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WEDGE SCATTERING BY THE METHOD OF ITERATION

被引:5
作者
HOLLIDAY, D
DERAAD, LL
STCYR, GJ
机构
[1] Logicon R&D Associates, Los Angeles
来源
IEEE TRANSACTIONS ON GEOSCIENCE AND REMOTE SENSING | 1995年 / 33卷 / 02期
关键词
D O I
10.1109/36.377945
中图分类号
P3 [地球物理学]; P59 [地球化学];
学科分类号
0708 ; 070902 ;
摘要
The method of numerical iteration of the surface current integral equation is successfully applied to the perfectly conducting classical Sommerfeld wedge and to a truncated wedge on a plane. Numerical errors are calculated for both the integral equation and the boundary conditions. The backscatter polarization ratio (sigma(HH)/sigma(VV)) at 85 degrees incidence for the truncated wedge is shown to be 20 dB below values reported by previous workers.
引用
收藏
页码:449 / 456
页数:8
相关论文
共 11 条
[1]  
BOWMAN JJ, 1969, ELECTROMAGNETIC ACOU, pCH6
[2]  
HOLLIDAY D, TR1870001001 LOG R D
[3]  
JENSEN GA, IGARSS 92, V2, P1771
[4]   GEOMETRICAL THEORY OF DIFFRACTION [J].
KELLER, JB .
JOURNAL OF THE OPTICAL SOCIETY OF AMERICA, 1962, 52 (02) :116-+
[5]   COMPARISON OF 3 HIGH-FREQUENCY DIFFRACTION TECHNIQUES [J].
KNOTT, EF ;
SENIOR, TBA .
PROCEEDINGS OF THE IEEE, 1974, 62 (11) :1468-1474
[6]   UNIFORM GEOMETRICAL THEORY OF DIFFRACTION FOR AN EDGE IN A PERFECTLY CONDUCTING SURFACE [J].
KOUYOUMJIAN, RG ;
PATHAK, PH .
PROCEEDINGS OF THE IEEE, 1974, 62 (11) :1448-1461
[7]  
LONG MW, 1983, RADAR REFLECTIVITY L, P286
[8]  
LYZENGA DR, 1983, IEEE T GEOSCI REMOTE, V21
[9]  
McNamara D. A., 1990, INTRO UNIFORM GEOMET
[10]  
OBERHETTINGER F, 1956, J MATH PHYS, V34, P245
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