Magnetoplasmonics and Femtosecond Optomagnetism at the Nanoscale

The reciprocal interaction between spins and light has long been one of the main topics in fundamental studies of magnetism. Recent developments of nanolitography and other experimental approaches have disclosed that the interaction of light with magnetic nanostructures is qualitatively different fr...

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Published inACS photonics Vol. 3; no. 8; pp. 1385 - 1400
Main Authors Bossini, D, Belotelov, V. I, Zvezdin, A. K, Kalish, A. N, Kimel, A. V
Format Journal Article
LanguageEnglish
Published American Chemical Society 17.08.2016
Subjects
magnetism
nanoscale
magneto-optics
optomagnetism
ultrafast spectroscopy
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Abstract The reciprocal interaction between spins and light has long been one of the main topics in fundamental studies of magnetism. Recent developments of nanolitography and other experimental approaches have disclosed that the interaction of light with magnetic nanostructures is qualitatively different from the regime in which the size of the illuminated media is much larger than the wavelength. In particular, the subwavelength regime of light–spin interaction revealed the plasmon-mediated enhancement and emergence of new magneto-optical phenomena. Novel possibilities of optical control of magnetism on the nanometer scale via plasmonic resonances have emerged as well. Moreover, it was shown that femtosecond laser pulses are able to generate magnons with nanometer wavelengths and with wavevectors near the edges of the Brillioun zone. The use of optical radiation to either excite ultrafast spin dynamics or detect the magnetic properties of structures at the nanoscale began a new chapter in the fascinating story of the human discovery of magnetism. This review aims at summarizing recent advances in magnetoplasmonics and optomagnetism at the nanoscale.
AbstractList The reciprocal interaction between spins and light has long been one of the main topics in fundamental studies of magnetism. Recent developments of nanolitography and other experimental approaches have disclosed that the interaction of light with magnetic nanostructures is qualitatively different from the regime in which the size of the illuminated media is much larger than the wavelength. In particular, the subwavelength regime of light–spin interaction revealed the plasmon-mediated enhancement and emergence of new magneto-optical phenomena. Novel possibilities of optical control of magnetism on the nanometer scale via plasmonic resonances have emerged as well. Moreover, it was shown that femtosecond laser pulses are able to generate magnons with nanometer wavelengths and with wavevectors near the edges of the Brillioun zone. The use of optical radiation to either excite ultrafast spin dynamics or detect the magnetic properties of structures at the nanoscale began a new chapter in the fascinating story of the human discovery of magnetism. This review aims at summarizing recent advances in magnetoplasmonics and optomagnetism at the nanoscale.
Author Kalish, A. N
Bossini, D
Zvezdin, A. K
Belotelov, V. I
Kimel, A. V
AuthorAffiliation Faculty of Physics
Moscow Institute of Physics and Technology
Institute for Photon Science and Technology Graduate School of Science
The University of Tokyo
Moscow State Technical University of Radio Engineering, Electronics and Automation
Institute for Molecules and Materials
Lomonosov Moscow State University
Prokhorov General Physics Institute RAS
Russian Quantum Center
Radboud University
AuthorAffiliation_xml – name: The University of Tokyo
– name: Lomonosov Moscow State University
– name: Institute for Photon Science and Technology Graduate School of Science
– name: Radboud University
– name: Moscow Institute of Physics and Technology
– name: Russian Quantum Center
– name: Moscow State Technical University of Radio Engineering, Electronics and Automation
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– name: Prokhorov General Physics Institute RAS
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  surname: Bossini
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Snippet The reciprocal interaction between spins and light has long been one of the main topics in fundamental studies of magnetism. Recent developments of...
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Title Magnetoplasmonics and Femtosecond Optomagnetism at the Nanoscale
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