Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments

Abstract The theoretical basis and experimental verification of resonant phenomena in the electromagnetic fields generated by displacement current in the near zone of dielectric ring is presented. According to the traditional viewpoint, the dielectric has an influence on the electric field inside re...

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Autores principales: A. B. Shvartsburg, V. Ya. Pecherkin, L. M. Vasilyak, S. P. Vetchinin, V. E. Fortov
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Publicado: Nature Portfolio 2017
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spelling oai:doaj.org-article:5c8ee3f971b14fb48bc31899b4296a792021-12-02T12:32:26ZResonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments10.1038/s41598-017-02310-12045-2322https://doaj.org/article/5c8ee3f971b14fb48bc31899b4296a792017-05-01T00:00:00Zhttps://doi.org/10.1038/s41598-017-02310-1https://doaj.org/toc/2045-2322Abstract The theoretical basis and experimental verification of resonant phenomena in the electromagnetic fields generated by displacement current in the near zone of dielectric ring is presented. According to the traditional viewpoint, the dielectric has an influence on the electric field inside resonator. To the contrary, we demonstrate that the dielectric ring exhibits magnetic properties at resonance. The sliding incidence of plane microwave on this weakly absorbing ring is shown to provide the sharp and deep resonance in the components of generated field; this low loss circuit is operating as a resonant dielectric magnetic dipole. Splitting and broadening of resonance in the pair of these dipoles dependent upon their mutual arrangement is recorded. The phase shift equal to π between the magnetic components of incident and generated wave indicating the formation of negative magnetic response is demonstrated. Perspectives of using of this simple sub wavelength resonant magnetic dipoles in the all-dielectric circuitry are discussed.A. B. ShvartsburgV. Ya. PecherkinL. M. VasilyakS. P. VetchininV. E. FortovNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 7, Iss 1, Pp 1-9 (2017)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
A. B. Shvartsburg
V. Ya. Pecherkin
L. M. Vasilyak
S. P. Vetchinin
V. E. Fortov
Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments
description Abstract The theoretical basis and experimental verification of resonant phenomena in the electromagnetic fields generated by displacement current in the near zone of dielectric ring is presented. According to the traditional viewpoint, the dielectric has an influence on the electric field inside resonator. To the contrary, we demonstrate that the dielectric ring exhibits magnetic properties at resonance. The sliding incidence of plane microwave on this weakly absorbing ring is shown to provide the sharp and deep resonance in the components of generated field; this low loss circuit is operating as a resonant dielectric magnetic dipole. Splitting and broadening of resonance in the pair of these dipoles dependent upon their mutual arrangement is recorded. The phase shift equal to π between the magnetic components of incident and generated wave indicating the formation of negative magnetic response is demonstrated. Perspectives of using of this simple sub wavelength resonant magnetic dipoles in the all-dielectric circuitry are discussed.
format article
author A. B. Shvartsburg
V. Ya. Pecherkin
L. M. Vasilyak
S. P. Vetchinin
V. E. Fortov
author_facet A. B. Shvartsburg
V. Ya. Pecherkin
L. M. Vasilyak
S. P. Vetchinin
V. E. Fortov
author_sort A. B. Shvartsburg
title Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments
title_short Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments
title_full Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments
title_fullStr Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments
title_full_unstemmed Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments
title_sort resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/5c8ee3f971b14fb48bc31899b4296a79
work_keys_str_mv AT abshvartsburg resonantmicrowavefieldsandnegativemagneticresponseinducedbydisplacementcurrentsindielectricringstheoryandthefirstexperiments
AT vyapecherkin resonantmicrowavefieldsandnegativemagneticresponseinducedbydisplacementcurrentsindielectricringstheoryandthefirstexperiments
AT lmvasilyak resonantmicrowavefieldsandnegativemagneticresponseinducedbydisplacementcurrentsindielectricringstheoryandthefirstexperiments
AT spvetchinin resonantmicrowavefieldsandnegativemagneticresponseinducedbydisplacementcurrentsindielectricringstheoryandthefirstexperiments
AT vefortov resonantmicrowavefieldsandnegativemagneticresponseinducedbydisplacementcurrentsindielectricringstheoryandthefirstexperiments
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