Simulation of planar spiral antennas made of a conductor with magnetodielectric coating

Authors

  • V. I. Demidchik Belorussian State University, Belarus
  • R. V. Kornev Belorussian State University, Belarus
  • P. D. Kuharchik Belorussian State Pedagogical University, Belarus

DOI:

https://doi.org/10.1109/ICATT.2011.6170791

Keywords:

integral equation, plane spiral antennas, magnetodielectric coating

Abstract

Electrodynamic characteristics of a plane spiral antenna were investigated using the numerical solution of the modified Pocklington integral equation for a thin conductor with magnetodielectric coating.

References

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DEMIDCHIK, V.I. Integral equations for thin wires with dielectric coating. Vestnik BSU, 2000, v.1, n.3, p.29-31.

DEMIDCHIK, V.I. Simulating excitement of thin-wire conductors with magnetodielectric coating. Vestnik BSU, 2009, v.1, n.2, p.25-28.

DEMIDCHIK, V.I.; KALASHNIKOV, N.V.; RUNOV, А.V. Calculation technique of current distribution for electrically long curvilinear conductors. Izv. Vuzov. Radioelektronika, 1983, v.26, n.3, p.82-84.

BRETONES, A.R.; MARTI, R.G.; GARCIA, I.S. Time–domain analysis of magnetic-coated wire antennas. IEEE Trans. Antennas Propagation, 1995, v.43, p.591-596.

DEMIDCHIK, V.I.; KUKHARCHIK, P.D.; SITSKO,N.Y. Dielectric coating influence on scattering characteristics of conducting fibres of arbitrary geometry. Doklady NAN Belarus, 2007, v.51, n.3, p.37-41.

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URTSEV, O.A.; RUNOV, А.V.; KAZARIN, А.N. Helical Antennas. Мoscow: Sov. Radio, 1973 [in Russian].

ICATT 2011 cover

Published

2011-09-25

Issue

2011: ICATT’2011 - Proc. of VIII Int. Conf. on Antenna Theory and Techniques

Section

UWB, WB and multi-frequency antennas