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| Ertürk, Emre |
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| Petrov, R. H. | Madrid |
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Hashmi, Raheel
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Publications (20/20 displayed)
- 2020Robustness analysis of the polymer-conductive-mesh composite for the realization of transparent and flexible wearable antennascitations
- 2019A stripline-based planar wideband feed for high-gain antennas with partially reflecting superstructurecitations
- 2019All-dielectric compact superstrates for high-gain resonant-cavity antennas
- 2019Closely-spaced resonant cavity antennas for meeting ETSI class-2 specifications
- 2018Compact high-gain antenna with simple all-dielectric partially reflecting surfacecitations
- 2018Transverse permittivity gradient (TPG) superstrates or lenscitations
- 2017Achieving a large gain-bandwidth product from a compact antennacitations
- 2017Aperture field transformation in resonant cavity antennas by transverse permittivity gradient superstrates
- 2016A Class of Extremely Wideband Resonant Cavity Antennas with Large Directivity-Bandwidth Productscitations
- 2016Wideband gain enhancement of slot antenna using superstructure with optimised axial permittivity variationcitations
- 2016Preliminary results of an array of resonant cavity antennas at 60 GHzcitations
- 2016Distribution profiles for transverse permittivity gradient superstrates in extremely wideband resonant cavity antennascitations
- 2016A simple electromagnetic bandgap resonator antenna for 60 GHz wireless applicationscitations
- 2016A planar feeding technique for wideband, low-profile resonant cavity antennascitations
- 2016Performance evaluation of conventional and planar feeds in Resonant Cavity Antennas
- 2016Wideband single-feed highly directive resonant cavity antennas with all-dielectric superstructures
- 2015Recent advances in electromagnetic band gap resonator antennas
- 2015Composite defect-mode superstructures and wideband EBG resonator Antennas
- 2015Composite defect-mode superstructures and wideband EBG resonator Antennas
- 2014Achieving high directivity-bandwidth through flat GRIN superstrates in Fabry-Perot cavity antennascitations
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document
Preliminary results of an array of resonant cavity antennas at 60 GHz
Abstract
<p>In this paper, preliminary results of an array of resonant cavity antennas (RCAs) to operate at 60 GHz are presented. Each RCA in the array has a two-layers all-dielectric superstructure with permittivity variation in axial direction. The single RCA element exhibits a peak directivity of 16.6 dBi and its 3dB directivity bandwidth covers the entire unlicensed 60 GHz band from 59 GHz to 67 GHz. The RCA array has a peak directivity of 22.8 dBi with a 3dB directivity bandwidth of 33%. The inter-element spacing between the array elements is optimized to achieve the best performance in terms of peak directivity and radiation bandwidth. The total area of the RCA array is 3.8λ<sub>0</sub> × 3.8λ<sub>0</sub>.</p>