Abstract:
Methods for magneto-optical detection of the in-plane magnetization in a magnetic film due to the deposition of a one-dimensional metallic diffraction grating on the film have been considered. This structure is a magnetoplasmonic crystal, in which the excitation of the waveguide and plasmon modes leads to the appearance of five resonant magneto-optical effects that consist in a change of the intensity, the polarization, and the phase of the transmitted and reflected waves. The conditions responsible for the origin of these effects and their magnitude are determined by the configuration of the incident light, the parameters of the metallic grating, and the chemical composition of the magnetic layer. It has been found that the magnetophotonic intensity effects are the most optimal for the detection of the in-plane magnetization. The influence of the parameters of the metallic grating on the magneto-optical effects has been analyzed and the most optimal conditions for the observation of these effects have been determined. It has also been found that an increase in the concentration of bismuth in a magnetic dielectric material can lead to a weakening of the optical and magneto-optical responses.
Citation:
A. N. Kalish, V. I. Belotelov, “Magneto-optical effects for detection of in-plane magnetization in plasmonic crystals”, Fizika Tverdogo Tela, 58:8 (2016), 1513–1521; Phys. Solid State, 58:8 (2016), 1563–1572
\Bibitem{KalBel16}
\by A.~N.~Kalish, V.~I.~Belotelov
\paper Magneto-optical effects for detection of in-plane magnetization in plasmonic crystals
\jour Fizika Tverdogo Tela
\yr 2016
\vol 58
\issue 8
\pages 1513--1521
\mathnet{http://mi.mathnet.ru/ftt9883}
\elib{https://elibrary.ru/item.asp?id=27368709}
\transl
\jour Phys. Solid State
\yr 2016
\vol 58
\issue 8
\pages 1563--1572
\crossref{https://doi.org/10.1134/S1063783416080163}
Linking options:
https://www.mathnet.ru/eng/ftt9883
https://www.mathnet.ru/eng/ftt/v58/i8/p1513
This publication is cited in the following 5 articles:
Laure Bsawmaii, Emilie Gamet, Francois Royer, Sophie Neveu, Damien Jamon, “Longitudinal magneto-optical effect enhancement with high transmission through a 1D all-dielectric resonant guided mode grating”, Opt. Express, 28:6 (2020), 8436
Nicolò Maccaferri, Irina Zubritskaya, Ilya Razdolski, Ioan-Augustin Chioar, Vladimir Belotelov, Vassilios Kapaklis, Peter M. Oppeneer, Alexandre Dmitriev, “Nanoscale magnetophotonics”, Journal of Applied Physics, 127:8 (2020)
Olga V. Borovkova, Felix Spitzer, Vladimir I. Belotelov, Ilya A. Akimov, Alexander N. Poddubny, Grzegorz Karczewski, Maciej Wiater, Tomasz Wojtowicz, Anatoly K. Zvezdin, Dmitri R. Yakovlev, Manfred Bayer, “Transverse magneto-optical Kerr effect at narrow optical resonances”, Nanophotonics, 8:2 (2019), 287
Xin-yu Gong, Yong-hua Lu, Le-gang Lin, Yong Diao, “Research on the method of measuring solution concentration based on the magneto-optical effect in permanent magnetic fields”, Transactions of the Institute of Measurement and Control, 40:15 (2018), 4266
Grigory A. Knyazev, Pavel O. Kapralov, Nikolay A. Gusev, Andrey N. Kalish, Petr M. Vetoshko, Sarkis A. Dagesyan, Alexander N. Shaposhnikov, Anatoly R. Prokopov, Vladimir N. Berzhansky, Anatoly K. Zvezdin, Vladimir I. Belotelov, “Magnetoplasmonic Crystals for Highly Sensitive Magnetometry”, ACS Photonics, 5:12 (2018), 4951
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