分子n型掺杂植入物

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1257953

A. Agarwal, B. Stevenson, M. Ameen, B. Freer, J. Poate

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引用次数: 3

摘要

与使用单体As+或P+离子相比，在超低能量下使用二聚体As2+或P2+离子可以带来实质性的吞吐量优势。在这里，我们使用高分辨率卢瑟福后向散射和热波测量来研究二聚体和单体离子在注入损伤方面的差异。使用二聚体离子比使用单体离子形成更厚的非晶态层，从而导致更大的损伤。3-keV As+的非晶化阈值在0.5 ~ 1×1014 cm-2之间。然而，使用As2+，非晶化阈值降低到原子砷剂量小于0.5×1014 cm-2。尽管单体和二聚体的砷注入损伤存在这些相当显著的差异，但在超浅结形成的尖峰退火后，砷的扩散和掺杂活化被发现是相同的。

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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Molecular n-type dopant implants

The use of dimer As₂⁺ or P₂⁺ ions at ultra-low energies can lead to substantial throughput advantages compared with the use of monomer As⁺ or P⁺ ions. Here we investigate the differences in the as-implanted damage from dimer and monomer ions using high resolution Rutherford backscattering and Thermawave measurements. Use of dimer ions leads to more damage as revealed by the formation of a thicker amorphous layer than from monomer ions. The amorphization threshold for 3-keV As⁺ is found to be between 0.5 and 1×10¹⁴ cm^-2. Using As₂⁺, however, the amorphization threshold is reduced to an atomic arsenic dose less than 0.5×10¹⁴ cm^-2. Despite these rather significant differences in the as-implanted damage from monomers and dimers, the diffusion and dopant activation of arsenic are found to be identical following spike-annealing for ultra-shallow junction formation.

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

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