Interactions between atoms and light rule the behavior of our physical world, but at the same time, can be extremely complex.

Ultracold fermions in optical lattices represent a fascinating ... The findings suggest that these experiments can serve as quantum simulations, providing insights into strongly correlated ...

Researchers have successfully simulated the non-Hermitian skin effect in a two-dimensional quantum system, a first in the ...

High-resolution imaging is essential for quantum simulation and computation in optical lattices and tweezers. Here, authors achieve fast 2.4-microsecond single-atom imaging with 99.4% fidelity and ...

have emerged as versatile candidates for quantum simulation. However, the challenge lies in creating frequency lattices that can simulate complex structures like atom chains and nanotubes ...

A research team led by The Hong Kong University of Science and Technology (HKUST) has achieved a groundbreaking quantum simulation ... in spin-orbit-coupled optical lattices with tunable ...

Quantum-enhanced inertial sensing with ultracold atoms trapped in phase-modulated (or shaken) optical lattices. We hope to build a system ... obtained in an experimental system [note the data is ...

A research team led by Prof. PAN Jianwei, Prof. WAN Zhensheng and Prof. DENG Youjin from the University of Science and Technology of China (USTC) observed counterflow superfluidity in two-component ...

By designing optical lattices of tunable and geometry, he realized artificial graphene, as well as Haldane’s seminal model for a topological Chern insulator. Beyond the inspiration of quantum ...