离子注入Si中B扩散和活化的第一性原理预测模拟

2000 International Conference on Simulation Semiconductor Processes and Devices (Cat. No.00TH8502) Pub Date : 2000-09-06 DOI:10.1109/SISPAD.2000.871196

S. Theiss, M. Caturla, T. Lenosky, B. Sadigh, T. Díaz de la Rubia, M. Giles, M. Foad

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引用次数: 6

摘要

提出了硼在离子注入硅中的扩散、聚类和活化的动力学蒙特卡罗模型。模型的输入是基于实验数据和从头计算的结合。模型表明，体系中存在空位团簇，硼的扩散和活化较低。随着空位团簇的解离，硼具有取代性，活性分数迅速增加。同时，随着间隙团簇的成熟，硼的总扩散长度也迅速增加。硼扩散的最终爆发发生在大的间隙团簇溶解时，但此时植入硼的大部分瞬态扩散已经发生。我们发现，这些结果与退火后掺杂物分布和掺杂物活化随退火时间的变化的实验数据非常吻合。

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First-principles-based predictive simulations of B diffusion and activation in ion implanted Si

We present a kinetic Monte Carlo model for boron diffusion, clustering and activation in ion implanted silicon. The input to the model is based on a combination of experimental data and ab initio calculations. The model shows that boron diffusion and activation are low while vacancy clusters are present in the system. As the vacancy clusters dissociate, boron becomes substitutional and the active fraction increases rapidly. At the same time, the total boron diffusion length also increases rapidly while interstitial clusters ripen. The final burst of boron diffusion occurs as the large interstitial clusters dissolve, but most of the transient diffusion of the implanted boron has already taken place by this time. We show that these results are in excellent agreement with experimental data on annealed dopant profiles and dopant activation as function of annealing time.

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2000 International Conference on Simulation Semiconductor Processes and Devices (Cat. No.00TH8502)

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