Plasmonic Analog of Electromagnetically Induced Absorption Leads to Giant Thin Film Faraday Rotation of 14°

Dominik Floess; Mario Hentschel; Thomas Weiss; Hanns-Ulrich Habermeier; Jian Jiao; Sergei G. Tikhodeev; Harald Giessen

doi:10.1103/PhysRevX.7.021048

Physical Review X (Jun 2017)

Plasmonic Analog of Electromagnetically Induced Absorption Leads to Giant Thin Film Faraday Rotation of 14°

Dominik Floess,
Mario Hentschel,
Thomas Weiss,
Hanns-Ulrich Habermeier,
Jian Jiao,
Sergei G. Tikhodeev,
Harald Giessen

Affiliations

Dominik Floess
Mario Hentschel
Thomas Weiss
Hanns-Ulrich Habermeier
Jian Jiao
Sergei G. Tikhodeev
Harald Giessen

DOI: https://doi.org/10.1103/PhysRevX.7.021048
Journal volume & issue: Vol. 7, no. 2
p. 021048

Abstract

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We demonstrate the realization of a new hybrid magnetoplasmonic thin film structure that resembles the classical optical analog of electromagnetically induced absorption. In transmission geometry our gold nanostructure embedded in an EuS film induces giant Faraday rotation of over 14° for a thickness of less than 200 nm and a magnetic field of 5 T at T=20 K. By varying the magnetic field from -5 to +5 T, a rotation tuning range of over 25° is realized. As we are only a factor of 3 away from the Faraday isolation requirement, our concept could lead to highly integrated, nonreciprocal photonic devices for light modulation, optical isolation, and optical magnetic field sensing.

Published in Physical Review X

ISSN: 2160-3308 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prx/

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