Events

Akhil Kumar, Weizman Instiute of Science, Israel
Quantum simulators permit the study of sizeable spin systems in a programmable fashion, which are beyond the computational reach of classical simulation. Trapped-ion systems are well-suited for studying
spin systems. more

Meirav Pinkas, Weizmann Institute of Science, Israel
A hybrid system combining ultracold atoms and ions can be used for studying collisions between a single pair of particles in the ultracold regime. more

Prof. Dr. Darrick Chang, ICFO Barcelona, Spain
t is interesting to observe that all known optical materials have a refractive index that is of order unity at visible/telecom wavelengths. more

Ohad Lib, Hebrew University of Jerusalem
Photonic measurement-based quantum computation enables universal and fault-tolerant quantum computing via single qubit measurements and classical feedforward on an entangled cluster state. more

Weikun Tian, National University of Singapore
Spin-frustrated lattices are an interesting class of condensed matter systems to study, where exotic quantum phenomena such as thequantum spin liquid phase and spin glasses have been predicted to exist. more

Andre Carvalho, Q-trl
In this talk we show how quantum control delivered by software can improve hardware performance at various levels of the stack. more

Joyce Kwan:
Low-dimensional quantum systems can host anyons, particles with exchange statistics that are neither bosonic nor fermionic.

Martin Lebrat:
Geometrical frustration in strongly correlated systems can give rise to intriguing ordered states such as quantum spin liquids. In this talk, we report on recent experimental progress in Fermi gas microscopy demonstrating emergent magnetic states in a Hubbard model with controllable frustration and doping. more