Topological Optical Waveguiding of Exciton‐Polariton Condensates

Topological Optical Waveguiding of Exciton‐Polariton Condensates

1D models with topological non‐trivial band structures are a simple and effective way to study novel and exciting concepts in topological photonics. In this work, the propagation of light‐matter quasi‐particles, so‐called exciton‐polaritons, is studied in waveguide arrays. Specifically, topological...

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Veröffentlicht in:Annalen der Physik 2024-11, Vol.536 (11)
Hauptverfasser: Beierlein, J., Egorov, O. A., Gagel, P., Harder, T. H., Wolf, A., Emmerling, M., Betzold, S., Jabeen, F., Ma, L., Höfling, S., Peschel, U., Klembt, S.
Format: Artikel
Sprache:eng
Schlagworte:
Excitation
Excitons
One dimensional models
Polaritons
Topology
Waveguides
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Zusammenfassung:1D models with topological non‐trivial band structures are a simple and effective way to study novel and exciting concepts in topological photonics. In this work, the propagation of light‐matter quasi‐particles, so‐called exciton‐polaritons, is studied in waveguide arrays. Specifically, topological states are being investigated at the interface between dimer chains, characterized by a non‐zero winding number. In order to exercise precise control over the polariton propagation, non‐resonant laser excitation, as well as resonant excitation, are studied in transmission geometry. The results highlight a new platform for the study of quantum fluids of light and non‐linear optical propagation effects in coupled semiconductor waveguides.
ISSN:0003-3804
1521-3889
DOI:10.1002/andp.202400229