When a narrow slot is used to radiate energy into free space and the moment method is used to analyse its characteristics, a quadruple singular integral with a partial differential operator is encountered. A new rigorous and simple method is presented for performing the integration. The time cost using the method presented is much shorter than that using the earlier method. This method is especially suitable for CAD.
References
-
-
1)
-
A. Hadidi ,
M. Hamid
.
A novel treatment of Pocklington's equation applied toslot apertures.
IEEE Trans.
,
1124 -
1129
-
2)
-
M. Kisliuk ,
A. Axelrod
.
Theoretical and experimental study of a novel H-Guidetransverse slot antenna.
IEEE Trans.
,
428 -
433
-
3)
-
R.W. Lyon ,
A.J. Sangster
.
Efficient moment method analysis of radiatingslots in a thick-walled rectangular waveguide.
IEE Proc. H, Microw., Antennas Propag.
,
4 ,
197 -
205
-
4)
-
J.A.G. Malherbe ,
J.H. Cloete ,
I.E. Losch ,
M.W. Robson ,
D.B. Davidson
.
The design of a slot array in non-radiating dielectric waveguide,Part II: Experiment.
IEEE Trans.
,
1341 -
1344
-
5)
-
D.R. Wilton ,
C.M. Butler
.
Efficient numerical techniques for solvingPocklington's equation and their relationships to other methods.
IEEE Trans.
,
83 -
86
-
6)
-
A.J. Sangster ,
A.H.I. McCormick
.
Theoretical design/synthesis ofslotted waveguide arrays.
IEE Proc. H, Microw., Antennas Propag.
,
39 -
46
-
7)
-
R.S. Elliott ,
L.A. Kurtz
.
The design of small slot arrays.
IEEE Trans.
,
214 -
219
-
8)
-
J.A.G. Malherbe
.
The design of a slot array in non-radiating dielectricwaveguide, Part I: Theory.
IEEE Trans.
,
1335 -
1340
-
9)
-
R.W.P. King
.
(1956)
Theory of linear antennas.
-
10)
-
B.N. Das ,
K.K. Joshi
.
Impedance of a radiating slot in the ground plane of amicrostripline.
IEEE Trans.
,
922 -
926
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