Experimental demonstration of an anomalous Floquet topological insulator based on negative-index media

TL;DR

This paper experimentally demonstrates a microwave anomalous Floquet topological insulator using negative-index media, simplifying design and advancing topological photonic device development.

Contribution

It introduces a novel photonic analogue of the quantum spin Hall effect leveraging negative-index media, simplifying the structure of topological insulators.

Findings

Successful experimental demonstration in microwave regime

Utilization of negative-index media for efficient coupling

Advancement in topological photonic device design

Abstract

Photonic and acoustic topological insulators exhibiting one-way transportation that is robust against defects and impurities are typically realized in coupled arrays of two-dimensional ring resonators. These systems have produced a series of applications, including optical isolators, delay lines, and lasers. However, the structures are complicated because an additional coupler ring between neighboring rings is needed to construct photonic pseudo-spin. In this work, a photonic analogue of the quantum spin Hall effect is proposed and experimentally demonstrated in an anomalous Floquet topological insulator in the microwave regime. This improved design takes advantage of the efficient and backward coupling of negative-index media. The results contribute to the understanding of topological structures in metamaterials and point toward a new direction for constructing useful topological photonic devices.