Magnetic field concentration with coaxial silicon nanocylinders in the optical spectral range

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Kseniia V. Baryshnikova
  • Andrey Novitsky
  • Andrey B. Evlyukhin
  • Alexander S. Shalin

Externe Organisationen

  • St. Petersburg National Research University of Information Technologies, Mechanics and Optics (ITMO)
  • Technical University of Denmark
  • Belarusian State University
  • Laser Zentrum Hannover e.V. (LZH)
  • Kotel'nikov Institute of Radio Engineering and Electronics of Russian Academy of Sciences
  • Ul'Yanovsk State University
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)D36-D41
FachzeitschriftJournal of the Optical Society of America B: Optical Physics
Jahrgang34
Ausgabenummer7
PublikationsstatusVeröffentlicht - 2017
Extern publiziertJa

Abstract

Resonant magnetic energy accumulation is theoretically investigated in the optical and near-infrared regions. It is demonstrated that the silicon nanocylinders with and without coaxial through holes can be used for the control and manipulation of optical magnetic fields, providing up to 26-fold enhancement of these fields for the considered system. Magnetic field distributions and dependence on the parameters of nanocylinders are revealed at the wavelengths of magnetic dipole and quadrupole resonances responsible for the enhancement. The obtained results can be applied, for example, to designing nanoantennas for the detection of atoms with magnetic optical transitions.

ASJC Scopus Sachgebiete

Zitieren

Magnetic field concentration with coaxial silicon nanocylinders in the optical spectral range. / Baryshnikova, Kseniia V.; Novitsky, Andrey; Evlyukhin, Andrey B. et al.
in: Journal of the Optical Society of America B: Optical Physics, Jahrgang 34, Nr. 7, 2017, S. D36-D41.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Baryshnikova KV, Novitsky A, Evlyukhin AB, Shalin AS. Magnetic field concentration with coaxial silicon nanocylinders in the optical spectral range. Journal of the Optical Society of America B: Optical Physics. 2017;34(7):D36-D41. doi: 10.1364/JOSAB.34.000D36
Baryshnikova, Kseniia V. ; Novitsky, Andrey ; Evlyukhin, Andrey B. et al. / Magnetic field concentration with coaxial silicon nanocylinders in the optical spectral range. in: Journal of the Optical Society of America B: Optical Physics. 2017 ; Jahrgang 34, Nr. 7. S. D36-D41.
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AU - Baryshnikova, Kseniia V.

AU - Novitsky, Andrey

AU - Evlyukhin, Andrey B.

AU - Shalin, Alexander S.

N1 - Publisher Copyright: © 2017 Optical Society of America. Copyright: Copyright 2017 Elsevier B.V., All rights reserved.

PY - 2017

Y1 - 2017

N2 - Resonant magnetic energy accumulation is theoretically investigated in the optical and near-infrared regions. It is demonstrated that the silicon nanocylinders with and without coaxial through holes can be used for the control and manipulation of optical magnetic fields, providing up to 26-fold enhancement of these fields for the considered system. Magnetic field distributions and dependence on the parameters of nanocylinders are revealed at the wavelengths of magnetic dipole and quadrupole resonances responsible for the enhancement. The obtained results can be applied, for example, to designing nanoantennas for the detection of atoms with magnetic optical transitions.

AB - Resonant magnetic energy accumulation is theoretically investigated in the optical and near-infrared regions. It is demonstrated that the silicon nanocylinders with and without coaxial through holes can be used for the control and manipulation of optical magnetic fields, providing up to 26-fold enhancement of these fields for the considered system. Magnetic field distributions and dependence on the parameters of nanocylinders are revealed at the wavelengths of magnetic dipole and quadrupole resonances responsible for the enhancement. The obtained results can be applied, for example, to designing nanoantennas for the detection of atoms with magnetic optical transitions.

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