Ascertaining of Copper Contamination from Various Sources in the Wafer Fab by Using VPD-TXRF Methodology

2007 5th Student Conference on Research and Development Pub Date : 2007-12-01 DOI:10.1109/SCORED.2007.4451384

H. Abu Bakar, Z. Awang, W.A.A. Wan Razali

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Abstract

Preventing and monitoring of Cu cross contamination become critical for the semiconductor industries since most of them are converting to mass-producing chips with copper (Cu), rather than aluminium (Al) as an interconnect element. Cu is a superior conductor of electricity, making it possible to shrink the electronic devices while further increasing performance. Presently, most of the Cu contamination emphasis on a wafer surface only using various methodologies. This in turn requires the need to improve the performance of analytical tool and to develop a new analytical measurement methodology for evaluating the levels of Cu contamination that might come from many sources in a wafer fab. In order to solve this problem, a new assessment methodology of using vapor phase decomposition and total X-ray fluorescence (VPD-TXRF) was introduced with the aim of establishing a trace elemental analysis. Currently, VPD-TXRF is mainly used as an analyzing tool to monitor Cu contamination on a wafer surface. However in this research, the same methodology is proof to be useful for measuring traces of Cu element induced from the other sources of contamination which is not necessarily from a wafer itself but also from the other sources in the whole fab. Gauge repeatability and reproducibility (GR&R) including component of variations study was applied in this research and the finding shows a positive results. A standard procedure and comparable sample also has been used which is ICPMS analyzing in purpose to set up a correlation with VPD-TXRF measurement data. Then this study aid to develop a valid procedure for Cu traces analysis, which served as a reference procedure to measure, monitor and control a Cu contamination. The final results validate this methodology as a distinguish method to measure a Cu contamination that come from many sources. Beside that, this methodology offers a cost saving since it uses a reclaim wafer as a sample preparation. Thus, this methodology is a key and can be used as process knowledge in accelerating advanced Cu interconnects development.

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用VPD-TXRF方法确定晶圆厂不同来源的铜污染

预防和监测铜交叉污染对半导体工业来说至关重要，因为大多数半导体工业都在转向大规模生产以铜(Cu)而不是铝(Al)作为互连元件的芯片。铜是一种优良的电导体，可以在进一步提高性能的同时缩小电子设备。目前，对铜污染的研究主要集中在晶圆表面，研究方法多种多样。这反过来又需要提高分析工具的性能，并开发一种新的分析测量方法来评估晶圆厂中可能来自许多来源的铜污染水平。为了解决这一问题，提出了一种新的气相分解-全x射线荧光(VPD-TXRF)评价方法，旨在建立一种痕量元素分析方法。目前，VPD-TXRF主要用作晶圆表面Cu污染监测的分析工具。然而，在这项研究中，同样的方法被证明是有用的，以测量痕量的铜元素的污染，不一定是从晶圆片本身，但也从整个晶圆厂的其他来源。将测量可重复性和再现性(GR&R)包括变异成分研究应用于本研究，并取得了积极的结果。为了建立与VPD-TXRF测量数据的相关性，采用了ICPMS分析的标准程序和可比样品。本研究有助于建立有效的痕量铜分析方法，为铜污染的测量、监测和控制提供参考。最终结果验证了该方法作为一种区分方法来测量来自许多来源的铜污染。除此之外，这种方法还节省了成本，因为它使用回收晶圆作为样品制备。因此，这种方法是一个关键，可以用作加速先进铜互连开发的过程知识。

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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2007 5th Student Conference on Research and Development

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