Keyword search (4,163 papers available)

"Kishk AA" Authored Publications:

Title Authors PubMed ID
1 Polarisation reconfigurable anisotropic dielectric resonator antenna Danesh S; Abedian M; Khalily M; Xiao P; Tafazolli R; Kishk AA; 40169847
ENCS
2 Dual-Band Antenna Array Fed by Ridge Gap Waveguide with Dual-Periodic Interdigital-Pin Bed of Nails Chen B; Chen X; Cheng X; Da Y; Liu X; Gao S; Kishk AA; 39204813
ENCS
3 Ultra-thin flexible rectenna integrated with power management unit for wireless power harvester/charging of smartwatch/wristband Singh N; Khan T; Kumar S; Kanaujia BK; Choi HC; Kim KW; Rambabu K; Rengarajan SR; Kishk AA; 38548782
CONCORDIA
4 Advanced Dielectric Resonator Antenna Technology for 5G and 6G Applications Zhang Y; Ogurtsov S; Vasilev V; Kishk AA; Caratelli D; 38474958
ENCS
5 Joint frequency space design approach for efficient planar frequency diverse arrays Hasheminasab M; Cheldavi A; Kishk AA; 37482579
ENCS
6 Millimeter-wave planar antenna array augmented with a low-cost 3D printed dielectric polarizer for sensing and internet of things (IoT) applications Al-Alem Y; Sifat SM; Antar YMM; Kishk AA; 37316512
ENCS
7 High isolation circularly polarized in-band full-duplex anisotropic dielectric resonator antenna Abedian M; Khalily M; Wang F; Xiao P; Tafazolli R; Kishk AA; 37045877
ENCS
8 High gain low-cost antenna based on the utilization of diffracted fields from semi-ring shape dielectric edges Al-Alem Y; Sifat SM; Antar YMM; Kishk AA; 35411056
ENCS

 

Title:High gain low-cost antenna based on the utilization of diffracted fields from semi-ring shape dielectric edges
Authors:Al-Alem YSifat SMAntar YMMKishk AA
Link:https://pubmed.ncbi.nlm.nih.gov/35411056/
DOI:10.1038/s41598-022-09288-5
Publication:Scientific reports
Keywords:
PMID:35411056 Category: Date Added:2022-04-12
Dept Affiliation: ENCS
1 Electrical and Computer Engineering Department, Royal Military College of Canada, Kingston, ON, Canada. yazanalem@gmail.com.
2 Electrical and Computer Engineering Department, Concordia University, Montreal, QC, Canada.
3 Electrical and Computer Engineering Department, Royal Military College of Canada, Kingston, ON, Canada.
4 Electrical and Computer Engineering Department, Queens University, Kingston, ON, Canada.

Description:

A simple antenna with a 20-dBi gain is proposed. A thorough analysis of the propagation mechanism accompanied by a unique physical insight is provided. The realized structure has a low profile, low-cost, and compact features. A detailed insight into applying the Fresnel-Huygens principle is provided.





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