Resonance-cone focusing in a compensating bilayer of continuous hyperbolic microstrip grids

Omar Siddiqui; George Eleftheriades

doi:10.1063/1.1781360

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Resonance-cone focusing in a compensating bilayer of continuous hyperbolic microstrip grids

Journal article

Peer reviewed

Resonance-cone focusing in a compensating bilayer of continuous hyperbolic microstrip grids

Omar Siddiqui and George Eleftheriades

Applied physics letters, Vol.85(7), pp.1292-1294

16/08/2004

DOI: https://doi.org/10.1063/1.1781360

Abstract

We propose a periodic structure synthesized by arranging continuous transmission-line segments in a two-dimensional planar grid over a ground plane. The periodic grid exhibits hyperbolic spatial dispersion characteristics, leading to the formation of highly directive beams called "resonance cones." Simulations and experiments at 10 GHz show negative refraction and frequency-dependent spatial focusing of the resonance cones, when two such grids with compensating phase properties are interfaced to form a bilayer. The proposed structures are deprived of loading elements or vias, thus leading to ease of fabrication and scalability with frequency for applications, such as spatial filters, multiplexers, and demultiplexers.

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Title: Resonance-cone focusing in a compensating bilayer of continuous hyperbolic microstrip grids
Creators - without role: Omar Siddiqui - University of Toronto
George Eleftheriades - University of Toronto
Publication Details: Applied physics letters, Vol.85(7), pp.1292-1294
Publisher: American Institute of Physics
Identifiers: 9929435908331
Academic Unit: Taibah University
Resource Type: Journal article