微波辐射对硼活化的影响

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1258062

K. Thompson, J. Booske, D. Downey, E. Arevalo

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引用次数: 6

摘要

化学反应性杂质，如氧和氟，在退火过程中改变硼的扩散和活化动力学。对这些杂质在退火过程中所起作用的研究表明，微波和基于灯的快速热处理(RTP)在低能植入物中的重要区别。微波退火过程中硼扩散行为最显著的变化是:常规氧增强扩散趋势发生逆转;硅极近表面扩散增强的一般趋势，可能是由于缺乏高强度的光学照明;以及氟消除这两种影响的能力。

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Effect of microwave radiation on boron activation

Chemically reactive impurities such as oxygen and fluorine alter the diffusion and activation kinetics of boron during the anneal process. An examination of the role these impurities play during the anneal process indicates important differences between microwave and lamp-based rapid thermal processing (RTP) for low energy implants. The most notable differences for boron diffusion behavior during microwave annealing are: the reversal of the conventional oxygen enhanced diffusion trend; a general trend of enhanced diffusion in the extreme near surface of the silicon, possibly due to the lack of high intensity optical illumination; and the ability of fluorine to eliminate these two effects.

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Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on

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