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 ...

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 ...

have emerged as promising candidates for quantum simulations. A major challenge in this area is constructing frequency lattices capable of simulating intricate structures like atomic chains and ...

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 ...

Enrico Chesta, Véronique Ferlet-Cavrois and Markus Brugger highlight seven ways CERN and ESA are working together to further ...

For this purpose, this new ion crystal clock was compared with other optical clocks and a new accuracy record was achieved. The PTB researchers report their in Physical Review Letters. An undisturbed ...

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 ...

Jan. 8, 2025 — A research team has achieved a groundbreaking quantum simulation of the non-Hermitian skin effect in two dimensions using ultracold fermions, marking a significant advance in ...

On Wednesday, Nature Physics published a paper that describes the simulation of some aspects of simple catalysts on quantum computers and provides a way to dramatically simplify the calculations.

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