Title :
A fast multipole method for layered media based on the application of perfectly matched layers - the 2-D case
Author :
Vande Ginste, Dries ; Rogier, Hendrik ; Olyslager, Frank ; De Zutter, Daniël
Author_Institution :
Inf. Technol. Dept., Ghent Univ., Belgium
Abstract :
An efficient fast multipole method (FMM) formalism to model scattering from two-dimensional (2-D) microstrip structures is presented. The technique relies on a mixed potential integral equation (MPIE) formulation and a series expression for the Green functions, based on the use of perfectly matched layers (PML). In this way, a new FMM algorithm is developed to evaluate matrix-vector multiplications arising in the iterative solution of the scattering problem. Novel iteration schemes have been implemented and a computational complexity of order O(N) is achieved. The theory is validated by means of several illustrative, numerical examples. This paper aims at elucidating the PML-FMM-MPIE concept and can be seen as a first step toward a PML based multilevel fast multipole algorithm (MLFMA) for 3-D microstrip structures embedded in layered media.
Keywords :
Green´s function methods; computational complexity; electromagnetic wave scattering; inhomogeneous media; integral equations; iterative methods; matrix multiplication; method of moments; microstrip lines; series (mathematics); waveguide theory; Green´s function method; computational complexity; fast multipole method; iterative solution; layered media; matrix-vector multiplication; mixed potential integral equation; multilevel fast multipole algorithm; perfectly matched layer application; scattering problem; series expression; two-dimensional microstrip structure; Green function; Integral equations; Iterative algorithms; MLFMA; Microstrip; Nonhomogeneous media; Perfectly matched layers; Scattering; Transmission line matrix methods; Two dimensional displays;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2004.834396
