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Transfer matrix approach for the Kerr and Faraday rotation in layered nanostructures

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2016

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Széchenyi, Gábor
Vigh, Máté
Cserti, József

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https://doi.org/10.1088/0953-8984/28/37/375802
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Journal of Physics : Condensed Matter. 2016, 28(37), 375802. ISSN 0953-8984. eISSN 1361-648X. Available under: doi: 10.1088/0953-8984/28/37/375802

Zusammenfassung

To study the optical rotation of the polarization of light incident on multilayer systems consisting of atomically thin conductors and dielectric multilayers we present a general method based on transfer matrices. The transfer matrix of the atomically thin conducting layer is obtained using the Maxwell equations. We derive expressions for the Kerr (Faraday) rotation angle and for the ellipticity of the reflected (transmitted) light as a function of the incident angle and polarization of the light. The method is demonstrated by calculating the Kerr (Faraday) angle for bilayer graphene in the quantum anomalous Hall state placed on the top of dielectric multilayers. The optical conductivity of the bilayer graphene is calculated in the framework of a four-band model.

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ISO 690SZÉCHENYI, Gábor, Máté VIGH, Andor KORMÁNYOS, József CSERTI, 2016. Transfer matrix approach for the Kerr and Faraday rotation in layered nanostructures. In: Journal of Physics : Condensed Matter. 2016, 28(37), 375802. ISSN 0953-8984. eISSN 1361-648X. Available under: doi: 10.1088/0953-8984/28/37/375802
BibTex
@article{Szechenyi2016-09-21Trans-36052,
  year={2016},
  doi={10.1088/0953-8984/28/37/375802},
  title={Transfer matrix approach for the Kerr and Faraday rotation in layered nanostructures},
  number={37},
  volume={28},
  issn={0953-8984},
  journal={Journal of Physics : Condensed Matter},
  author={Széchenyi, Gábor and Vigh, Máté and Kormányos, Andor and Cserti, József},
  note={Article Number: 375802}
}
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