English

Spin-orbital-angular-momentum-coupled quantum gases

Quantum Gases 2023-01-12 v2

Abstract

We briefly review the recent progress of theories and experiments on spin-orbital-angular-momentum (SOAM)-coupled quantum gases. The coupling between the intrinsic degree of freedom of particles and their external orbital motions widely exists in universe, and leads to a broad variety of fundamental phenomena both in the classical physics and quantum mechanics. Recent realization of synthetic SOAM coupling in cold atoms has attracted a great deal of attention, and stimulates a large amount of considerations on exotic quantum phases in both Bose and Fermi gases. In this review, we present a basic idea of engineering SOAM coupling in neutral atoms, starting from a semiclassical description of atom-light interaction. Unique features of the single-particle physics in the presence of SOAM coupling are discussed. The intriguing ground-state quantum phases of weakly interacting Bose gases are introduced, with emphasis on a so-called angular stripe phase, which has yet been observed at present. It is demonstrated how to generate a stable giant vortex in a SOAM-coupled Fermi superfluid. We also discuss topological characters of a Fermi superfluid in the presence of SOAM coupling. We then introduce the experimental achievement of SOAM coupling in 87^{87}Rb Bose gases and its first observation of phase transitions. The most recent development of SOAM-coupled Bose gases in experiments is also summarized. Regarding the controllability of ultracold quantum gases, it opens a new era, on the quantum simulation point of view, to study the fundamental physics resulted from SOAM coupling as well as newly emergent quantum phases.

Keywords

Cite

@article{arxiv.2209.07051,
  title  = {Spin-orbital-angular-momentum-coupled quantum gases},
  author = {Shi-Guo Peng and Kaijun Jiang and Xiao-Long Chen and Ke-Ji Chen and Peng Zou and Lianyi He},
  journal= {arXiv preprint arXiv:2209.07051},
  year   = {2023}
}

Comments

A brief review on the recent progress of spin-orbital-angular-momentum-coupled quantum gases. Comments are welcome

R2 v1 2026-06-28T01:20:11.217Z