Direct observation of topological edge states in silicon photonic crystals

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Direct observation of topological edge states in silicon photonic crystals

Conference Paper (2019)

Author(s)

Nikhil Parappurath (AMOLF Institute for Atomic and Molecular Physics)

Filippo Alpeggiani (TU Delft - QN/Kuipers Lab)

L. Kuipers (TU Delft - QN/Quantum Nanoscience)

Ewold Verhagen (AMOLF Institute for Atomic and Molecular Physics)

DOI related publication

https://doi.org/10.1109/CLEOE-EQEC.2019.8872498 Final published version

To reference this document use

https://resolver.tudelft.nl/uuid:519c3b2d-01e6-4e2e-98f9-743b8cd7795a

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Publication Year

2019

Language

English

Article number

8872498

ISBN (electronic)

9781728104690

Event

Downloads counter

156

Abstract

The concept of topology has proven immensely powerful in physics, describing new phases of matter with unique properties. There has been a recent surge in attempts to implement topological protection in the photonic domain, owing to the application potential of robust transport immune to scattering at disorder. A famous class of electronic topological insulators relies on the quantum spin-Hall effect (QSHE). Photonic analogues of QSHE were recently predicted to occur in photonic crystals with special symmetries [1,2]. Interestingly, topological photonic crystals employing QSHE offer the possibility to access their properties via far-field radiation [3].