Analysis of inductive frequency selective surfaces by the method of moments with entire-domain basis functions

## Abstract In this article, the spectral domain method of moment is utilized to analyze frequency selective surface with RWG basis functions for arbitrarily shaped metal geometry. The Fourier transform of the RWG basis function can be expressed in the analytical form and the fast convergence chara

In this article, an algorithm able to deal at the same time with wire frame and surface patch models for the method of moments in time domain is presented. After a unified theory combining both models, attention is focused on stability dependence issues on the time basis function chosen and on other

The use of rectangular and triangular basis functions in the method of moments to analyze the problem of scattering of electromag-( ) netic wa¨es by dielectric objects with high dielectric constant ) 10 r leads to con¨ergence problems due to the spurious charges associated with the basis functions.

The solenoidal basis functions defined on tetrahedrons are modified to permit the analysis of the problem of scattering of electromagnetic wa¨es by inhomogeneous dielectric objects. In the analysis of the scattering of EM plane wa¨es by an inhomogeneous dielectric cube, we compare our results with t

## Abstract The cutoff wavelengths of elliptical waveguides are calculated by using a meshless collocation method with the radial basis functions, which only needs point sampling, and no mesh discretization is performed. The field value at any point inside the waveguide can be obtained by interpola