Publikation: Mean-chiral displacement in coherently driven photonic lattices and its application to synthetic frequency dimensions
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2024
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Communications Physics. Springer. 2024, 7(1), 246. eISSN 2399-3650. Verfügbar unter: doi: 10.1038/s42005-024-01727-1
Zusammenfassung
Characterizing topologically nontrivial photonic lattices by measuring their topological invariants is crucial in topological photonics. In conservative one-dimensional systems, a widely used observable to extract the winding number is the mean-chiral displacement. In many realistic photonic systems, however, losses can hardly be avoided, and little is known on how one can extend the mean-chiral displacement to a driven-dissipative context. Here we theoretically propose an experimentally viable method to directly detect the topological winding number of one-dimensional chiral photonic lattices. The method we propose is a generalization of the mean-chiral displacement to a driven-dissipative context with coherent illumination. By integrating the mean-chiral displacement of the steady state over the pump light frequency, one can obtain the winding number with a correction of the order of the loss rate squared. We demonstrate that this method can be successfully applied to lattices along synthetic frequency dimensions.
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VILLA, Greta, Iacopo CARUSOTTO, Tomoki OZAWA, 2024. Mean-chiral displacement in coherently driven photonic lattices and its application to synthetic frequency dimensions. In: Communications Physics. Springer. 2024, 7(1), 246. eISSN 2399-3650. Verfügbar unter: doi: 10.1038/s42005-024-01727-1BibTex
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title={Mean-chiral displacement in coherently driven photonic lattices and its application to synthetic frequency dimensions},
number={1},
volume={7},
journal={Communications Physics},
author={Villa, Greta and Carusotto, Iacopo and Ozawa, Tomoki},
note={Article Number: 246}
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<dcterms:abstract>Characterizing topologically nontrivial photonic lattices by measuring their topological invariants is crucial in topological photonics. In conservative one-dimensional systems, a widely used observable to extract the winding number is the mean-chiral displacement. In many realistic photonic systems, however, losses can hardly be avoided, and little is known on how one can extend the mean-chiral displacement to a driven-dissipative context. Here we theoretically propose an experimentally viable method to directly detect the topological winding number of one-dimensional chiral photonic lattices. The method we propose is a generalization of the mean-chiral displacement to a driven-dissipative context with coherent illumination. By integrating the mean-chiral displacement of the steady state over the pump light frequency, one can obtain the winding number with a correction of the order of the loss rate squared. We demonstrate that this method can be successfully applied to lattices along synthetic frequency dimensions.</dcterms:abstract>
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