应变Si/sub - 1-x/Ge/sub -x/外延层中硼扩散的模拟

2000 International Conference on Simulation Semiconductor Processes and Devices (Cat. No.00TH8502) Pub Date : 2000-09-06 DOI:10.1109/SISPAD.2000.871244

K. Rajendran, W. Schoenmaker, S. Decoutere, M. Caymax

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摘要

本文描述了一个简单准确的硼在SiGe中的扩散模型，该模型已在TAURUS (PMEI)中成功实现。对Si/sub - 1-x/Ge/sub -x/试样进行快速热处理和炉内退火后的对比，发现应变Si/sub - 1-x/Ge/sub -x/层内的B扩散延迟。测定和模拟了Ge含量对掺杂物扩散的影响，结果表明，随着Ge合金含量的增加，掺杂物B的扩散减弱。该模型适用于各种Ge百分比(箱形和梯度剖面)和热预算。各种Ge百分比和热收支的模拟结果与实测数据吻合较好，B扩散系数的预测值较低。

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Simulation of boron diffusion in strained Si/sub 1-x/Ge/sub x/ epitaxial layers

This paper describes a simple and accurate model for boron diffusion in SiGe that was successfully implemented in TAURUS (PMEI). The comparison of the Si/sub 1-x/Ge/sub x/ samples to Si samples after rapid thermal and furnace annealing revealed a retarded B diffusion inside the strained Si/sub 1-x/Ge/sub x/ layers. The influence of the Ge content on the dopant diffusion was also measured and simulated, demonstrating that the B diffusion was found to decrease with the Ge alloy content. The model fits for various Ge percentages (both box and graded profiles) and thermal budgets. The simulation results of various Ge percentages and thermal budgets show good agreement with measurement data and the predicted B diffusivity show a reasonably low value.

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

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