Title :
Fast frequency sweep technique for the efficient analysis of dielectric waveguides
Author :
Polstyanko, Sergey V. ; Dyczij-Edlinger, Romanus ; Lee, Jin-Fa
Author_Institution :
Worcester Polytech. Inst., MA, USA
fDate :
7/1/1997 12:00:00 AM
Abstract :
This paper describes a new approach to spectral response computations of an arbitrary two-dimensional (2-D) waveguide. This technique is based on the tangential-vector finite-element method (TVFEM) in conjunction with the asymptotic waveform evaluation (AWE) technique. The former is used to obtain modes characteristics for a central frequency, whereas the latter employs an efficient algorithm to compute frequency moments for each mode. These moments are then matched via Pade approximation to a reduced-order rational polynomial, which can be used to interpolate each mode over a frequency band with a high degree of accuracy. Furthermore, the moments computations and subsequent interpolation for a given set of frequency points can be done much more rapidly than just simple simulations for each frequency point.
Keywords :
approximation theory; dielectric waveguides; finite element analysis; interpolation; iterative methods; polynomials; waveguide theory; 2D waveguide; AWE technique; Pade approximation; asymptotic waveform evaluation; dielectric waveguides; fast frequency sweep technique; finite-element method; frequency moments; interpolation; modes characteristics; moments computations; reduced-order rational polynomial; spectral response computations; tangential-vector FEM; two-dimensional waveguide; Computational modeling; Dielectrics; Electromagnetic propagation; Electromagnetic waveguides; Equations; Finite element methods; Frequency; Interpolation; Optical waveguides; Polynomials;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
