Enabling beam-scanning antenna technologies for terahertz wireless systems: A review

Dongze Zheng; Geng-Bo Wu; Zhi Hao Jiang; Wei Hong; Chi Hou Chan; Ke Wu

doi:10.1016/j.fmre.2024.10.003

Enabling beam-scanning antenna technologies for terahertz wireless systems: A review

Dongze Zheng^*, Geng-Bo Wu, Zhi Hao Jiang, Wei Hong, Chi Hou Chan, Ke Wu^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

6 Citations (Scopus)

Abstract

Due to the exponentially growing global mobile data of wireless communications evolving from 5 G to 6 G in recent years, research activities of leveraging terahertz (THz) waves to obtain larger channel capacities have shown an ever-increasing pace and reached an unprecedented height than before. Historically, the past few decades have already witnessed much progress in THz generation and detection technologies, which have been recognized for a long time as the bottleneck preventing the THz waves from being tamed by human beings. However, the importance of developing advanced components such as antennas, transmission lines, filters, power amplimers, etc., which constitute the basic building blocks of a THz wireless system, should not be overlooked for the sake of exploiting the THz spectra for future advanced wireless communications, sensing and imaging applications. While producing a scannable highly-directive antenna beam proves to be indispensable in the period of microwaves, the significance of such functionality is more critical in the THz era, considering that THz waves have more intractable challenges such as the severity of free-space propagation losses, the susceptibility to atmospheric environments, and the unavailability of efficient signal sources. This article is structured under this background, which is dedicated to reviewing several enabling beam-scanning antenna concepts, structures, and architectures that have been developed for THz wireless systems. Specifically, we divide these THz beam-scanning solutions into four basic groups based on different mechanisms, i.e., mechanical motion, phased array, frequency beam-scanning, and reconfigurable metasurfaces. © 2024

Original language	English
Journal	Fundamental Research
Online published	12 Nov 2024
DOIs	https://doi.org/10.1016/j.fmre.2024.10.003
Publication status	Online published - 12 Nov 2024

Funding

This work was supported by grants from the Natural Science Foundation of Jiangsu Province (BK20241276), the University Grants Committee/Research Grants Council of the Hong Kong Special Administrative Region, China (AoE/E-101/23-N and CityU 9610655), the Start-up Research Fund of Southeast University (RF1028623258), the Key Laboratory for Information Science of Electromagnetic Waves, Fudan University (EMW202401), the National Key Research and Development Program of China (2023YFB2906103), and the National Natural Science Foundation of China (62122019).

Research Keywords

Beam-scanning
Diffraction grating
Frequency scanning
Leaky-wave antenna (LWA)
Mechanical scanning
Microwave photonics
Optoelectronics
Phased array
Reconfigurable metasurface
Terahertz (THz)

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@article{d41e38e0e7c14d9d99c4bd9dc1b07494,

title = "Enabling beam-scanning antenna technologies for terahertz wireless systems: A review",

abstract = "Due to the exponentially growing global mobile data of wireless communications evolving from 5 G to 6 G in recent years, research activities of leveraging terahertz (THz) waves to obtain larger channel capacities have shown an ever-increasing pace and reached an unprecedented height than before. Historically, the past few decades have already witnessed much progress in THz generation and detection technologies, which have been recognized for a long time as the bottleneck preventing the THz waves from being tamed by human beings. However, the importance of developing advanced components such as antennas, transmission lines, filters, power amplimers, etc., which constitute the basic building blocks of a THz wireless system, should not be overlooked for the sake of exploiting the THz spectra for future advanced wireless communications, sensing and imaging applications. While producing a scannable highly-directive antenna beam proves to be indispensable in the period of microwaves, the significance of such functionality is more critical in the THz era, considering that THz waves have more intractable challenges such as the severity of free-space propagation losses, the susceptibility to atmospheric environments, and the unavailability of efficient signal sources. This article is structured under this background, which is dedicated to reviewing several enabling beam-scanning antenna concepts, structures, and architectures that have been developed for THz wireless systems. Specifically, we divide these THz beam-scanning solutions into four basic groups based on different mechanisms, i.e., mechanical motion, phased array, frequency beam-scanning, and reconfigurable metasurfaces. {\textcopyright} 2024",

