Events

Josiah Sinclair, University of Wisconsin-Madison, USA
The central challenge to harnessing large-scale quantum entanglement is its fragility to errors.  more

Matthew Chia, Cambridge University, UK
Vortices in single-component Bose gases are a well-studied system. more

Mu Qiao, Institut d’Optique Paris, France
Quantum simulation has achieved remarkable control, yet it is still governed by a platform--model division. more

Nehal Mittal, Collège de France Paris, France
Symmetry is a central organising principle of modern physics, shaping the laws of nature through invariance structures that constrain dynamics, enforce conservation laws, and unify interactions from classical mechanics to quantum field theory. more

Prof.Janne Ruostekoski, Lancaster University, UK
Atomic planar arrays offer a novel emerging quantum-optical many-body system in which light mediates strong interactions between the atoms. more

Prof. Dr. Sebastian Hofferberth, University of Bonn, Germany
Rydberg quantum optics exploits the Rydberg blockade effect in atomic ensembles to create an effective interaction between individual optical photons. more

Gabriel Seigneur, CentraleSupélec, Paris, France
During a nine-month stay as a visiting student in the lithium-7 laboratory of Wolfgang Ketterle at Massachusetts Institute of Technology, I contributed to the installation of a quantum gas microscope. more