This review focuses on recent developments in synthetic spin–orbit (SO) coupling in
ultracold atomic gases. Two types of SO coupling are discussed. One is Raman process …

We briefly review recent progress on ultracold atomic Fermi gases with different types of
synthetic spin–orbit coupling, including the one–dimensional (1D) equal weight Rashba …

Ultracold gases of interacting spin-orbit-coupled fermions are predicted to display exotic
phenomena such as topological superfluidity and its associated Majorana fermions. Here …

Pairing in an attractively interacting two-component Fermi gas in the absence of time-
reversal symmetry or inversion symmetry may give rise to exotic superfluid states. Notable …

Realizing Majorana modes (MMs) in condensed-matter systems is of vast experimental and
theoretical interests, and some signatures of MMs have been measured already. To facilitate …

The combination of spin-orbit coupling with interactions results in many exotic phases of
matter. In this Letter, we investigate the superconducting pairing instability of the two …

Majorana fermions (MFs), quantum particles that are their own antiparticles, are not only of
fundamental importance in elementary particle physics and dark matter, but also building …

Moiré superlattices in twisted bilayer graphene and transition-metal dichalcogenides have
emerged as a powerful tool for engineering novel band structures and quantum phases of …

We study the phase diagram of a two-dimensional ultracold Fermi gas with the synthetic spin-
orbit coupling (SOC) that has recently been realized at the National Institute of Standards …

A primary motivation for studying topological matter regards the protection of topological
order from its environment. In this work, we study a topological emitter array coupled to an …