ensuring sufficient connectivity and fidelity has become ever more crucial. more

Laura Pecorari ISIS Strasbourg, France
Quantum computing necessitates quantum error correction (QEC) to protect information and enable the execution of practically relevant, deep quantum algorithms. more

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