Theory of imaging of Cassegrainian and Gregorian antennas

Author

Dragone, Corrado

Author_Institution

AT&T Bell Laboratories, Crawford Hill Laboratory, Holmdel, NJ, USA

Volume

34

Issue

5

fYear

1986

fDate

5/1/1986 12:00:00 AM

Firstpage

689

Lastpage

701

Abstract

The formation of an image by an eilipsoidal reflector under illumination from one of its foci is discussed. The transformation relating the field distributions over two conjugate surfaces $\\Sigma _{0}$ and $\\Sigma$ is determined. It is shown that the image produced by the reflected field $E$ over $\\Sigma$ is not an exact replica of the illumination of $\\Sigma _{0}$ , but $E = E_{i} + \\delta E$ , where $E_{i}$ is the image according to geometric optics. The distortion $\\delta E$ is primarily due to the nonzero angle of incidence $i$ on the reflector. If $i = 0$ then $\\delta E \\simeq 0$ , in agreement with Fresnel\´s diffraction theory for an optical system of revolution. The theory applies in general to any multireflector arrangement derived from quadric surfaces of revolution and, in particular, to Cassegrainian and Gregorian antennas. As an application, a simple solution to the classical problem of illuminating efficiently the aperture of a reflector antenna is proposed. A horn of relatively small aperture is combined with an imaging reflector. The imaging reflector, an ellipsoid, transforms the horn aperture distribution into a magnified image illuminating efficiently the main reflector, with negligible spillover over a wide frequency range.

Keywords

Geometrical optics (GO); Reflector antennas, multireflector; Antenna theory; Aperture antennas; Ellipsoids; Frequency; Geometrical optics; Lighting; Optical diffraction; Optical distortion; Optical imaging; Reflector antennas;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/TAP.1986.1143870

Filename

1143870