Terahertz focal plane arrays employing heterostructure backward diodes integrated with folded dipole antennas

2013 IEEE MTT-S International Microwave Symposium Digest (MTT) Pub Date : 2013-06-02 DOI:10.1109/MWSYM.2013.6697648

S. Rahman, Zhenguo Jiang, Yi Xie, H. Xing, P. Fay, Lei Liu

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引用次数: 13

Abstract

In this paper, we present the design, simulation, fabrication and initial characterization results of terahertz (THz) focal plane arrays (FPAs) employing Sb-based heterostructure backward diodes (HBDs) integrated with lens-coupled folded-dipole antennas (FDAs). For single array element design, FDAs with high embedding-impedances have been designed for impedance matching to HBDs without additional matching network. Under impedance matching conditions, a maximum detector responsivity of ~21,000 V/W could be obtained for single array pixel at 200 GHz. In order to expand the single element design into full 2-D THz FPAs, the off-axis radiation patterns of the FDA mounted on an extended hemispherical silicon lens have been analyzed using the ray tracing technique. In addition, mutual coupling between two adjacent FDAs has been studied using full-wave simulation. The above results along with initial array fabrication and device characterization results have demonstrated the potential to achieve room-temperature, high-performance and large-scale FPAs for THz imaging applications.

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采用反向异质二极管与折叠偶极子天线集成的太赫兹焦平面阵列

在本文中，我们介绍了基于sb的异质结构后向二极管(HBDs)与透镜耦合折叠偶极子天线(FDAs)集成的太赫兹(THz)焦平面阵列(fpa)的设计、仿真、制造和初步表征结果。对于单阵列元件设计，设计了具有高嵌入阻抗的fda，以实现与hbd的阻抗匹配，而无需额外的匹配网络。在阻抗匹配条件下，对于200 GHz的单阵列像素，探测器的最大响应率可达~21,000 V/W。为了将单元件设计扩展到完整的二维太赫兹fpa，采用射线追踪技术分析了安装在扩展半球面硅透镜上的FDA的离轴辐射模式。此外，利用全波仿真方法研究了相邻两个fda之间的相互耦合。上述结果以及初始阵列制造和器件表征结果表明，为太赫兹成像应用实现室温、高性能和大规模fpga的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE MTT-S International Microwave Symposium Digest (MTT)

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