Si CMOS准光学太赫兹探测器

2018 22nd International Microwave and Radar Conference (MIKON) Pub Date : 2018-05-14 DOI:10.23919/MIKON.2018.8405336

K. Ikamas, J. Zdanevicius, Lukas Dundulis, S. Pralgauskaitė, A. Lisauskas, D. Čibiraitė, Daniel Voß, V. Krozer, H. Roskos

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引用次数: 2

摘要

我们报告了使用商用CMOS制造工艺设计和实现基于窄带和宽带场效应晶体管的太赫兹频率范围探测器(TeraFETs)。利用在晶体管截止频率以上的等离子体波混频原理，我们实现了在室温工作条件下的高灵敏度检测。在297 GHz时，谐振探测器显示出光学噪声等效功率(NEP)，包括每根号Hz 31 pW的所有损耗。在相同条件下，宽带设备在500 GHz至750 GHz频率范围内的NEP低于100pw / Hz的平方根。620ghz谐振器件的光学天线有效面积限制NEP低于10pw / Hz的平方根。这些性能值与市售的最佳室温太赫兹探测器具有竞争力。

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Quasi optical THz detectors in Si CMOS

We report on design and implementation of narrowband and broadband field-effect transistor-based detectors for THz frequency range (TeraFETs) using commercial CMOS fabrication process. Exploiting the plasma wave mixing principle, which becomes important above the transistor's cut-off frequency, we achieve highly sensitive detection at room temperature operation conditions. At 297 GHz, the resonant detector demonstrates optical noise-equivalent power (NEP) including all losses of 31 pW per square root of Hz. For the same conditions, broadband device exhibits NEP below 100 pW per square root of Hz in a frequency range from 500 GHz to 750 GHz. The optical, antenna effective area-limited NEP of resonant device at 620 GHz is below 10 pW per square root of Hz. These performance values are competitive with the best commercially available room temperature THz detectors.

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来源期刊

2018 22nd International Microwave and Radar Conference (MIKON)

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