IEEE Journal of Microwaves (Jan 2021)

On the Benefits of Glide Symmetries for Microwave Devices

  • OSCAR QUEVEDO-TERUEL,
  • QIAO CHEN,
  • FRANCISCO MESA,
  • NELSON J. G. FONSECA,
  • GUIDO VALERIO

DOI
https://doi.org/10.1109/JMW.2020.3033847
Journal volume & issue
Vol. 1, no. 1
pp. 457 – 469

Abstract

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The presence of glide symmetries in periodic structures can introduce beneficial modifications in their electromagnetic properties. The difference between glide and non-glide periodic structures is due to the distinctive coupling between their constituent sub-unit cells. In this paper, we describe the recent discoveries on the remarkable properties of glide-symmetric periodic structures, which include widened stopbands, reduced dispersion, as well as enhanced anisotropy and magnetic response. These properties are explained through canonical structures simulated with two methods: mode matching and multimode transfer-matrix analysis. We also review the recent use of these distinctive properties for solving technological problems in practical devices such as filters, gap waveguide components, low-leakage flanges, compressed lenses, low-reflected material transitions and leaky-wave antennas with applications in 5G terrestrial communication systems, millimetre-wave satellite systems and automated contactless measurement techniques.

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