Fuul-wave analysis for coupling characteristics of multiconductor microstrip lines on semiconductor substrate

## Abstract The finite‐element method has been used for analyzing open microstrip line structures on highly lossy substrates. The geometry descritization has been carried out by using quadrilateral elements, and the spurious solutions are avoided by employing tangential vector formulation. The diff

## Abstract The dispersion characteristics of asymmetric multiconductor lines in shielded suspended substrate (SSS) are evaluated using hybrid‐mode formulation. The numerical procedure, based on full‐wave modal analysis, is formulated to compute all the frequency‐dependent normal‐mode parameters fo

The properties of a microstrip-slot coupled line on uniaxial anisotropic substrates are analyzed using the full-wa¨e modal analysis method. The computational method presented in this paper is general in nature, and can be applied to unilateral finline structures and suspended substrate lines by chan

## Abstract The distortion of a square pulse wave with a finite rise time in edge‐coupled microstrip lines is investigated. These microstrip lines are assumed to be fabricated on a single‐layer low‐temperature co‐fired ceramic (LTCC) substrate which has excellent high‐frequency performance. Paramet

A FBG was apodized using the simple, reproducible, and fully automated electric arc discharge technique. The improvement of this apodization technique, which may be applied to any type of FBG, requires the definition of a preconditioning refractive index and/or photosensitivity response profile usin