Investigation of single-wall carbon nanotubes at THz antenna

Y. N. Jurn, M. F. Malek, Wei‐Wen Liu, Haider K. Hoomod
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引用次数: 3

Abstract

This work investigates the fundamental properties of armchair single-wall carbon nanotubes (armchair-SWCNTs) dipole antenna at THz band using Drude method. Due to their metallic conducting properties, the armchair SWCNTs will be utilized in this work. The radiation pattern, s11 parameters, phase velocity and antenna directivity are presented for this antenna. The results demonstrate that armchair-SWCNTs dipole antenna with a radius of 2.71 nm takes on the resonant frequency properties from 1THz to 18THz, corresponding antenna lengths 1500nm to 50nm. All results in this work can be used for design of CNTs antenna (armchair-SWCNTs antenna) in wide THz band. The evaluation of the antenna's performance was done using Computer Simulation Technology (Microwave studio) CST (MWS), which exhibited and analyzed the key parameters of the antenna.
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太赫兹天线中单壁碳纳米管的研究
本工作采用Drude方法研究了扶手椅单壁碳纳米管(armchair- swcnts)偶极子天线在太赫兹波段的基本特性。由于扶手椅SWCNTs具有金属导电性能,因此将在本研究中使用。给出了该天线的辐射方向图、s11参数、相速度和天线指向性。结果表明,半径为2.71 nm的armchair-SWCNTs偶极子天线的谐振频率范围为1THz ~ 18THz,对应的天线长度为1500nm ~ 50nm。本工作的所有结果可用于设计宽太赫兹波段的碳纳米管天线(扶手椅- swcnts天线)。利用计算机仿真技术(Microwave studio) CST (MWS)对天线的性能进行了评估,对天线的关键参数进行了展示和分析。
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