The engineering of synthetic dimensions allows for the construction of fictitious lattice
structures by coupling the discrete degrees of freedom of a physical system. This method …

The realization of topological states of matter in ultracold atomic gases is currently the
subject of intense experimental activity. Using a synthetic dimension, encoded in an internal …

Synthetic dimensions, wherein dynamics occurs in a set of internal states, have found great
success in recent years in exploring topological effects in cold atoms and photonics …

Rydberg-atom synthetic dimensions in the form of a lattice of n S 1 3 levels, 58≤ n≤ 63,
coupled through two-photon microwave excitation are used to examine dynamics within the …

The concept of synthetic dimensions works particularly well in atomic physics, quantum
optics, and photonics, where the internal degrees of freedom (Zeeman sublevels of the …

Synthetic dimension is a potent tool in quantum simulation of topological phases of matter.
Here we propose and demonstrate a scheme to simulate an anisotropic Harper-Hofstadter …

We experimentally realize a spin-momentum lattice with a homogeneously trapped Fermi
gas. The lattice is created via cyclically rotated atom-laser couplings between three bare …

We build Floquet-driven capactive circuit networks to realize topological states of matter in
the frequency domain. We find the Floquet circuit network equations of motion to reveal a …

Coherent dynamics of interacting quantum particles plays a central role in the study of
strongly correlated quantum matter and the pursuit of quantum information processors. Here …

We experimentally investigate the Su-Schrieffer-Heeger (SSH) Hamiltonian using Rydberg-
atom synthetic dimensions constructed, in a single atom, from a ladder of six neighboring n …