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Glide-Symmetric Holey Structures Applied to Waveguide Technology: Design Considerations.

Zvonimir Sipus1, Katarina Cavar1, Marko Bosiljevac1

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Summary
This summary is machine-generated.

This study explores glide-symmetric periodic structures for electromagnetic applications. It finds 1D glide symmetry is often sufficient for waveguide components, simplifying realization and offering practical design guidelines.

Keywords:
dispersion analysisglide symmetryhigher symmetriesmode matchingperiodic structures

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Area of Science:

  • Electromagnetics
  • Materials Science
  • Waveguide Technology

Background:

  • Growing interest in high-symmetry periodic structures for advanced electromagnetic applications.
  • Periodic structures offer unique properties for novel device functionalities.

Purpose of the Study:

  • To discuss design considerations for implementing holey glide-symmetric periodic structures in waveguide components.
  • To compare 1D and 2D glide symmetry implementations and their impact on dispersion and bandgap properties.
  • To provide practical design guidelines for waveguide-based components.

Main Methods:

  • Analysis of dispersion and bandgap properties for 1D and 2D glide-symmetric structures.
  • Simulations and experimental measurements of gap waveguide components.
  • Development and application of an effective hole depth method for realistic hole analysis.

Main Results:

  • 1D glide symmetry is often sufficient and simpler to realize for waveguide components.
  • 2D glide symmetry, particularly diagonal, is effective for attenuating lateral waves.
  • The effective hole depth method aids in designing electrically large waveguide components.

Conclusions:

  • Practical implementation of glide-symmetric structures in waveguide components can leverage 1D symmetry for simplicity.
  • 2D glide symmetry offers enhanced performance for specific requirements like lateral wave attenuation.
  • The presented methods and results serve as a valuable resource for designing novel waveguide components.