Embedded Files
Photograph of a GA optimized broadband low-profile open-sleeve microstrip dipole antenna placed in close proximity to a GA optimized broadband EBG AMC ground plane.
Photograph of a dual-band design for an Electromagnetic Bandgap (EBG) Artificial Magnetic Conducting (AMC) ground plane optimized using a Genetic Algorithm (GA).
Current distribution on an optimized broadband open-sleeve microstrip dipole antenna.
Movie showing the interaction of an incident electromagnetic plane wave with a two layer dual-band EBG AMC surface made using a periodic FDTD code developed by members of CEARL.
Relevant Publications
Relevant Publications
Advances in the Design Synthesis of Electromagnetic Bandgap Metamaterials
A Genetic Algorithm Approach to the Design of Ultra-thin Electromagnetic Bandgap Absorbers
Genetically Engineered Multiband High-Impedance Frequency Selective Surfaces
Ultra-thin Electromagnetic Bandgap Absorbers Synthesized via Genetic Algorithms
A Robust GA-FSS Technique for the Synthesis of Optimal Multiband AMCs with Angular Stability
Optimization of Multi-band AMC Surfaces with Magnetic Loading
A Novel Design Approach for an Independently Tunable Dual-Band EBG AMC Surface
A Broadband Open-Sleeve Dipole Antenna Mounted Above a Tunable EBG AMC Ground Plane
A Novel Design Technique for Ultra-thin Tunable EBG AMC Surfaces
Advances in EBG Design Concepts Based On Planar FSS Structures
Reconfigurable Ultra-thin EBG Absorbers Using Conducting Polymers
The Design Optimization of Antennas in the Presence of EBG AMC Ground Planes
A Versatile Design Strategy for Thin Composite Planar Double-Sided High-Impedance Surfaces
A Frequency-Tunable Metamaterial-Based Antenna Using a Reconfigurable AMC Groundplane
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