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Journal Achievements of Modern Radioelectronics №11 for 2015 г.
Article in number:
The analysis of a microstrip antenna on a chiral substrate with spatial dispersion
Keywords: metamaterial chiral media media dispersion dispersion characteristic thin wire helix microstrip antenna radiation
Authors:
D.S. Klyuev - Dr. Sc. (Phys.-Math.), Associate Professor, Head of Department of Electrodynamics and Antenna, Volga State University of Telecommunications and Informatics (Samara). E-mail: klyuevd@yandex.ru A.M. Nescheret - Post-graduate Student, Volga State University of Telecommunications and Informatics (Samara). E-mail: neshceret_a@list.ru O.V. Osipov - Dr. Sc. (Phys.-Math.), Associate Professor, Prorector, Volga State University of Telecommunications and Informatics (Samara). E-mail: o.osipov@psuti.ru A.O. Pocheptsov - Post-graduate Student, Volga State University of Telecommunications and Informatics (Samara). E-mail: pao@psuti.ru
Abstract:
The problem of a microstrip antenna located on a chiral media substrate radiation is considered. Chiral metamaterial is formed by a set of thin wire metal helixes, which located at equal distances in a homogeneous dielectric container. The thin wire metal helixes have a random orientation in the container. On a base of equivalent circuit for the considered metamaterial dispersive relations for the effective permittivity and relative chirality parameter are obtained. The helical elements resonance frequency and own left and right circular polarization waves dispersion characteristics are calculated. The radiating structure is a thin perfectly conducting strip excited by EMF harmonic source included in the antenna-s gap. The expressions for the surface admittances matrix elements are obtained. These expressions allow to find the formula relating the electric and magnetic fields with a current density on the antenna-s surface. The microstrip antenna radiation problem solution reduced to a integral equationы for a surface current density on a antenna-s strip.
Pages: 67-72
References

 

  1. Lindell I.V., Sihvola A.H., Tretyakov S.A., Viitanen A.J. Electromagnetic waves in chiral and bi-isotropic media. London: ArtechHouse. 1994. 291 p.
  2. Lakhtakia A., Varadan V.K., Varadan V.V. Time-harmonic electromagnetic fields in chiral media. Lecture Notes in Physics. Berlin: Heidelberg and Boston: Springer-Verlag. 1989. 121 p.
  3. Tutorials in metamaterials. CRC Press. 2012. 284 p.
  4. Veselago V.G. EHlektrodinamika veshhestv s odnovremenno otricatelnymi znachenijami ε i μ // Uspekhi fizicheskikh nauk. 1967. T. 92. № 3. S. 517−526.
  5. Pendry J.B. Negative Refraction Makes a Perfect Lens // Phys. Rev. Lett. 2000. V. 85. P. 3966.
  6. Semchenko I.V., Tretyakov S.A., Serdyukov N.N. Research on chiral and bianisotropic media in Byelorussia and Russia in the last ten years // PIER. 1996. V. 12. P. 335−370.
  7. Kljuev D.S., Sokolova JU.V. Raschet vkhodnogo soprotivlenija mikropoloskovogo vibratora metodom gipersinguljarnykh integralnykh uravnenijj // Radiotekhnika i ehlektronika. 2015. T. 60. № 1. S. 52−57.
  8. Dementev A.N., Kljuev D.S., Neganov V.A., Sokolova JU.V. Singuljarnye i gipersinguljarnye integralnye uravnenija v teorii zerkalnykh i poloskovykh antenn. M.: Radiotekhnika. 2015. 216 s.
  9. Neganov V.A., Osipov O.V. Otrazhajushhie, volnovedushhie i izluchajushhie struktury s kiralnymi ehlementami. M.: Radio i svjaz. 2006. 280 s.