Effects Of Post Annealing And Oxidation Processes On The Removal Of Damage Generated During The Shallow Trench Etch Process

Digest of Papers. Microprocesses and Nanotechnology'98. 198 International Microprocesses and Nanotechnology Conference (Cat. No.98EX135) Pub Date : 1998-07-13 DOI:10.1143/JJAP.37.6916

Y.J. Lee, S. Hwang, J. Lee, J.Y. Lee, G. Yeom

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引用次数: 5

Abstract

In this study, 0.3–0.5 µm deep silicon trenches were etched using Cl2/10%N2 and Cl2/50%HBr inductively coupled plasmas, and the defects remaining on the etched silicon trench surfaces and the effects of various annealing and oxidation on the removal of the defects were studied. High resolution transmission electron microscopy was used to investigate the degree of remaining defects and X-ray photoelectron spectroscopy was also used to investigate surface contamination of the etched silicon wafers. Defects were found on the silicon trench surfaces etched using both Cl2/10%N2 and Cl2/50%HBr. A thermal oxidation of 200 A at the temperature up to 1,100°C did not remove the remaining defects completely and more defects were remained on the silicon trench etched using Cl2/10%N2. More defects remaining on the oxidized silicon trench for Cl2/10%N2 appear to be related to the formation of silicon oxynitride on the silicon trench etched in Cl2/10%N2, therefore, forming less thermal oxide during the oxidation process. The annealing of the etched silicon trenches from 900°C to 1,000°C for 30 min in N2 also decreased the number of defects, however, to remove the defects formed in our experiments, the annealings at the temperature higher than 1,000°C in N2 for 30 min appears to be required. A combination process of annealing at 1,000°C and oxidation at 900°C was also effective in removing the defects completely.

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后退火和氧化工艺对去除浅槽腐蚀过程中产生的损伤的影响

本研究采用Cl2/10%N2和Cl2/50%HBr电感耦合等离子体刻蚀0.3 ~ 0.5µm深的硅沟槽，研究了刻蚀硅沟槽表面残留的缺陷以及不同退火和氧化对缺陷去除的影响。利用高分辨率透射电子显微镜研究了残留缺陷的程度，并用x射线光电子能谱分析了蚀刻硅片表面的污染情况。在用Cl2/10%N2和Cl2/50%HBr刻蚀的硅沟槽表面上发现了缺陷。在高达1100℃的温度下，200 A的热氧化并没有完全去除残留的缺陷，并且在Cl2/10%N2蚀刻的硅沟槽上留下了更多的缺陷。Cl2/10%N2氧化硅沟槽上的缺陷较多，这可能与Cl2/10%N2腐蚀硅沟槽上氧化氮化硅的形成有关，因此在氧化过程中形成的热氧化物较少。将蚀刻硅沟槽从900°C退火到1000°C，在N2中退火30分钟，也减少了缺陷的数量，但是，为了消除实验中形成的缺陷，似乎需要在高于1000°C的N2中退火30分钟。采用1000℃退火和900℃氧化相结合的工艺也能有效地完全去除缺陷。

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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Digest of Papers. Microprocesses and Nanotechnology'98. 198 International Microprocesses and Nanotechnology Conference (Cat. No.98EX135)

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