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Enhanced Transmission and Giant Faraday Effect in Magnetic Metal-Dielectric Photonic Structures

Due to their large electric conductivity, stand-alone metallic films are highly reflective at microwave frequencies. For this reason, it is nearly impossible to observe Faraday rotation in ferromagnetic metal layers, even in films just tens of nanometers thick. Here, we show using numerical simulations that a stack of cobalt nano-layers interlaced between dielectric layers can become highly transmissive and display a large Faraday rotation in a finite frequency band. A 45-degree Faraday rotation can be achieved with metallic ferromagnetic layers as thin as tens of nanometers.

preprint2013arXivOpen access
Kyle SmithTurhan CarrollJoshua D. BodyfeltIlya VitebskiyAndrey A. Chabanov
physics.optics
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Imported metadata coverageMissing code, dataset, citation and institution fields are tracked without dominating the paper.Details
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Kyle SmithTurhan CarrollJoshua D. BodyfeltIlya VitebskiyAndrey A. Chabanov

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