利用低场隧道电流研究薄栅氧化物中植入缺陷

Ion Implantation Technology. 2002. Proceedings of the 14th International Conference on Pub Date : 1900-01-01 DOI:10.1109/IIT.2002.1257972

M. Jank, L. Frey, A. Bauer, H. Ryssel

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引用次数: 0

摘要

研究了栅极注入(TGI)对氧化层厚度为4.0 nm的MOS结构的影响，并将注入相关的陷阱辅助隧道电流与电应力诱导的漏电流进行了比较。虽然不同生成缺陷的稳态J-V特性表现出相似的行为，但陷阱填充实验和电应力测试表明，这两种缺陷的物理性质不同。此外，随着TGI剂量的增加，陷阱的产生率也会下降，这可能是由于TGI诱导的应激诱导陷阱的前体位点的减少。由于总体缺陷密度是由植入诱导和应力诱导缺陷的叠加形成的，这与早期发现的TGI剂量增加导致可靠性降低并不矛盾。

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Investigation of implantation-induced defects in thin gate oxides using low field tunnel currents

The influence of through the gate implantation (TGI) on MOS structures with an oxide thickness of 4.0 nm is investigated comparing implantation related trap assisted tunneling currents to leakage currents induced by electrical stress. Although the steady-state J-V characteristics show a similar behavior of the differently generated defects, trap filling experiments and electrical stress tests suggest different physical properties of either kind of defect. Also a decrease in trap generation rate with increasing TGI dose is detected, probably due to a TGI induced reduction of precursor sites for stress induced traps. As overall defect density is formed by the superposition of implantation induced and stress induced defects, this is not contradictory to a reduction of reliability with increasing TGI dose found earlier.

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

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