The development of a multi‐functional solar‐driven interfacial evaporation (SDIE) system
remains a significant challenge for its large‐scale applications. By taking advantage of high …

Most experiments with ultracold atoms in optical lattices have contact interactions and
therefore operate at high densities of around one atom per site to observe the effect of strong …

Exploring non-Hermitian phenomenology is an exciting frontier of modern physics. However,
the demonstration of a non-Hermitian phenomenon that is quantum in nature has remained …

Programmable quantum simulators such as superconducting quantum processors and
ultracold atomic lattices represent rapidly developing emergent technology that may one day …

Quantum information platforms made great progress in the control of many-body
entanglement and the implementation of quantum error correction, but it remains a …

Programmable quantum simulators may one day outperform classical computers at certain
tasks. But at present, the range of viable applications with noisy intermediate-scale quantum …

Engineering long-range interactions in cold-atom quantum simulators can lead to exotic
quantum many-body behavior. Fermionic atoms in ultracold atomic mixtures can act as …

Long-range interactions play a key role in several phenomena of quantum physics and
chemistry. To study these phenomena, analog quantum simulators provide an appealing …

Using quantum systems to efficiently solve quantum chemistry problems is one of the long-
sought applications of near-future quantum technologies. In a recent work [J. Argüello …

We show that optimal control of the electron dynamics is able to prepare molecular ground
states, within chemical accuracy, with evolution times approaching the bounds imposed by …