Theory and measurement of the field of a pyramidal horn

Author

Nye, John F. ; Liang, Wenlie

Author_Institution

H.H. Wills Phys. Lab., Bristol Univ., UK

Volume

44

Issue

11

fYear

1996

fDate

11/1/1996 12:00:00 AM

Firstpage

1488

Lastpage

1498

Abstract

Edge-wave diffraction theory is used in an unconventional way to predict the field in the immediate vicinity of the aperture plane of a pyramidal microwave horn. The far field may then be inferred by Fourier transformation. The theoretical predictions for the near field are compared with measurements almost in the aperture plane and inside a horn made by the modulated scatterer method. The directivity on axis, which is our primary concern, is mainly determined by the curvature of the wavefront at the aperture. When computed as a function of frequency, it shows oscillations similar to those observed. They arise because edge waves, multiply reflected inside the horn, mimic the effect of a wave reflected back from the throat; this interferes with the main wave to change the curvature of the emerging wavefront, and hence, the directivity

Keywords

Fourier transforms; antenna radiation patterns; antenna testing; electromagnetic wave diffraction; electromagnetic wave reflection; electromagnetic wave scattering; horn antennas; EM wave reflection; Fourier transformation; aperture plane; directivity; edge waves; edge-wave diffraction theory; far field; measurement; modulated scatterer method; near field; oscillations; pyramidal horn field; pyramidal microwave horn; wavefront curvature; Apertures; Diffraction; Geometrical optics; Microwave theory and techniques; Optical modulation; Optical scattering; Optical sensors; Phase measurement; Phase modulation; Probes;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/8.542074

Filename

542074