Waveguide-Assisted Magneto-Optical Effects in 1D Garnet/Co/Au Plasmonic Crystals

Magneto-plasmonic structures have been a subject of tremendous attention of researchers in recent decades as they provide unique approaches regarding the efficient control of optical, magneto-optical, and nonlinear-optical effects. Among others, magneto-plasmonic crystals (MPCs) have become one of t...

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Published inPhotonics Vol. 12; no. 7; p. 728
Main Authors Murzina, Tatiana, Dotsenko, Andrey, Kolmychek, Irina, Novikov, Vladimir, Gusev, Nikita, Fedotov, Ilya, Gusev, Sergei
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2025
Subjects
Analysis
Cobalt
Crystals
Electrons
Garnets
Geometry
Gold
Light
Magnetic fields
Magnetization
magneto-optics
magneto-plasmonic crystals
Nonlinear optics
Optical properties
Photonics
Plasma etching
Plasmonics
Polaritons
Propagation modes
Rare earth elements
resonances
Wave propagation
waveguide modes
Waveguides
Online AccessGet full text
ISSN2304-6732
2304-6732
DOI10.3390/photonics12070728

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Abstract Magneto-plasmonic structures have been a subject of tremendous attention of researchers in recent decades as they provide unique approaches regarding the efficient control of optical, magneto-optical, and nonlinear-optical effects. Among others, magneto-plasmonic crystals (MPCs) have become one of the most studied structures, known for their high-quality tunable resonant optical properties. Here, we present the results of experimental and numerical studies on the functional magneto-optical (MO) response of planar 1D plasmonic crystals composed of Co/Au stripes of submicron period on the surface of a 3 μm thick rare-earth garnet layer. The experimental and numerical studies confirm that the wavelength–angular spectra of such structures contain a set of tunable resonant features in their optical and magneto-optical response, associated with the excitation of (i) surface plasmon polaritons at the Co/Au grating–garnet interface, as well as (ii) waveguide (WG) modes propagating in the garnet slab. A comparison of the MO effects in the transversal and longitudinal magnetization of the plasmonic structures is presented. We show that the most efficient Fano-type MPC magneto-optical response is realized for the WG modes of the first order for the longitudinal magnetization of the structure. Further perspectives regarding the optimization of this type of plasmonic crystal are discussed.
AbstractList Magneto-plasmonic structures have been a subject of tremendous attention of researchers in recent decades as they provide unique approaches regarding the efficient control of optical, magneto-optical, and nonlinear-optical effects. Among others, magneto-plasmonic crystals (MPCs) have become one of the most studied structures, known for their high-quality tunable resonant optical properties. Here, we present the results of experimental and numerical studies on the functional magneto-optical (MO) response of planar 1D plasmonic crystals composed of Co/Au stripes of submicron period on the surface of a 3 μm thick rare-earth garnet layer. The experimental and numerical studies confirm that the wavelength–angular spectra of such structures contain a set of tunable resonant features in their optical and magneto-optical response, associated with the excitation of (i) surface plasmon polaritons at the Co/Au grating–garnet interface, as well as (ii) waveguide (WG) modes propagating in the garnet slab. A comparison of the MO effects in the transversal and longitudinal magnetization of the plasmonic structures is presented. We show that the most efficient Fano-type MPC magneto-optical response is realized for the WG modes of the first order for the longitudinal magnetization of the structure. Further perspectives regarding the optimization of this type of plasmonic crystal are discussed.
Audience Academic
Author Dotsenko, Andrey
Novikov, Vladimir
Fedotov, Ilya
Gusev, Nikita
Murzina, Tatiana
Kolmychek, Irina
Gusev, Sergei
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  fullname: Murzina, Tatiana
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  surname: Gusev
  fullname: Gusev, Sergei
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Snippet Magneto-plasmonic structures have been a subject of tremendous attention of researchers in recent decades as they provide unique approaches regarding the...
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StartPage 728
SubjectTerms Analysis
Cobalt
Crystals
Electrons
Garnets
Geometry
Gold
Light
Magnetic fields
Magnetization
magneto-optics
magneto-plasmonic crystals
Nonlinear optics
Optical properties
Photonics
Plasma etching
Plasmonics
Polaritons
Propagation modes
Rare earth elements
resonances
Wave propagation
waveguide modes
Waveguides
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Title Waveguide-Assisted Magneto-Optical Effects in 1D Garnet/Co/Au Plasmonic Crystals
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https://doaj.org/article/53ce7f3095924189975c8f934ea66439
Volume 12
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