Spectral-domain modeling of superconducting microstrip structures: Transmission lines and resonators

We present an analysis of thin microstrip superconducting structures in which the effects of the superconducting material, of finite complex conductivity and finite thickness, are taken into account through the concept of sheet impedance coupled with an extension of the Spectral Domain Immittance Ap

## Abstract Multilayer microstrip lines are an integral part of MMIC. This paper presents an analysis of multilayer GaAs microstrip lines using a spectral‐domain method (SDM), taking into account the effect of the variation in the thickness of various layers of substrates on the characteristic impe

This work applies spectral-domain analysis (SDA) to study the modal spectrum of open laterally-shielded microstrip lines. Although some thorough studies have been carried out (periodic phased leaky-wave antennas), only odd modes have been considered. The original contribution of this paper deals wit

## Abstract The propagation characteristics of a microstrip line loaded with an array of split ring resonators (SRRs) as superstrate is investigated. The presence of SRRs over the microstrip line leads to an effective negative permeability in a narrow band, where signal propagation is inhibited. Th

## Abstract We report the complete characterization of microstrip lines at an infrared frequency of 28.3 THz (10.6‐μm wavelength) through modeling, fabrication, and measurement. The transmission‐line parameters of interest can not be directly measured at infrared frequencies—the only measurable qua