电阻率和电导率
半导体
材料科学
变化(天文学)
萃取(化学)
传输(电信)
输电线路
桥(图论)
直线(几何图形)
光电子学
工程类
电气工程
物理
化学
数学
几何学
生物
色谱法
天体物理学
解剖
作者
Kaizhen Han,Yuye Kang,Yue Chen,Xiao Gong
标识
DOI:10.1109/ted.2024.3369575
摘要
We report a novel bridge transmission line method (TLM) for thin-film semiconductor-based specific contact resistivity extraction with validations from both simulations and experiments. Our bridge TLM (BTLM) possesses several key features, including the capability of modeling parasitic resistance, simple fabrication utilizing only three lithography steps, highly accurate specific contact resistivity extraction with theoretical resolution down to $10^{-{11}}\,\,\Omega \cdot $ cm2, and most importantly, strong variation immunity, which has rarely been considered in previously reported TLMs. Such immunity is enabled by its special structure design and a nonlinear fitting strategy. The theoretical resolution as well as the excellent variation immunity of BTLM have been thoroughly verified via different simulation tools, i.e., LTspice and technology computer aided design Sentaurus. By applying the proposed BTLM to the nickel/indium-tin-oxide (ITO) contact with 10 nm thick ITO, a record-low specific contact resistivity of $4.4\times 10^{-{8}}\,\,\Omega \cdot $ cm2 was obtained among all kinds of metal/oxide semiconductor (OS) contact without the assist from applied electric field.
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