S/D工程的高分辨率和特定站点的SSRM

2010 International Workshop on Junction Technology Extended Abstracts Pub Date : 2010-05-10 DOI:10.1109/IWJT.2010.5474914

L. Zhang, M. Saitoh, M. Koike, S. Takeno, H. Tanimoto, K. Adachi, N. Yasutake, N. Kusunoki

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引用次数: 5

摘要

最近，我们报道了通过在真空中测量扫描扩展电阻显微镜(SSRM)的空间分辨率显着提高。在这项工作中，我们通过与三维器件模拟的比较，证明了SSRM在pn结描绘上的1纳米空间分辨率。在阶梯样品上也证实了载流子浓度的五阶动态范围。用SSRM对(110)和(100)衬底上的pfet / nfet进行了系统比较。与(100)相比，(110)pfet的S/D横向分布更小，表明硼离子注入产生了2d通道效应。我们还通过完全FIB拾取成功地开发了一种新的样品制作方法，使特定地点的SSRM特性能够用于故障分析和进一步缩放设备。

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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High-resolution and site-specific SSRM on S/D engineering

Recently, we reported significantly improved spatial resolution in scanning spreading resistance microscopy (SSRM) by measuring in a vacuum. In this work, we demonstrate the 1-nm-spatial resolution of SSRM on pn junction delineation by comparing with three-dimensional device simulation. A five-order dynamic range of carrier concentration is also confirmed on staircase sample. A systematic comparison between pFETs/nFETs on (110) and (100) substrates has been carried out with SSRM. The S/D of (110) pFETs shows less lateral distribution than that of (100), strongly indicating 2D-channeling effect of boron ion implantation. We also succeeded in a new sample-making method by fully FIB pick up, enabling site-specific SSRM characteristics for failure analysis and for further scaled devices.

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2010 International Workshop on Junction Technology Extended Abstracts

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