Improving the Radiation Performance of Resonant-Tunneling Diode by Using Planar Metallic Arrays

Mingxiang Stephen Li, S. Suzuki, C. Fumeaux, W. Withayachumnankul
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引用次数: 1

Abstract

Resonant-tunneling diodes (RTDs) are promising candidates for terahertz sources but typically exhibit an unexpected large tilt angle in the main lobe of their radiation pattern. In this paper, we present two types of planar metallic arrays, a plasmonic filter and a series-fed patch array, applied to an RTD working at 500 GHz to improve the overall radiation performance. The metallic array is designed through full-wave simulations, and the achieved results for both designs show a large reduction in the main lobe angle. The broadside directivity of the plasmonic filter and the series-fed patch array design reaches 5.4 dBi and 12.5 dBi, respectively.
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利用平面金属阵列改善谐振隧道二极管的辐射性能
谐振隧道二极管(rtd)是太赫兹光源的理想选择,但通常在其辐射模式的主瓣中表现出意想不到的大倾角。在本文中,我们提出了两种类型的平面金属阵列,等离子体滤波器和串联馈电贴片阵列,应用于工作在500 GHz的RTD,以提高整体辐射性能。通过全波模拟设计了金属阵列,两种设计的结果都显示出主瓣角的大幅度减小。等离子体滤波器和串联馈电贴片阵列的宽侧指向性分别达到5.4 dBi和12.5 dBi。
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