Super-compact 28/38 GHz 4-port MIMO antenna using metamaterial-inspired EBG structure with SAR analysis for 5G cellular devices
RH Elabd, AJA Al-Gburi - Journal of Infrared, Millimeter, and Terahertz …, 2024 - Springer
Maintaining the compact form of 5G smartphones while accommodating millimeter-wave
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …
[PDF][PDF] Super‑Compact 28/38 GHz 4‑Port MIMO Antenna Using Metamaterial‑Inspired EBG Structure with SAR Analysis for 5G Cellular Devices
RH Elabd, AJA Al‑Gburi - researchgate.net
Maintaining the compact form of 5G smartphones while accommodating millimeter-wave
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …
Super-Compact 28/38 GHz 4-Port MIMO Antenna Using Metamaterial-Inspired EBG Structure with SAR Analysis for 5G Cellular Devices
RH Elabd, AJA Al-Gburi - Journal of Infrared, Millimeter, and …, 2023 - ui.adsabs.harvard.edu
Maintaining the compact form of 5G smartphones while accommodating millimeter-wave
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …
Super-Compact 28/38 GHz 4-Port MIMO Antenna Using Metamaterial-Inspired EBG Structure with SAR Analysis for 5G Cellular Devices
RH Elabd, AJA Al-Gburi - Journal of Infrared, Millimeter, and …, 2023 - ui.adsabs.harvard.edu
Maintaining the compact form of 5G smartphones while accommodating millimeter-wave
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …
(mm-wave) bands is a significant challenge due to the substantial frequency difference. To …