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Dispersion and Filtering Properties of Rectangular Waveguides Loaded With Holey Structures

Angel Palomares-Caballero, Antonio Alex-Amor, Pablo Padilla, Juan F. Valenzuela-Valdes

2020IEEE Transactions on Microwave Theory and Techniques26 citationsDOIOpen Access PDF

Abstract

This article analyzes thoroughly the dispersion and filtering features of periodic holey waveguides in the millimeter-wave frequency range. Two structures are mainly studied depending on the glide and mirror symmetries of the holes. A parametric study of the dispersion characteristics of their unit cells is carried out. Glide-symmetric holey waveguides provide a higher propagation constant and a low dispersion over a wide frequency range regarding hollow waveguides. This property is particularly useful for the design of low-loss and low-dispersive phase shifters. We also demonstrate that glide-symmetric holey waveguides are less dispersive than waveguides loaded with glide-symmetric pins. Furthermore, we perform a Bloch analysis to compute the attenuation constants in holey waveguides with mirror and broken glide symmetries. Both configurations are demonstrated to be suitable for filter design. Finally, the simulation results are validated with two prototypes in gap-waveguide technology. The first one is a 180° phase shifter based on a glide-symmetric holey configuration that achieves a flat phase shift response over a wide frequency range (27.5% frequency bandwidth). The second one is a filter based on a mirror-symmetric holey structure with a 20-dB rejection from 63 to 75 GHz.

Topics & Concepts

Dispersion (optics)AttenuationOpticsMaterials sciencePropagation constantPhase (matter)Parametric statisticsFilter (signal processing)Phase shift moduleRange (aeronautics)WaveguidePhotonic crystalOptical filterCoupling (piping)Dispersion relationPhase responseConstant (computer programming)Waveguide filterWave propagationOptoelectronicsMicrowaveFrequency responseGroup delay dispersionPhase distortionLow-pass filterMicrowave Engineering and WaveguidesSuperconducting and THz Device TechnologyMetamaterials and Metasurfaces Applications
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