Investigation of Drain Noise in Cryogenic InP High Electron Mobility Transistors Using On-wafer S-parameter and Microwave Noise Characterization

2022 Compound Semiconductor Week (CSW) Pub Date : 2022-06-01 DOI:10.1109/CSW55288.2022.9930365
Bekari Gabritchidze, Iretomiwa Esho, Kieran A. Cleary, A. Readhead, A. Minnich
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Abstract

We report the on-wafer characterization of S-parameters and microwave noise (T50) of discrete InP HEMTs over a range of physical temperatures, 40 K – 300 K. From these data, we extract a small-signal model and the drain noise temperature (Td) at each bias and temperature. We find that T50 exhibits a temperature dependence that is incompatible with a fixed Td. In contrast, explaining the noise measurements requires Td to change from ~2500 K at room temperature (RT) to ~400 K at cryogenic temperatures. This trend is consistent with the predictions of a theory of drain noise based on real-space transfer of electrons from the channel to the barrier [5].
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基于片上s参数和微波噪声表征的低温InP高电子迁移率晶体管漏极噪声研究
我们报道了离散InP hemt在40 K - 300 K物理温度范围内的s参数和微波噪声(T50)的片上表征。从这些数据中,我们提取了一个小信号模型和每个偏置和温度下的漏极噪声温度(Td)。我们发现T50表现出与固定Td不相容的温度依赖性。相比之下,解释噪声测量需要Td从室温(RT)的~ 2500k变化到低温下的~ 400k。这种趋势与基于电子从通道到势垒[5]的实空间转移的漏极噪声理论的预测是一致的。
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2022 Compound Semiconductor Week (CSW)
2022 Compound Semiconductor Week (CSW)
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