In this paper a full-wave technique is employed to characterize 3D-EBGs with periodic defects. The metod reveals to be versatile and to have good convergence properties. An example of practical application is provided, concerning a woodpile-resonator microstrip antenna
Application of 2D structures that present electromagnetic band-gaps (EBG's) to signal integrity issu...
In this paper, an accurate and efficient characterization of two-dimensional photonic bandgap struct...
In this paper, an accurate and efficient characterization of two-dimensional photonic bandgap struct...
In this paper a full-wave technique is employed to characterize 3D-EBGs with periodic defects. The m...
In this paper a full-wave technique is employed to characterize 3D-EBGs with periodic defects. The m...
In this paper an accurate and efficient characterization of three-dimensional electromagnetic band-g...
Electromagnetic crystals, also called Electromagnetic Band-Gap (EBG) materials, show an enormous pot...
The introduction of defects in an electromagnetic band-gap (EBG) material breaks its periodicity, a...
"Electromagnetic Band-Gap (EBG) materials are periodic structures. with properties of confinement an...
Electromagnetic bang Gap (EBG) materials are periodic structures characterized by forbidden propagat...
In the previous decades, the investigation of the optical properties of materials has lead to a numb...
In this paper, an accurate and efficient characterization of three-dimensional electromagnetic band...
Suppression of surface waves propagating in a grounded dielectric substrate slab can be achieved by ...
In this article we report about the investigation of two-dimensional electromagnetic band-gap struct...
In this paper, an accurate and efficient characterization of three-dimensional electromagnetic band...
Application of 2D structures that present electromagnetic band-gaps (EBG's) to signal integrity issu...
In this paper, an accurate and efficient characterization of two-dimensional photonic bandgap struct...
In this paper, an accurate and efficient characterization of two-dimensional photonic bandgap struct...
In this paper a full-wave technique is employed to characterize 3D-EBGs with periodic defects. The m...
In this paper a full-wave technique is employed to characterize 3D-EBGs with periodic defects. The m...
In this paper an accurate and efficient characterization of three-dimensional electromagnetic band-g...
Electromagnetic crystals, also called Electromagnetic Band-Gap (EBG) materials, show an enormous pot...
The introduction of defects in an electromagnetic band-gap (EBG) material breaks its periodicity, a...
"Electromagnetic Band-Gap (EBG) materials are periodic structures. with properties of confinement an...
Electromagnetic bang Gap (EBG) materials are periodic structures characterized by forbidden propagat...
In the previous decades, the investigation of the optical properties of materials has lead to a numb...
In this paper, an accurate and efficient characterization of three-dimensional electromagnetic band...
Suppression of surface waves propagating in a grounded dielectric substrate slab can be achieved by ...
In this article we report about the investigation of two-dimensional electromagnetic band-gap struct...
In this paper, an accurate and efficient characterization of three-dimensional electromagnetic band...
Application of 2D structures that present electromagnetic band-gaps (EBG's) to signal integrity issu...
In this paper, an accurate and efficient characterization of two-dimensional photonic bandgap struct...
In this paper, an accurate and efficient characterization of two-dimensional photonic bandgap struct...
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