keywords = "Beam-scanning, Diffraction grating, Frequency scanning, Leaky-wave antenna (LWA), Mechanical scanning, Microwave photonics, Optoelectronics, Phased array, Reconfigurable metasurface, Terahertz (THz)",

author = "Dongze Zheng and Geng-Bo Wu and Jiang, {Zhi Hao} and Wei Hong and Chan, {Chi Hou} and Ke Wu",

year = "2024",

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doi = "10.1016/j.fmre.2024.10.003",

language = "English",

journal = "Fundamental Research",

issn = "2096-9457",

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TY - JOUR

T1 - Enabling beam-scanning antenna technologies for terahertz wireless systems

T2 - A review

AU - Zheng, Dongze

AU - Wu, Geng-Bo

AU - Jiang, Zhi Hao

AU - Hong, Wei

AU - Chan, Chi Hou

AU - Wu, Ke

PY - 2024/11/12

Y1 - 2024/11/12

N2 - Due to the exponentially growing global mobile data of wireless communications evolving from 5 G to 6 G in recent years, research activities of leveraging terahertz (THz) waves to obtain larger channel capacities have shown an ever-increasing pace and reached an unprecedented height than before. Historically, the past few decades have already witnessed much progress in THz generation and detection technologies, which have been recognized for a long time as the bottleneck preventing the THz waves from being tamed by human beings. However, the importance of developing advanced components such as antennas, transmission lines, filters, power amplimers, etc., which constitute the basic building blocks of a THz wireless system, should not be overlooked for the sake of exploiting the THz spectra for future advanced wireless communications, sensing and imaging applications. While producing a scannable highly-directive antenna beam proves to be indispensable in the period of microwaves, the significance of such functionality is more critical in the THz era, considering that THz waves have more intractable challenges such as the severity of free-space propagation losses, the susceptibility to atmospheric environments, and the unavailability of efficient signal sources. This article is structured under this background, which is dedicated to reviewing several enabling beam-scanning antenna concepts, structures, and architectures that have been developed for THz wireless systems. Specifically, we divide these THz beam-scanning solutions into four basic groups based on different mechanisms, i.e., mechanical motion, phased array, frequency beam-scanning, and reconfigurable metasurfaces. © 2024

AB - Due to the exponentially growing global mobile data of wireless communications evolving from 5 G to 6 G in recent years, research activities of leveraging terahertz (THz) waves to obtain larger channel capacities have shown an ever-increasing pace and reached an unprecedented height than before. Historically, the past few decades have already witnessed much progress in THz generation and detection technologies, which have been recognized for a long time as the bottleneck preventing the THz waves from being tamed by human beings. However, the importance of developing advanced components such as antennas, transmission lines, filters, power amplimers, etc., which constitute the basic building blocks of a THz wireless system, should not be overlooked for the sake of exploiting the THz spectra for future advanced wireless communications, sensing and imaging applications. While producing a scannable highly-directive antenna beam proves to be indispensable in the period of microwaves, the significance of such functionality is more critical in the THz era, considering that THz waves have more intractable challenges such as the severity of free-space propagation losses, the susceptibility to atmospheric environments, and the unavailability of efficient signal sources. This article is structured under this background, which is dedicated to reviewing several enabling beam-scanning antenna concepts, structures, and architectures that have been developed for THz wireless systems. Specifically, we divide these THz beam-scanning solutions into four basic groups based on different mechanisms, i.e., mechanical motion, phased array, frequency beam-scanning, and reconfigurable metasurfaces. © 2024

KW - Beam-scanning

KW - Diffraction grating

KW - Frequency scanning

KW - Leaky-wave antenna (LWA)

KW - Mechanical scanning

KW - Microwave photonics

KW - Optoelectronics

KW - Phased array

KW - Reconfigurable metasurface

KW - Terahertz (THz)

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UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-105001233718&origin=recordpage

U2 - 10.1016/j.fmre.2024.10.003

DO - 10.1016/j.fmre.2024.10.003

M3 - RGC 21 - Publication in refereed journal

SN - 2096-9457

JO - Fundamental Research

JF - Fundamental Research

ER -

Enabling beam-scanning antenna technologies for terahertz wireless systems: A review

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AoE(UGC): Advanced Antenna Technology for a Smart World

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Enabling beam-scanning antenna technologies for terahertz wireless systems: A review

Abstract

Funding

Research Keywords

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AoE(UGC): Advanced Antenna Technology for a Smart World

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