Design, fabrication, simulation, and measurement of a dual-band, planar, compact artificial magnetic conductor

Yading Li; Benjamin F. Johnston; Michael J. Withford; Karu P. Esselle

doi:10.1002/mop.24346

Design, fabrication, simulation, and measurement of a dual-band, planar, compact artificial magnetic conductor

Yading Li^*, Benjamin F. Johnston, Michael J. Withford, Karu P. Esselle

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

By introducing two orthogonal gaps to a uniplanar compact photonic bandgap structure, artificial magnetic conductor's resonance frequencies have been significantly reduced. Since this compact pattern needs slots with 0.05-mm width, the laser micromachining was explored to fabricate the prototypes. Reflection coefficients were measured through a WR-137 waveguide. Considering the dominant waves propagating in a waveguide, a simulation method is introduced.

Original language	English
Pages (from-to)	1524-1527
Number of pages	4
Journal	Microwave and Optical Technology Letters
Volume	51
Issue number	6
DOIs	https://doi.org/10.1002/mop.24346
Publication status	Published - Jun 2009

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title = "Design, fabrication, simulation, and measurement of a dual-band, planar, compact artificial magnetic conductor",

abstract = "By introducing two orthogonal gaps to a uniplanar compact photonic bandgap structure, artificial magnetic conductor's resonance frequencies have been significantly reduced. Since this compact pattern needs slots with 0.05-mm width, the laser micromachining was explored to fabricate the prototypes. Reflection coefficients were measured through a WR-137 waveguide. Considering the dominant waves propagating in a waveguide, a simulation method is introduced.",

author = "Yading Li and Johnston, {Benjamin F.} and Withford, {Michael J.} and Esselle, {Karu P.}",

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AU - Johnston, Benjamin F.

AU - Withford, Michael J.

AU - Esselle, Karu P.

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AB - By introducing two orthogonal gaps to a uniplanar compact photonic bandgap structure, artificial magnetic conductor's resonance frequencies have been significantly reduced. Since this compact pattern needs slots with 0.05-mm width, the laser micromachining was explored to fabricate the prototypes. Reflection coefficients were measured through a WR-137 waveguide. Considering the dominant waves propagating in a waveguide, a simulation method is introduced.

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Design, fabrication, simulation, and measurement of a dual-band, planar, compact artificial magnetic conductor

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