Add to ORKGThis paper provides a ground plane solution for the fractal-shaped reconfigurable dual-band slot-ring antenna by using the Electromagnetic Band-Gap (EBG) surfaces. The EBG surface is designed with an in-phase bandwidth from 1.7 to 3.0 GHz. A distance between the EBG and the antenna is selected to be 7. 5 mm. The EBG-backed reconfigurable slot-ring antenna operates at two frequency bands based on the status of the switches loaded on the antenna. The lower band is observed from 2.0 to 3.7 GHz while higher band is from 4.9 to 8.4 GHz. During both frequency bands, the backside radiation of the antenna is reduced by the EBG surface
International audienceOur objective in this work is to design a printed antenna that has at once a l...
Electromagnetic bandgap (EBG) structures have become a favorable field of research within the microw...
This paper describes a comparison between slotted patch EBG structure and mushroom EBG structure. Tw...
In this paper, single and dual band EBG structures for wider bandwidth are proposed. In each of the ...
International audienceA reconfigurable array antenna operates at lower and higher band of 2.45 GHz a...
A reconfigurable array antenna operates at lower and higher band of 2.45 GHz and 5.8 GHz using Elect...
This paper presents the performance evaluation of a novel electromagnetic band gap (EBG) structured ...
In this paper, a single rectangular patch antenna incorporated with an array of electromagnetic band...
International audienceA metamaterial of electromagnetic band gap (EBG) is incorporated to an antenna...
International audienceThe incorporation of Electromagnetic Band Gap (EBG) unit cells, a type of meta...
This project investigates the effects of electromagnetic band gap (EBG) structures on the performanc...
This paper presents the design of multiband reconfigurable antenna using metamaterial Electromagneti...
This paper describes a novel technique to design a dual-band electromagnetic band gap (EBG) resonato...
In this paper, frequency reconfigurable electromagnetic band gap (EBG) structure that integrates wit...
A metamaterial of electromagnetic band gap (EBG) is incorporated to an antenna for frequency reconf...
International audienceOur objective in this work is to design a printed antenna that has at once a l...
Electromagnetic bandgap (EBG) structures have become a favorable field of research within the microw...
This paper describes a comparison between slotted patch EBG structure and mushroom EBG structure. Tw...
In this paper, single and dual band EBG structures for wider bandwidth are proposed. In each of the ...
International audienceA reconfigurable array antenna operates at lower and higher band of 2.45 GHz a...
A reconfigurable array antenna operates at lower and higher band of 2.45 GHz and 5.8 GHz using Elect...
This paper presents the performance evaluation of a novel electromagnetic band gap (EBG) structured ...
In this paper, a single rectangular patch antenna incorporated with an array of electromagnetic band...
International audienceA metamaterial of electromagnetic band gap (EBG) is incorporated to an antenna...
International audienceThe incorporation of Electromagnetic Band Gap (EBG) unit cells, a type of meta...
This project investigates the effects of electromagnetic band gap (EBG) structures on the performanc...
This paper presents the design of multiband reconfigurable antenna using metamaterial Electromagneti...
This paper describes a novel technique to design a dual-band electromagnetic band gap (EBG) resonato...
In this paper, frequency reconfigurable electromagnetic band gap (EBG) structure that integrates wit...
A metamaterial of electromagnetic band gap (EBG) is incorporated to an antenna for frequency reconf...
International audienceOur objective in this work is to design a printed antenna that has at once a l...
Electromagnetic bandgap (EBG) structures have become a favorable field of research within the microw...
This paper describes a comparison between slotted patch EBG structure and mushroom EBG structure. Tw...