Thouless pum** provides one of the simplest manifestations of topology in quantum
systems and has attracted a lot of recent interest, both theoretically and experimentally …

In the field of quantum simulation of condensed matter phenomena by artificially
engineering the Hamiltonian of an atomic, molecular or optical system, the concept of …

The concept of synthetic dimensions has generated interest in many branches of science,
ranging from ultracold atomic physics to photonics, as it provides a versatile platform for …

The explorations of non-Hermiticity have been devoted to investigate the disorder-induced
many-body localization (MBL). However, the sensitivity of the spatial boundary conditions …

Resource efficient schemes for the quantum simulation of lattice gauge theories can benefit
from hybrid encodings of gauge and matter fields that use the native degrees of freedom …

The quantum Hall effect occurring in two-dimensional electron gases was first explained by
Laughlin, who developed a thought experiment that laid the groundwork for our …

The scope of analog simulation in atomic, molecular, and optical systems has expanded
greatly over the past decades. Recently, the idea of synthetic dimensions—in which …

We report the experimental realization of a Creutz ladder for ultracold fermionic atoms in a
resonantly driven 1D optical lattice. The two-leg ladder consists of the two lowest orbital …

Dissipation can serve as a powerful resource for controlling the behavior of open quantum
systems. Recently there has been a surge of interest in the influence of dissipative coupling …

We theoretically study the dynamics of n-level spin-orbit coupled alkaline-earth fermionic
atoms with SU (n) symmetric interactions. We consider three-dimensional lattices with …