碳纳米管天线的q因子与效率

2016 International Conference on Electromagnetics in Advanced Applications (ICEAA) Pub Date : 2016-09-01 DOI:10.1109/ICEAA.2016.7731526

Farhat Majeed, M. Shahpari, D. Thiel

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引用次数: 4

摘要

采用理论和数值模拟方法确定了碳纳米管直线天线的基本特性。利用基于量子力学电导率的经典hall型积分方程计算了反射系数、辐射效率和q因子。与尺寸小于0.01 m的普通金属天线不同，在碳纳米管Yagi-Uda天线中加入寄生元件后，由于寄生元件中的感应电流很小，其辐射特性不会发生明显变化。Yagi-Uda天线的辐射效率变化不大。以辐射效率为限的q因子与Chu和Thal提出的基本限进行了比较。虽然模拟纳米管天线的q因子非常小，但它仍然大于Chu和Thal提出的基本极限。

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Q-factor and efficiency of carbon nanotube antennas

The fundamental properties of carbon nanotube straight wire antennas were determined using theoretical and numerical modelling. The reflection coefficient, radiation efficiency and Q-factor have been reported using classical Hallén's-type integral equation, based on quantum mechanical conductivity. Contrary to the ordinary metal antennas with dimensions less than 0.01 m, the addition of parasitic elements in a Yagi-Uda antenna with carbon nanotubes does not lead to significant changes in the radiation characteristics as the induced current in the parasitic elements is small. The radiation efficiency of the Yagi-Uda antenna shows little change. The Q-factor limited by radiation efficiency was compared to the fundamental limits proposed by Chu and Thal. Although the Q-factor of modelled nanotube antennas is very small, it is still larger than the fundamental limits proposed by Chu and Thal.

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来源期刊

2016 International Conference on Electromagnetics in Advanced Applications (ICEAA)

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