Slow-wave characteristics of interdigitated meander transmission lines

## Abstract The present paper computes the normalized phase constant, dielectric loss, and conductor loss of the voltage‐controlled Schottky‐contact microstrip line using the variational method based on the single‐layer reduction (SLR) formulation. Results computed by the SLR formulation show very

## Abstract The single‐layer reduction (SLR) formulation is presented to compute the propagation characteristics, that is, the slowing factor (normalized phase constant) and the attenuation constant of the even and odd modes of the suspended MIS coupled slow‐wave microstrip lines. The proposed stru

## Abstract This paper presents equivalent transmission‐line circuit models for an optically controlled microstrip slow‐wave MIS structure which are valid over all regions of operation, namely, lossy dielectric, slow wave, and skin effect. The models take into account both capacitance and inductanc

## Abstract Guided‐wave characteristics of planar periodic microstrip lines with inductive loading are investigated by resorting to the unit‐length transmission parameters of an equivalent transmission line. By applying the SOC de‐embedding technique, the above two quantities are effectively extrac

A novel shielded periodic meander line is presented. Its dispersion characteristics are formulated in terms of a rigorous, hybrid-mode representation and Floquet theorem. Some numerical results are included and good agreements compared with other available data are observed. Finally, a quarter-wave

Figure 3-D plot of the propagation of an optical pulse in a dispersion-shifted optical fiber with an initial frequency chirp 2 frequency using a quadratic form of phase variation may underestimate the influence of frequency chirp on soliton propagation. ## Conclusions We have investigated the in