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A Compact Mu-Near-Zero Metamaterial Integrated Wideband High-Gain MIMO Antenna for 5G New Radio Applications
by
Islam, Md. Shabiul
, Rmili, Hatem
, Alam, Touhidul
, Islam, Mohammad Tariqul
, Soliman, Mohamed S.
, Rahim, Sharul Kamal Abdul
, Alzamil, Ahmed
, Hasan, Md. Mhedi
in
Air gaps
/ Antennas
/ Antennas (Electronics)
/ Bandwidths
/ Broadband
/ Channel capacity
/ Communication
/ Correlation coefficients
/ Design
/ High gain
/ Metamaterials
/ MIMO communication
/ MIMO communications
/ Multiplexing
2023
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A Compact Mu-Near-Zero Metamaterial Integrated Wideband High-Gain MIMO Antenna for 5G New Radio Applications
by
Islam, Md. Shabiul
, Rmili, Hatem
, Alam, Touhidul
, Islam, Mohammad Tariqul
, Soliman, Mohamed S.
, Rahim, Sharul Kamal Abdul
, Alzamil, Ahmed
, Hasan, Md. Mhedi
in
Air gaps
/ Antennas
/ Antennas (Electronics)
/ Bandwidths
/ Broadband
/ Channel capacity
/ Communication
/ Correlation coefficients
/ Design
/ High gain
/ Metamaterials
/ MIMO communication
/ MIMO communications
/ Multiplexing
2023
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A Compact Mu-Near-Zero Metamaterial Integrated Wideband High-Gain MIMO Antenna for 5G New Radio Applications
by
Islam, Md. Shabiul
, Rmili, Hatem
, Alam, Touhidul
, Islam, Mohammad Tariqul
, Soliman, Mohamed S.
, Rahim, Sharul Kamal Abdul
, Alzamil, Ahmed
, Hasan, Md. Mhedi
in
Air gaps
/ Antennas
/ Antennas (Electronics)
/ Bandwidths
/ Broadband
/ Channel capacity
/ Communication
/ Correlation coefficients
/ Design
/ High gain
/ Metamaterials
/ MIMO communication
/ MIMO communications
/ Multiplexing
2023
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A Compact Mu-Near-Zero Metamaterial Integrated Wideband High-Gain MIMO Antenna for 5G New Radio Applications
Journal Article
A Compact Mu-Near-Zero Metamaterial Integrated Wideband High-Gain MIMO Antenna for 5G New Radio Applications
2023
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Overview
This article demonstrates a compact wideband four-port multiple-input-multiple-output (MIMO) antenna system integrated with a wideband metamaterial (MM) to reach high gain for sub-6 GHz new radio (NR) 5G communication. The four antennas of the proposed MIMO system are orthogonally positioned to the adjacent antennas with a short interelement edge-to-edge distance (0.19λmin at 3.25 GHz), confirming compact size and wideband characteristics 55.2% (3.25–5.6 GHz). Each MIMO system component consists of a fractal slotted unique patch with a transmission feed line and a metal post-encased defected ground structure (DGS). The designed MIMO system is realized on a low-cost FR-4 printed material with a miniature size of 0.65λmin × 0.65λmin × 0.02λmin. A 6 × 6 array of double U-shaped resonator-based unique mu-near-zero (MNZ) wideband metamaterial reflector (MMR) is employed below the MIMO antenna with a 0.14λmin air gap, improving the gain by 2.8 dBi and manipulating the MIMO beam direction by 60°. The designed petite MIMO system with a MM reflector proposes a high peak gain of 7.1 dBi in comparison to recent relevant antennas with high isolation of 35 dB in the n77/n78/n79 bands. In addition, the proposed wideband MMR improves the MIMO diversity and radiation characteristics with an average total efficiency of 68% over the desired bands. The stated MIMO antenna system has an outstanding envelope correlation coefficient (ECC) of <0.045, a greater diversity gain (DG) of near 10 dB (>9.96 dB), a low channel capacity loss (CCL) of <0.35 b/s/Hz and excellent multiplexing efficiency (ME) of higher than −1.4 dB. The proposed MIMO concept is confirmed by fabricating and testing the developed MIMO structure. In contrast to the recent relevant works, the proposed antenna is compact in size, while maintaining high gain and wideband characteristics, with strong MIMO performance. Thus, the proposed concept could be a potential approach to the 5G MIMO antenna system.
Publisher
MDPI AG,MDPI
Subject
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