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首页> 外文期刊>Journal of Physics, D. Applied Physics: A Europhysics Journal >An antipodal Vivaldi antenna array based on spoof surface plasmon polariton metamaterial with 5G mm Wave suppression
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An antipodal Vivaldi antenna array based on spoof surface plasmon polariton metamaterial with 5G mm Wave suppression

机译:一种基于Spoof表面等离子体二千材料的反双向VivalDi天线阵列,5G mm波抑制

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摘要

An efficient method for achieving an antipodal Vivaldi antenna array with filtering performance based on spoof surface plasmon polariton (SSPP) metamaterial is proposed. The array is fed by a 1-to-8 power divider integrated with SSPP structures-named SSPP-I. The loaded SSPP-I obtains high cutoff frequency at 24 GHz. Both numerical simulations and measurements suggest the proposed array has a good performance in the desired frequency band from 22.01 to 24 GHz, in which the measured radiation patterns show a high gain level of 9.83 dBi on average, and the highest and lowest values are within 0.27 dBi of the average. The filtering performance, flat gain, low cost, and low profile have wide applications in the development of mmWave radio astronomy systems and can suppress the interference of 5 G mmWave to the system.
机译:提出了一种基于欺骗表面等离子体激元(SSPP)超材料实现具有滤波性能的反足Vivaldi天线阵列的有效方法。该阵列由一个1到8的功分器馈电,该功分器与名为SSPP-I的SSPP结构集成。加载的SSPP-I在24 GHz下获得高截止频率。数值模拟和测量均表明,该阵列在22.01~24GHz的期望频带内具有良好的性能,其中测量的辐射方向图显示平均9.83dBi的高增益水平,最高和最低值在平均值的0.27dBi范围内。滤波性能好、增益平坦、成本低、剖面小,在毫米波射电天文系统的研制中有着广泛的应用,可以抑制5G毫米波对系统的干扰。

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