Full-wave consistent MDS-based simulation of a beam-waveguide circuit fragment for a deep space communication or radio astronomy antenna

Author

Nosich, Andrey A. ; Sauleau, Ronan ; Gandel, Yuriy V.

Author_Institution

Dept. of Math., Kharkiv Nat. Univ., Kharkiv

fYear

2008

fDate

27-31 Oct. 2008

Firstpage

523

Lastpage

526

Abstract

In this paper we perform full-wave two-dimensional (2-D) simulation of the e-polarized beam wave guidance and scattering by a chain of four finite-size reflectors and mirrors modelling a typical fragment of quasioptical feeding circuit of a deep-space communication antenna. Elementary geometry tuning aimed at the maximum circuit transmission is also demonstrated. The feed beam generated by the aperture of a corrugated horn is simulated with the incident complex-source-point (CSP) field. Numerical solution is obtained from the coupled singular integral equations (IEs) discretized using new quadrature formulas of interpolation type that take full account of the IE kernel singularity and the edge behaviour.

Keywords

antennas; integral equations; integration; radioastronomical techniques; space communication links; IE kernel singularity; beam-waveguide circuit fragment; complex-source-point field; coupled singular integral equations; deep-space communication antenna; e-polarized beam wave guidance; elementary geometry tuning; finite-size reflectors; full-wave consistent MDS-based simulation; full-wave two-dimensional simulation; maximum circuit transmission; quadrature formulas; quasioptical feeding circuit; radio astronomy antenna; Antenna feeds; Apertures; Circuit optimization; Circuit simulation; Geometry; Mirrors; Radio astronomy; Reflector antennas; Scattering; Two dimensional displays;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwave Conference, 2008. EuMC 2008. 38th European

Conference_Location

Amsterdam

Print_ISBN

978-2-87487-006-4

Type

conf

DOI

10.1109/EUMC.2008.4751504

Filename

4751504