Quantitative ultra shallow dopant profile measurement by scanning capacitance microscope

IF 0.1 4区 计算机科学 Q4 Engineering
Y. Kikuchi, T. Kubo, M. Kase
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引用次数: 7

Abstract

This paper compares scanning capacitance microscope (SCM) signals of an n-MOS transistor implanted with arsenic ions at an energy as low as 5 keV with a vertical secondary ion mass spectroscopy (SIMS) profile of the same device. Then, it describes SCM measurement by the application of a DC voltage sufficient to compensate for the flat band shift caused by the interaction between the probe of a conductive scanning probe microscope (SPM) and a silicon surface. To acquire the exact impurity distribution beneath a silicon surface, the SIMS measurement was carried out at a primary ion energy of less than 1 keV. As a result, the calibration of SCM signals using SIMS data was accomplished in the ultra shallow region near the silicon surface. It was also confirmed that the formalism based on the depletion approximation applies in this region. Using this formalism, we show that, at concentrations around 10 1 8 cm - 3 , SCM enables quantitative two-dimensional dopant profiling near the source/drain extension at a resolution of better than 10 nm. Moreover, by optimizing the sample preparation and measurement conditions, it is also possible to analyze a sub-μm gate transistor with a 60 nm channel length and investigate the complex dopant distribution in the source/drain region, including the edge of the shallow trench isolation.
扫描电容显微镜下超浅掺杂量测
本文将能量低至5kev的砷离子注入n-MOS晶体管的扫描电容显微镜(SCM)信号与同一器件的垂直二次离子质谱(SIMS)谱图进行了比较。然后,它描述了通过应用直流电压来补偿由导电扫描探针显微镜(SPM)的探针与硅表面之间的相互作用引起的平坦带移的单片机测量。为了获得硅表面下精确的杂质分布,SIMS测量是在一次离子能量小于1 keV的情况下进行的。利用SIMS数据在靠近硅表面的超浅区域完成了单片机信号的标定。还证实了基于耗竭近似的形式主义适用于该区域。使用这种形式,我们表明,在浓度约为10 - 18 cm - 3时,SCM可以在源/漏极附近以优于10 nm的分辨率进行定量二维掺杂谱分析。此外,通过优化样品制备和测量条件,还可以分析60 nm通道长度的亚μm栅极晶体管,并研究包括浅沟槽隔离边缘在内的源/漏区复杂掺杂分布。
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
Fujitsu Scientific & Technical Journal
Fujitsu Scientific & Technical Journal 工程技术-工程:电子与电气
自引率
0.00%
发文量
0
审稿时长
6-12 weeks
期刊介绍: FSTJ is published by FUJITSU LIMITED to introduce the FUJITSU Group''s research and development activities, cutting-edge technologies, products, and solution services.
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