Add to ORKGIn this paper, we introduce a novel acceleration method for the calculation of dyadic Green’s functions for the mixed potential integral equation formulation of electromagnetic scattering of scatterers embedded in a multilayered medium. Numerical results are provided to demonstrate the efficiency and accuracy of the proposed method. c ○ 2000 Academic Press Key Words: electromagnetic scattering; dyadic Green’s functions; mixed potential integral equations; Hankel transforms; fast algorithms; window functions
International audienceA rigorous and robust algorithm is presented for solving the electromagnetic s...
10.1109/22.339756IEEE Transactions on Microwave Theory and Techniques4212 pt 12302-2310IETM
Studying electromagnetic waves in complex media has been an important research topic due to its usef...
This dissertation is mainly focused on the efficient computation of Green's function and electromagn...
124 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The second part of this thesi...
Abstract–This paper considers expressions of the dyadic Green’s func-tion for rectangular enclosures...
We present efficient and accurate solutions of scattering problems involving dense discretizations w...
The solution of electromagnetic scattering by objects located in planar, multilayered media has long...
International audienceA fast solution for rigorously deriving and calculating spatial-domain dyadic ...
Recently, there has been renewed interest on solving integral equations due to the advent of various...
In this paper the efficient evaluation of mixed-potential periodic Green’s functions in layered medi...
The development of computationally efficient Green's functions in layered-media environments is impo...
Abstract—A fast solution for rigorously deriving and calcu-lating spatial-domain dyadic Green’s func...
This paper gives an overview of computational electromagnetics for simulating complex structures wit...
Abstract—A new procedure for fast computing mixed potential spatial domain Green’s functions for cyl...
International audienceA rigorous and robust algorithm is presented for solving the electromagnetic s...
10.1109/22.339756IEEE Transactions on Microwave Theory and Techniques4212 pt 12302-2310IETM
Studying electromagnetic waves in complex media has been an important research topic due to its usef...
This dissertation is mainly focused on the efficient computation of Green's function and electromagn...
124 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2002.The second part of this thesi...
Abstract–This paper considers expressions of the dyadic Green’s func-tion for rectangular enclosures...
We present efficient and accurate solutions of scattering problems involving dense discretizations w...
The solution of electromagnetic scattering by objects located in planar, multilayered media has long...
International audienceA fast solution for rigorously deriving and calculating spatial-domain dyadic ...
Recently, there has been renewed interest on solving integral equations due to the advent of various...
In this paper the efficient evaluation of mixed-potential periodic Green’s functions in layered medi...
The development of computationally efficient Green's functions in layered-media environments is impo...
Abstract—A fast solution for rigorously deriving and calcu-lating spatial-domain dyadic Green’s func...
This paper gives an overview of computational electromagnetics for simulating complex structures wit...
Abstract—A new procedure for fast computing mixed potential spatial domain Green’s functions for cyl...
International audienceA rigorous and robust algorithm is presented for solving the electromagnetic s...
10.1109/22.339756IEEE Transactions on Microwave Theory and Techniques4212 pt 12302-2310IETM
Studying electromagnetic waves in complex media has been an important research topic due to its usef...