DocumentCode
1041810
Title
On the fresnel approximation
Author
Barrar, R.B. ; Wilcox, C.H.
Author_Institution
Hoffman Labs., Inc., Los Angeles 7, CA, USA
Volume
6
Issue
1
fYear
1958
fDate
1/1/1958 12:00:00 AM
Firstpage
43
Lastpage
48
Abstract
The purpose of this paper is to show the power of the Sommerfeld expansion in computing Fresnel and near fields of antennas, a matter which has become of increasing importance in high resolution antennas. A connection is shown between the Fresnel and Fraunhofer approximations for radiation fields which is derived by using Sommerfeld\´s expansion of the field in inverse powers of radial distance. This expansion permits an estimate of the error incurred in using the Fresnel approximation. Higher-order corrections to the phase and amplitude portion of the Fresnel approximation are also exhibited. By way of illustrating the power of the Sommerfeld expansion of the fields in the Fresnel (intermediate) region of a radiation source, numerical calculations of amplitude, phase, and power patterns have been made for a finite line source of length
with an equiphase cosine-on-a-pedestal current distribution. It is found that the first five terms of the series are sufficient to obtain accurate results when
, as compared with the Fraunhofer approximation which is usually considered valid for
. Non-Fraunhofer zone effects on the power pattern and phase front are discussed as a function of distance
and the type of current distribution.
with an equiphase cosine-on-a-pedestal current distribution. It is found that the first five terms of the series are sufficient to obtain accurate results when
, as compared with the Fraunhofer approximation which is usually considered valid for
. Non-Fraunhofer zone effects on the power pattern and phase front are discussed as a function of distance
and the type of current distribution.Keywords
Antennas; Approximation methods; Aircraft; Books; Cities and towns; Current distribution; Electrostatic precipitators; Fourier transforms; Fresnel reflection; Linear antenna arrays; Partial differential equations; Testing;
fLanguage
English
Journal_Title
Antennas and Propagation, IRE Transactions on
Publisher
ieee
ISSN
0096-1973
Type
jour
DOI
10.1109/TAP.1958.1144557
Filename
1144557
Link To Document