Zeeman gyrotropic scatterers: Resonance splitting, anomalous scattering, and embedded eigenstates

Valagiannopoulos, Constantinos; Gangaraj, S Ali Hassani; Monticone, Francesco

Zeeman gyrotropic scatterers: Resonance splitting, anomalous scattering, and embedded eigenstates

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Date

2018-09-03

Authors

Valagiannopoulos, Constantinos

Gangaraj, S Ali Hassani

Monticone, Francesco

Publisher

Nanomaterials and Nanotechnology

Abstract

Anomalous scattering effects (invisibility, superscattering, Fano resonances, etc) enabled by complex media and metamaterials have been the subject of intense efforts in the past couple of decades. In this article, we present a full analysis of the unusual and extreme scattering properties of an important class of complex scatterers, namely, gyrotropic cylindrical bodies, including both homogeneous and core–shell configurations....

Keywords

Scattering, gyrotropy, Zeeman effect, plasmonic resonances, embedded eigenstates

Citation

Valagiannopoulos, C., Gangaraj, S. A. H., & Monticone, F. (2018). Zeeman gyrotropic scatterers: Resonance splitting, anomalous scattering, and embedded eigenstates. Nanomaterials and Nanotechnology. https://doi.org/10.1177/1847980418808087

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http://nur.nu.edu.kz/handle/123456789/4572

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Zeeman gyrotropic scatterers: Resonance splitting, anomalous scattering, and embedded eigenstates

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