论文信息 - Electromagnetic modelling of large complex 3-D structures with LEGO and the eigencurrent expansion method

Electromagnetic modelling of large complex 3-D structures with LEGO and the eigencurrent expansion method

Linear embedding via Green's operators (LEGO) is a computational method in which the multiple scattering between adjacent objects — forming a large composite structure — is determined through the interaction of simple-shaped building domains, whose electromagnetic (EM) behavior is accounted for by means of scattering operators. This method has been successfully demonstrated for 2-D electromagnetic band-gaps (EBG) and other structures [1], and for very simple 3-D configurations [2]. In this communication we briefly report on the full extension of LEGO to large complex 3-D structures, which may be EBG-based but may also include finite antenna arrays as well as frequency selective surfaces, to name but a few applications. In particular, we shall outline two modifications that were crucial for scaling up the LEGO method, namely, the introduction of a total inverse scattering operator S−1 and the eigencurrent expansion method (EEM) [3].

[1] D. Bekers. Finite antenna arrays : an eigencurrent approach , 2004 .

[2] P de Maagt,et al. Linear embedding via Green's operators: a modeling technique for finite electromagnetic band-gap structures. , 2005, Physical review. E, Statistical, nonlinear, and soft matter physics.

[3] A. Tijhuis,et al. Green's Function Diakoptics through Embedding - General Theory and Numerical Aspects , 2005 .