Method for data processing in application to ohmic contacts

IF 1.1 Q4 QUANTUM SCIENCE & TECHNOLOGY
A. Belyaev
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引用次数: 0

Abstract

The method of processing the data of electrophysical investigations of ohmic contacts has been developed. It allows obtaining more accurate results of measuring the contact resistance and additional information by analyzing the statistical and spatial distribution of input data. To test the method, the Au–Ge–TiB2–Au contact to n-n -GaAs was used. The analysis of frequency distribution for the total resistance, specific contact resistance and surface resistance of semiconductor has been carried out. The spatial distribution of these parameters has been analyzed. With taking the linear gradient of specific resistivity into account, the value of the contact resistance has been clarified. We have achieved reduction of half-width of the distribution by 14%, that is, reduction of the error in determining the contact resistance. The method has been developed for correct analyzing the impacts of technological treatments and degradation processes and has been oriented on research purposes. Evaluation of the gradient distributions of the contact resistance and the resistance of semiconductor can be used to identify the defects in the technological processes of manufacturing devices.
应用于欧姆接触的数据处理方法
已经开发了处理欧姆接触电物理研究数据的方法。它允许通过分析输入数据的统计和空间分布来获得更准确的接触电阻测量结果和附加信息。为了测试该方法,使用了Au–Ge–TiB2–Au与n-n-GaAs的接触。对半导体的总电阻、比接触电阻和表面电阻的频率分布进行了分析。对这些参数的空间分布进行了分析。考虑到电阻率的线性梯度,阐明了接触电阻的值。我们已经将分布的半宽度减少了14%,也就是说,减少了确定接触电阻的误差。该方法是为了正确分析技术处理和降解过程的影响而开发的,并以研究为目的。半导体的接触电阻和电阻的梯度分布的评估可以用于识别制造器件的工艺过程中的缺陷。
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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来源期刊
CiteScore
1.80
自引率
22.20%
发文量
43
审稿时长
15 weeks
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