Truncation in millimeter and submillimeter-wave optical systems

Author

Murphy, J. Anthony ; Egan, Aidan ; Withington, Stafford

Author_Institution

Dept. of Exp. Phys., Maynooth Coll., Ireland

Volume

41

Issue

10

fYear

1993

fDate

10/1/1993 12:00:00 AM

Firstpage

1408

Lastpage

1413

Abstract

The authors present a technique for determining the power that is lost when the field in a beam waveguide is truncated by an axially-symmetric stop. The technique is based on the principles of multimode Gaussian optics. Although the underlying theory is applicable to any long-focal-length optical system, they concentrate on beam waveguides that are fed by diagonal horns, corrugated horns, smooth-walled conical horns, and uniformly-illuminated apertures. The results are summarized in a series of plots which show truncation loss as a function of normalised aperture size and phase slippage. These plots can be used together with single-mode design techniques to minimize the size of millimeter and submillimeter-wave optical systems

Keywords

antenna feeders; antenna theory; horn antennas; losses; optical systems; waveguide theory; axially-symmetric stop; beam waveguide; corrugated horns; diagonal horns; long focal length; millimeter wave optical systems; multimode Gaussian optics; normalised aperture size; normalised phase slippage; single-mode design; smooth-walled conical horns; submillimeter-wave optical systems; truncation loss; uniformly-illuminated apertures; Aperture antennas; Optical design; Optical design techniques; Optical losses; Optical propagation; Optical waveguide theory; Optical waveguides; Propagation losses; Submillimeter wave propagation; Submillimeter wave technology;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/8.247781

Filename

247781