用钟罩热壁RTP梯度温度控制改善晶圆内器件参数均匀性

2006 14th IEEE International Conference on Advanced Thermal Processing of Semiconductors Pub Date : 2006-10-01 DOI:10.1109/RTP.2006.368010

KyungWon Lee, S. Kim, P. Frisella, B. Jacobs, G. Cai, R. Reece, N. Kwak, Chulyoung Ham, K. Joo, Dongho Lee, SangWook Park, Sungki Park

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引用次数: 1

摘要

本文提出了一种利用钟罩热壁RTP系统的固有特性和可重复性来最小化器件晶圆上的跨晶圆阈值电压变化，特别是径向变化的方法。Axcelis型钟罩热壁RTP的温度均匀性由三区温度梯度控制。可以将晶圆间的热均匀性从平坦或均匀分布改变为边热或边冷。使用薄片电阻监视器对设置进行表征和优化。结果表明，通过优化三区炉的功率水平，可以反复形成优化后的温度梯度，并通过凸或凹板电阻图进行可视化。作为径向均匀性调整的结果，RTP用户可以最大限度地减少其他FEOL工艺变化的影响，如蚀刻或光刻，因为它是由RTP工艺补偿的。这种能力可以通过更好的控制和均匀的器件参数来提高80nm以下工艺闪存器件的晶圆良率

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Improvement of within Wafer Uniformity of Device Parameters by Gradient Temperature Control with Bell Jar Hot Wall RTP

This paper presents a method to minimize cross-wafer threshold voltage variation, specifically radial variation, on device wafers using the inherent characteristics and repeatability of a bell-jar hot wall RTP system. The temperature uniformity of Axcelis' bell-jar hot wall RTP is controlled by a three-zone temperature gradient. It is possible to change the cross-wafer thermal uniformity from a flat or uniform distribution to either edge-hot, or edge-cold. The settings are characterized and optimized using sheet resistance monitors. It is demonstrated that by optimizing the power levels of the three-zone furnace, an optimized temperature gradient can be repeatedly formed and visualized by convex or concave sheet resistance maps. As results of the radial uniformity tuning, the RTP user can minimize the affect of process variations from other FEOL processes, such as etch or lithography as it is compensated by RTP process. This capability could enhance wafer yield below 80nm technology flash device through better control and uniformity of device parameters

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2006 14th IEEE International Conference on Advanced Thermal Processing of Semiconductors

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