Title :
Rapid Simulation of Linear PBG Microstrip Structures Using the Rayleigh Multipole Method
Author :
Schaub, D.E. ; Oliver, D.R.
Author_Institution :
Manitoba Univ., Winnipeg
Abstract :
An efficient technique is developed for the simulation of scattering parameters and band structure of linear microstrip structures possessing periodically modulated substrate permittivity. By assuming perfect magnetic conductor boundaries on the microstrip edges, analysis may be performed in two dimensions where the problem is readily modeled as a stack of diffraction gratings. This formulation permits the application of fast diffraction grating algorithms such as the Rayleigh multipole method. The advantageous speed of this approach over conventional simulation methods has been exploited to obtain device parameters that maximize the bandwidth of the stopband. The design was constructed to confirm the simulated performance.
Keywords :
S-parameters; diffraction gratings; microstrip filters; permittivity; photonic band gap; Rayleigh multipole method; band structure; diffraction gratings; linear PBG microstrip structures; linear microstrip structures; perfect magnetic conductor boundary; periodically modulated substrate permittivity; photonic-bandgap material; rapid simulation; scattering parameters; stopband; Attenuation; Dielectric substrates; Diffraction gratings; Lattices; Metamaterials; Microstrip; Microwave filters; Periodic structures; Permittivity; Photonic band gap; Electromagnetic-bandgap (EBG) material; Rayleigh multipole method; microstrip filters; microwave filters; photonic-bandgap (PBG) material;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2007.912244
