# Driving protocol for a Floquet topological phase without static   counterpart

**Authors:** A. Quelle, C. Weitenberg, K. Sengstock, C. Morais Smith

arXiv: 1704.00306 · 2017-11-27

## TL;DR

This paper proposes a simple shaking protocol in optical lattices to realize and detect a unique Floquet topological phase that lacks an equilibrium counterpart, characterized by anomalous edge states without Hall conductivity.

## Contribution

It introduces a practical driving protocol for creating a novel Floquet topological phase in optical lattices and suggests experimental detection methods.

## Key findings

- Realization of a Floquet topological phase without a static counterpart
- Proposed a controlled shaking protocol for optical lattices
- Suggested experimental detection techniques for the phase

## Abstract

Periodically driven systems play a prominent role in optical lattices. In these ultracold atomic systems, driving is used to create a variety of interesting behaviours, of which an important example is provided by topological states of matter. Such Floquet topological phases have a richer classification that their equilibrium counterparts. Although analogues of the equilibrium topological phases exist, which are characterised by a Chern number, the corresponding Hall conductivity, and protected edge states, there is an additional possibility. This is a phase that has vanishing Chern number and no Hall conductivity, but nevertheless hosts anomalous topological edge states. Due to experimental difficulties associated with the observation of such a phase, it has not been experimentally realised so far. In this paper, we show that optical lattices prove to be a good candidate for both its realisation and subsequent observation, because they can be driven in a controlled manner. Specifically, we present a simple shaking protocol that serves to realise this special Floquet phase, discuss the specific properties that it has, and propose a method to experimentally detect this fascinating topological phase that has no counterpart in equilibrium systems.

## Full text

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## Figures

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## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1704.00306/full.md

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Source: https://tomesphere.com/paper/1704.00306