Add to ORKGThis paper presents low-profile continuous phase correcting structures (PCS) for conventional electromagnetic bandgap resonator antennas (ERAs). This PCS has been implemented using a relative high-permittivity-dielectric material and is compared with a low-permittivity Rexolite PCS reported previously. The use of high permittivity materials is not advisable for the PCS design as it increases reflections from the input surface of the PCS; a PCS is supposed to be highly transmitting structure. However, it was found that if a high-permittivity-dielectric PCS is placed above ERA with a proper spacing then high reflections can be used to an advantage. Overall peak directivity of an ERA with TMM4 PCS is 1 dB more than that of the Rexolite PCS alo...
A novel technique for the performance enhancement of Fabry-Perot resonator antennas (FPRAs) is inves...
This paper is under in-depth investigation due to suspicion of possible plagiarism on a high similar...
Abstract—A comprehensive study of the effects of the reflection phase profiles on dipole antennas is...
This paper presents a planar and a low profile phase correcting structure (PCS) for electromagnetic ...
A novel technique to design a phase-correcting structure (PCS) for an electromagnetic band gap (EBG)...
Classical electromagnetic band gap resonator antennas (ERA) have non-uniform aperture-phase distribu...
Phase correction has been used to demonstrate increase in directivity of conventional electromagneti...
This communication presents a method to enhance the radiation performance of conventional electromag...
This paper presents recent advances related to electromagnetic band gap (EBG) resonator antennas (ER...
Recent research on the phase correction of classical electromagnetic bandgap resonator antennas (ERA...
Phase correction in the aperture field of electromagnetic band gap resonator antennas (ERAs) is disc...
This communication presents a method to enhance the radiation performance of conventional electromag...
Amplitude and phase distributions are investigated across apertures of two typical electromagnetic b...
This paper presents a quasi-analytical technique to design a continuous, all-dielectric phase correc...
Suitability of low-permittivity EBGs to implement superstrates of high-gain resonator antennas is e...
A novel technique for the performance enhancement of Fabry-Perot resonator antennas (FPRAs) is inves...
This paper is under in-depth investigation due to suspicion of possible plagiarism on a high similar...
Abstract—A comprehensive study of the effects of the reflection phase profiles on dipole antennas is...
This paper presents a planar and a low profile phase correcting structure (PCS) for electromagnetic ...
A novel technique to design a phase-correcting structure (PCS) for an electromagnetic band gap (EBG)...
Classical electromagnetic band gap resonator antennas (ERA) have non-uniform aperture-phase distribu...
Phase correction has been used to demonstrate increase in directivity of conventional electromagneti...
This communication presents a method to enhance the radiation performance of conventional electromag...
This paper presents recent advances related to electromagnetic band gap (EBG) resonator antennas (ER...
Recent research on the phase correction of classical electromagnetic bandgap resonator antennas (ERA...
Phase correction in the aperture field of electromagnetic band gap resonator antennas (ERAs) is disc...
This communication presents a method to enhance the radiation performance of conventional electromag...
Amplitude and phase distributions are investigated across apertures of two typical electromagnetic b...
This paper presents a quasi-analytical technique to design a continuous, all-dielectric phase correc...
Suitability of low-permittivity EBGs to implement superstrates of high-gain resonator antennas is e...
A novel technique for the performance enhancement of Fabry-Perot resonator antennas (FPRAs) is inves...
This paper is under in-depth investigation due to suspicion of possible plagiarism on a high similar...
Abstract—A comprehensive study of the effects of the reflection phase profiles on dipole antennas is...