Nondispersive optical activity in magnetically-coupled bilayer chiral metamaterials

Jagang Park; Hyun Sung Park; Jaehyeon Son; Yushin Kim; Hyukjoon Cho; Jonghwa Shin; Wonju Jeon; Bumki Min

doi:10.1364/OPJ.2018.31pPJ9

2018 Joint Symposia on Optics
(Optica Publishing Group, 2018),
paper 31pPJ9
•https://doi.org/10.1364/OPJ.2018.31pPJ9

Nondispersive optical activity in magnetically-coupled bilayer chiral metamaterials

Jagang Park, Hyun Sung Park, Jaehyeon Son, Yushin Kim, Hyukjoon Cho, Jonghwa Shin, Wonju Jeon, and Bumki Min

Optics and Photonics Japan 2018

Tokyo Japan
30–31 October 2018
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J. Park, H. S. Park, J. Son, Y. Kim, H. Cho, J. Shin, W. Jeon, and B. Min, "Nondispersive optical activity in magnetically-coupled bilayer chiral metamaterials," in 2018 Joint Symposia on Optics, (Optica Publishing Group, 2018), paper 31pPJ9.

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Abstract

Here, we propose a Lagrangian-based equivalent circuit model for metallic bilayer chiral metamaterials. The model reveals a set of requirements for observation of large and nondispersive optical activity. A frequency-independent polarization rotation of a designed angle of 30 degrees was experimentally demonstrated in a microwave regime. Furthermore, the polarization angle and high transmission bandwidth are tailorable by stacking the metamaterials as well as by adjusting geometric parameters.

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