DocumentCode
1041087
Title
A simple solution to the problem of the cylindrical antenna
Author
Chaney, Jesse G.
Author_Institution
US Naval Postgraduate School, Monterey, CA, USA
Volume
5
Issue
2
fYear
1957
fDate
4/1/1957 12:00:00 AM
Firstpage
217
Lastpage
221
Abstract
It is recognized that the variational solution of the cylindrical antenna does not minimize 
, as implied by Storer; but yields a minimax of the impedance function. Furthermore, the variational solution may be interpreted as simply placing two currents in parallel upon the antenna, following which, the solution for the magnitudes of the currents and for the driving point impedance may be found by elementary circuit analysis. Consequently, a first-order solution by the generalized circuit is found by postulating a linearly-attenuated traveling wave to be superimposed upon the sinusoidal standing wave. The results show excellent correlation with other theoretical and measured results for both the driving point impedance and the current distribution along the antenna.
, as implied by Storer; but yields a minimax of the impedance function. Furthermore, the variational solution may be interpreted as simply placing two currents in parallel upon the antenna, following which, the solution for the magnitudes of the currents and for the driving point impedance may be found by elementary circuit analysis. Consequently, a first-order solution by the generalized circuit is found by postulating a linearly-attenuated traveling wave to be superimposed upon the sinusoidal standing wave. The results show excellent correlation with other theoretical and measured results for both the driving point impedance and the current distribution along the antenna.Keywords
Cylindrical antennas; Variational methods; Antenna measurements; Antenna theory; Calculus; Circuit analysis; Current distribution; Current measurement; Equations; Impedance measurement; Minimax techniques; Testing;
fLanguage
English
Journal_Title
Antennas and Propagation, IRE Transactions on
Publisher
ieee
ISSN
0096-1973
Type
jour
DOI
10.1109/TAP.1957.1144491
Filename
1144491
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