Coherent control of topological states in an integrated waveguide lattice

Topological photonics holds the promise for enhanced robustness of light localization and propagation enabled by the global symmetries of the system. While traditional designs of topological structures rely on lattice symmetries, there is an alternative strategy based on accidentally degenerate mode...

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Bibliographic Details
Published in:arXiv.org 2022-10
Main Authors: Mikhin, Alexey, Rutckaia, Viktoriia, Savelev, Roman S, Sinev, Ivan S, Alù, Andrea, Gorlach, Maxim A
Format: Article
Language:English
Subjects:
Excitation
Harmonic generations
Lattice vibration
Localization
Topology
Waveguides
Online Access:Get full text
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Summary:Topological photonics holds the promise for enhanced robustness of light localization and propagation enabled by the global symmetries of the system. While traditional designs of topological structures rely on lattice symmetries, there is an alternative strategy based on accidentally degenerate modes of the individual meta-atoms. Using this concept, we experimentally realize topological edge state in an integrated optical nanostructure based on the array of silicon nano-waveguides, each hosting a pair of degenerate modes at telecom wavelengths. Exploiting the hybrid nature of the topological mode formed by the superposition of waveguide modes with different symmetry, we implement coherent control of the topological edge state by adjusting the phase between the degenerate modes and demonstrating selective excitation of bulk or edge states. The resulting field distribution is imaged via third harmonic generation allowing us to quantify the localization of topological modes as a function of the relative phase of the excitations. Our results highlight the impact of engineered accidental degeneracies on the formation of topological phases, extending the opportunities stemming from topological nanophotonic systems.
ISSN:2331-8422
DOI:10.48550/arxiv.2210.01648