Estimation method for the surface current of microstrip line using a Green's function

## Abstract This paper presents a novel approach for the efficient solution of a class of microstrip antennas using the newly introduced characteristic basis functions (CBFs) in conjunction with the method of moments (MoM). The CBFs are special types of high‐level basis functions, defined over doma

## Abstract This article describes a robust method for locating the poles of the spectral‐domain Green's functions in a lossless or lossy multilayered medium. Real‐coded genetic algorithm (RGA) is first introduced to approximate the locations of the surface‐ and/or leaky‐wave poles and then followe

## Abstract In this paper, we propose a new dual‐band antenna for applications of the ISM band. The proposed antenna is designed to operate at 2.4 and 5.8 GHz. The lower‐frequency band (2.4 GHz) can be obtained by using the meandering technique, and the upper‐frequency band (5.8 GHz) for dual‐band

## Abstract This paper presents a simplified hybrid calculation method, which enables calculation of a field very close to the surface of a perfect conducting object as well as the surface field itself. This method is based on the series electric dipole modeling (SEDM) technique, used to quickly an

## Abstract The addition theorem for a free‐space scalar Green's function plays an important role in the fast multipole method (FMM). Therefore, both the accuracy and convergence are issues of concern in the code implementation of the FMM. In this paper, the addition theorem, when used in an unboun