Conferences and symposia

Dielectric resonant magnetic dipoles: paradoxes, prospects, the first experiments

 a, b,  a,  a, c,  a,  a
a Joint Institute for High Temperatures, Russian Academy of Sciences, ul. Izhorskaya 13/19, Moscow, 127412, Russian Federation
b Space Research Institute, Russian Academy of Sciences, Profsoyuznaya str. 84/32, Moscow, 117997, Russian Federation
c Moscow Institute of Physics and Technology (National Research University), Institutskii per. 9, Dolgoprudny, Moscow Region, 141701, Russian Federation

This paper reviews various forms of dielectric ring-shaped oscillating circuits excited by displacement currents due to the grazing incidence of GHz microwaves. Such circuits with azimuth displacement currents form resonant dielectric magnetic dipoles. The review calculates and measures resonances in the field spectra in the near zone of such dipoles. It demonstrates the inversion of magnetic inductance flux and the formation of negative magnetic permeability in the resonant range of dielectric magnetic dipoles. It also investigates, both analytically and experimentally, the resonant interaction spectra of a pair of magnetic dipoles excited by displacement currents. Finally, prospects for using these dipoles to model all-dielectric nanostructures with sign-alternating magnetic permeability are discussed.

Fulltext is available at IOP
Keywords: displacement current, dielectric metamaterial, dielectric magnetic dipole, interaction of resonant dipoles, negative magnetic permeability
PACS: 75.78.−n, 77.84.−s (all)
DOI: 10.3367/UFNe.2017.03.038139
Citation: Shvartsburg A B, Pecherkin V Ya, Vasilyak L M, Vetchinin S P, Fortov V E "Dielectric resonant magnetic dipoles: paradoxes, prospects, the first experiments" Phys. Usp. 61 698–706 (2018)
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Received: 13th, May 2018, 5th, April 2017

Оригинал: Шварцбург А Б, Печёркин В Я, Василяк Л М, Ветчинин С П, Фортов В Е «Диэлектрические резонансные магнитные диполи: парадоксы, перспективы, первые эксперименты» УФН 188 780–789 (2018); DOI: 10.3367/UFNr.2017.03.038139

References (39) Cited by (4) Similar articles (20) ↓

  1. A.N. Lagarkov, A.K. Sarychev et alSuperresolution and enhancement in metamaterials52 959–967 (2009)
  2. A.B. Shvartsburg, N.S. Erokhin “Resonant tunneling of ultrashort electromagnetic pulses in gradient metamaterials: paradoxes and prospects54 1171–1176 (2011)
  3. A.P. Vinogradov, E.S. Andrianov et alQuantum plasmonics of metamaterials: loss compensation using spasers55 1046–1053 (2012)
  4. V.V. Klimov, D.V. Guzatov “Using chiral nano-meta-particles to control chiral molecule radiation55 1054–1058 (2012)
  5. D.N. Klyshko, A.N. Penin “Quantum photometry using parametric scattering of light28 92–93 (1985)
  6. V.G. Veselago “Waves in metamaterials: their role in modern physics54 1161–1165 (2011)
  7. I.M. Khalatnikov, V.E. Fortov et alCommemoration of the centenary of the birth of Academician L A Artsimovich (Scientific session of the Physical Sciences Division of the Russian Academy of Sciences, 18 February 2009; Joint session of the Research Council of the Russian Research Centere ’Kurchatov Instritute’, the Presidium of the Russian Academy of Sciences, and the Rosatom State Corporation, 18 March 2009)52 1247–1272 (2009)
  8. V.E. Fortov, A.A. Makarov “Avenues for the innovative development of energetics in the world and in Russia52 1249–1265 (2009)
  9. Yu.A. Kosevich “Multichannel propagation and scattering of phonons and photons in low-dimensional nanostructures51 848–859 (2008)
  10. A.B. Shvartsburg “Pulse electrodynamics of anharmonic signals37 311–313 (1994)
  11. A.A. Volkov, G.V. Kozlov et alNew results on the dynamics of Rochelle salt crystals (a system with a ’double’ critical point)29 574–575 (1986)
  12. U.Kh. Kopvillem, V.N. Osipov et alAnalogs of Electron Spin Echo in Ferroelectrics and Glasses14 802–803 (1972)
  13. G.A. Smolenskii, V.V. Lemanov “Hypersonic Waves in Crystals13 665–666 (1971)
  14. V.I. Tsebro, O.E. Omel’yanovskii “Persistent currents and magnetic flux trapping in a multiply connected carbon nanotube structure43 847–853 (2000)
  15. V.V. Izmodenov “Global structure of the heliosphere: 3D kinetic-MHD model and the interpretation of spacecraft data61 793–804 (2018)
  16. A.K. Zvezdin, M.D. Davydova, K.A. Zvezdin “Ultrafast spin dynamics and inverse spin Hall effect in nanostructures with giant spin-orbit coupling61 1127–1136 (2018)
  17. I.N. Sisakyan, A.B. Shvartsburg “Adaptive radiooptics31 470–471 (1988)
  18. V.E. Fortov “Equation of state of a nonideal plasma for extreme values of the parameters28 849–850 (1985)
  19. I.N. Sisakyan, A.B. Shvartsburg “Nonlinear waves in fiber-optics information systems27 540–541 (1984)
  20. A.B. Shvartsburg “Reflection of Strong Radio Waves from the Ionosphere17 617–618 (1975)

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