clustercarbon™植入物的退火行为

2008 16th IEEE International Conference on Advanced Thermal Processing of Semiconductors Pub Date : 2008-12-02 DOI:10.1109/RTP.2008.4690543

K. Sekar, W. Krull, J. Chan, S. Mccoy, J. Gelpey

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引用次数: 4

摘要

我们在这里报道了一种新型簇碳(C7H7+)植入物与n型源漏掺杂植入物(As和P2)一起形成嵌入式硅碳(Si:C)层。植入的晶圆采用毫秒闪蒸退火(fRTP)进行退火，然后采用脉冲尖峰后RTP退火(iRTP)进行失活研究。采用高分辨率x射线衍射(HRXRD)技术表征了Si:C层中取代碳([C]subs)的百分比。对于As和P2钎料，峰后退火温度对[C]亚基的依赖表现出相似的行为。在1000℃的峰后退火温度下，这种簇碳植入方法的应变松弛仅为10%左右(90%的应变保留)。较高的闪蒸退火温度导致较低的[C]sub。与As植入物相比，P2植入物的片电阻更低。本文利用HRXRD、SIMS、XTEM对Si:C层进行了详细表征，并利用SIMS和Rs测量对n型掺杂剂进行了活化。

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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Annealing behavior of clustercarbon™ implants

We report here the use of a novel cluster carbon (C7H7+) implant along with n-type source drain dopant implants (As and P2) to form an embedded Silicon-Carbon (Si:C) layer. The implanted wafers were annealed using millisecond flash anneal (fRTP) followed by a post impulse spike RTP anneal (iRTP) for deactivation studies. The percentage of substitutional carbon ([C]subs) in the formed Si:C layer is characterized by a high-resolution x-ray diffraction (HRXRD) technique. The dependence of post spike anneal temperature on [C]subs show similar behavior for both As and P2 implants. With this clustercarbon implant approach the strain relaxation is only about 10% (90% strain retention) for the post spike anneal temperature of 1000°C. Higher flash anneal temperature leads to lower [C]subs. The sheet resistance is lower in the case of P2 implants when compared to As implants. We present here the detailed characterization of Si:C layer using HRXRD, SIMS, XTEM and activation of n-type dopants using SIMS and Rs measurements.

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2008 16th IEEE International Conference on Advanced Thermal Processing of Semiconductors

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