Title :
Fast full-wave analysis of a cylindrical antenna using a single integral with an exact kernel
Author :
Lim, Chan-Ping ; Li, Le-Wei ; Li, Ping E.
Author_Institution :
High Performance Comput. for Engineered Syst. Programme of the Singapore-MIT Alliance, Nat. Univ. of Singapore, Singapore
fDate :
6/24/1905 12:00:00 AM
Abstract :
This paper presents a fast approach in the method-of-moments (MoM) analysis so as to obtain the nonuniform current distributions of cylindrical antennas with electrically large radii. An oblique incident field in its general form and a delta-gap source are considered in the formulation of nonuniform current distributions. In the Galerkin´s MoM procedure, the Fourier cosine series is considered as the entire domain basis function series. In this formulation, the kernel is represented by a series of weighted spherical Hankel functions of the second kind and the convergence of this series is fast. As the result, the computation time is short. The Mathematica package is used to obtain and plot the current distributions along the cylindrical antennas.
Keywords :
Fourier series; Galerkin method; convergence of numerical methods; current distribution; dipole antennas; integral equations; method of moments; Fourier cosine series; Galerkin´s MOM procedure; Mathematica package; MoM analysis; Pocklington´s integral equation; computation time; cylindrical antenna; delta-gap source; dipole antenna; domain basis function series; electrically large radii; exact kernel; fast full-wave analysis; method-of-moments; nonuniform current distributions; oblique incident field; series convergence; weighted spherical Hankel functions; Current distribution; Dipole antennas; Electronic mail; Frequency; Geometry; High performance computing; Integral equations; Kernel; Moment methods; Systems engineering and theory;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2002.802578
