Atomic topological quantum matter using synthetic dimensions

Aur\'elien Fabre; Sylvain Nascimbene

arXiv:2312.07984·cond-mat.quant-gas·December 14, 2023·1 cites

Atomic topological quantum matter using synthetic dimensions

Aur\'elien Fabre, Sylvain Nascimbene

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TL;DR

This paper reviews recent progress in creating topological quantum states in ultracold atomic gases using synthetic dimensions, highlighting simplified simulation of gauge fields and potential for exploring exotic states.

Contribution

It summarizes recent experimental advances and discusses future directions for studying interacting topological systems with synthetic dimensions.

Findings

01

Synthetic dimensions enable simplified gauge field simulation.

02

Recent experimental realizations of topological states in ultracold gases.

03

Potential for exploring exotic topological phases in future research.

Abstract

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 a non-spatial degree of freedom, can greatly simplify the simulation of gauge fields and give access to exotic topological states. We review here recent advances in the field and discuss future perspectives for interacting systems.

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Taxonomy

TopicsCold Atom Physics and Bose-Einstein Condensates · Electronic and Structural Properties of Oxides · Atomic and Subatomic Physics Research