氧浓度升高对原位掺杂亚50 nm SiGe和SiGeC基应变层NPN HBT的影响

2004 International Conference on Integrated Circuit Design and Technology (IEEE Cat. No.04EX866) Pub Date : 2004-10-04 DOI:10.1109/ICICDT.2004.1309956

G. Oleszek, D. Enicks

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引用次数: 0

摘要

本文介绍了原位硼掺杂亚50 nm SiGe和SiGeC基应变层NPN HBTs中氧浓度的研究结果。利用四点探针、二次离子质谱和x射线衍射对各层进行了表征。研究了氧浓度对硼片电阻、少数载流子寿命和器件性能的影响。结果发现，氧在硅中的掺入量比硅高一个数量级。还确定，升高的氧气可以降低取代性电活性硼浓度和/或降低迁移率，从而降低片材电阻。同样，当氧浓度高于3/spl倍/10/sup 18/ at/cc时，设备性能下降。

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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Impact of elevated oxygen concentration on in-situ doped sub-50 nm SiGe and SiGeC base strained layer NPN HBT

This paper presents the results of studies on oxygen concentration levels in in-situ boron doped sub-50 nm SiGe and SiGeC base strained layer NPN HBTs. The layers were characterized using four-point probe, secondary ion mass spectrometry and X-ray diffraction. The effect of oxygen concentration levels on boron sheet resistance, minority carrier lifetime, and device performance were investigated. It was found that oxygen can incorporate in SiGe by an order of magnitude over silicon. It is also determined that elevated oxygen can reduce the substitutional electrically active boron concentration and/or degrade the mobility, resulting in reduced sheet resistance. Similarly for elevated-oxygen concentration levels greater than 3/spl times/10/sup 18/ at/cc, device performance was found to be degraded.

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2004 International Conference on Integrated Circuit Design and Technology (IEEE Cat. No.04EX866)

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