动态表面退火:无扩散活化

12th IEEE International Conference on Advanced Thermal Processing of Semiconductors, 2004. RTP 2004. Pub Date : 2004-09-28 DOI:10.1109/RTP.2004.1441892

D. Jennings, A. Mayur, V. Parihar, Haifan Liang, R. Mcintosh, B. Adams, T. Thomas, J. Ranish, A. Hunter, T. Trowbridge, R. Achutharaman, R. Thakur

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引用次数: 10

摘要

按照摩尔定律，器件的持续缩放需要激活一些植入物，如源-漏极扩展，SDEs，尽可能少的扩散。介绍和比较了热加工的新方法。热通量退火是一种功率密度高到足以引起局部加热，但又不至于高到完全消除热传递的状态。如果能量传递足够快，即功率密度足够高，则晶圆表面可以在体温明显上升之前达到有用的退火温度。有限的热传递使基板作为快速器件区域冷却的散热器。当热扩散长度为几十微米时，器件尺度上的热均质化现象也会发生。对扫描激光器的波长进行了比较，并对宽带闪光灯退火进行了比较

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Dynamic surface anneal: activation without diffusion

The continued scaling of devices in accordance with Moore's law requires activation of some implants such as the source-drain extensions, SDEs, with as little diffusion as possible. New options in thermal processing are described and compared. Thermal flux annealing is the regime where power density is high enough to cause local heating but not so high as to eliminate heat transfer entirely. If energy is delivered fast enough, i.e.: the power density is high enough, the surface of the wafer can reach useful annealing temperatures before the bulk temperature rises appreciably. Limited heat transfer enables the substrate as a heat sink for rapid device region cool down. Thermal homogenization on the device scale also occurs when the thermal diffusion length is a few tens of microns. Wavelengths for scanning laser are compared as well as broadband flash lamp annealing

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来源期刊

12th IEEE International Conference on Advanced Thermal Processing of Semiconductors, 2004. RTP 2004.

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