A method of full wave analysis with improved stability

## Abstract Recently a finite‐difference frequency‐domain (FDFD) formulation has been reported for the dispersion analysis of uniform waveguides loaded with anisotropic dielectrics characterized by a diagonal tensor [4]. This formulation, which leads to an eigenvalue problem for the propagation con

In this work, we propose a full-wave numerical approach for efficient analysis and design of printed leaky-wave phased arrays. The proposed technique is based on the method of moments in the spectral domain applied to a leaky structure in a periodic environment. The implementation exploits suitable

The analysis and design of small-and medium-sized aperture antenna arrays is an important task in the development of many microwave systems, and is computationally heavy due to the typical requirements for e$ciency and accuracy. Several approaches have already been proposed in the literature, but th

The full-vectorial finite-element-based imaginary-distance beam-propagation method (IDVFEBPM) is applied to perform modal analysis of lossless and lossy microwave dielectric waveguides. The excellent agreement between the results obtained using the IDVFEBPM and those in the literature reveal its hig

This work presents a novel numerical technique for the analysis of leaky-wave modes in laterally shielded, top-open multilayered planar transmission lines. The method develops the multilayered-media boxed Green's functions for this type of electromagnetic devices, and solves the characteristic elect