New Technique for Mixed Potential Integral Equation Formulation in Multilayered Media and Its Application of Electrically Small Antennas Connected with Vertical Via-Holes
ZHANG Min1, YUAN Tao2, BAI Lu1, LI Le-Wei2, WU Zhen-Sen1
1School of Science, Xidian University, PO Box 270, Xi’an 710071
2National University of Singapore, 10 Kent Ridge Crescent, 119620 Singapore
New Technique for Mixed Potential Integral Equation Formulation in Multilayered Media and Its Application of Electrically Small Antennas Connected with Vertical Via-Holes
Abstract: We present an effective technique for mixed potential integral equation formulations in multilayered media. In terms of the dipole source method, the formulations of Green functions in spectral domain are restructured concisely, a proper integration path is chosen to straightforwardly apply the two-level discrete complex image method and the high order Sommerfeld identities yield very accurate results of Green functions in the spatial domain for general electric and magnetic sources in three-dimensional multilayered media. Finally, it is used to design a realistic low temperature co-fired ceramic aperture coupled antenna with vertical via-holes connected at the Ka band.
ZHANG Min;YUAN Tao;BAI Lu;LI Le-Wei;WU Zhen-Sen. New Technique for Mixed Potential Integral Equation Formulation in Multilayered Media and Its Application of Electrically Small Antennas Connected with Vertical Via-Holes[J]. 中国物理快报, 2005, 22(2): 328-331.
ZHANG Min, YUAN Tao, BAI Lu, LI Le-Wei, WU Zhen-Sen. New Technique for Mixed Potential Integral Equation Formulation in Multilayered Media and Its Application of Electrically Small Antennas Connected with Vertical Via-Holes. Chin. Phys. Lett., 2005, 22(2): 328-331.