Near-field distributions and radiation patterns of hollow dielectric wall pyramidal horn antennas

Near-field distributions and radiation patterns of hollow dielectric wall pyramidal horn antennas

Aperture/near-field distributions and radiation patterns of hollow dielectric wall pyramidal horn antennas have been studied theoretically and experimentally. Solution of the Helmholtz's equation is obtained for the TE to x mode, using the separation of variables technique for the horn, assumed...

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Bibliographic Details
Published in:International journal of electronics Vol. 84; no. 4; pp. 383 - 402
Main Authors: TIWARI, T, TIWARI, V. N
Format: Journal Article
Language:English
Published: London Taylor & Francis Group 01-04-1998
Taylor & Francis
Subjects:
Antennas
Applied sciences
Exact sciences and technology
Radiocommunications
Telecommunications
Telecommunications and information theory
Near field
Field distribution
Horn antennas
X band
Helmholtz equation
Radiation pattern
Dielectric antenna
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Summary:Aperture/near-field distributions and radiation patterns of hollow dielectric wall pyramidal horn antennas have been studied theoretically and experimentally. Solution of the Helmholtz's equation is obtained for the TE to x mode, using the separation of variables technique for the horn, assumed to be made of an equivalent homogeneous dielectric material of dielectric constant equal to the effective dielectric constant of the dielectric slabs and inner free space region bounded by these slabs. Transcendental equations for the transverse components of the propagation constants are obtained by applying proper boundary conditions, i.e. the continuity of the electric and magnetic fields at the dielectric-air boundaries. These transcendental equations are solved for the transverse propagation constants for the fundamental mode for the horn of axial length = 10.2cm, and of angles of flare in the H- and E-planes of 8.5° and 6.5°, respectively, at 9.418GHz in the X-band. The expressions for the near-field components of the horn under study are used to obtain the expression for radiation pattern from Kirchoff's diffraction formula. The theoretical aperture field distributions obtained for the H x 11 mode propagating in the antenna and 11 radiation patterns are compared with corresponding experimental ones.
ISSN:0020-7217
1362-3060
DOI:10.1080/002072198134733