Effects of Post Annealing and Oxidation Processes on the Removal of Damage Generated during the Shallow Trench Etch Process
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概要
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In this study, 0.3-0.5 μm deep silicon trenches were etched using Cl_2/10%N_2 and Cl_2/50%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 CL_2/10%N_2 and Cl_2/50%HBr. A thermal oxidation of 200 Å at the temperature up to 1,100℃ did not remove the remaining defects completely and more defects were remained on the silicon trench etched using CL_2/10%N_2. More defects remaining on the oxidized silicon trench for CL_2/10%N_2 appear to be related to the formation of silicon oxynitride on the silicon trench etched in CL_2/10%N_2, therefore, forming less thermal oxide during the oxidation process. The annealing of the etched silicon trenches from 900℃ to 1,000℃ for 30 min in N_2 also decreased the number of defects, however, to remove the defects formed in our experiments, the annealings at the temperature higher than 1,000℃ in N_2 for 30 min appears to be required. A combination process of annealing at 1,000℃ and oxidation at 900℃ was also effective in removing the defects completely.
- 社団法人応用物理学会の論文
- 1998-12-30
著者
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YEOM Geun-Young
Department of Materials Engineering, Sungkyunkwan University
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LEE Young-Jun
Department of Electronics & Electrical Engineering
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Hwang Soon-won
Department Of Materials Engineering Sungkyunkwan University
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Yeom Geun-young
Department Of Materials Engineering Sungkyunkwan University
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Lee Young-jun
Department Of Materials Engineering Sungkyunkwan University
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OHO Kyung-Hee
National Institute of Technology and Quality
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LEE Jung-Yong
Department of Materials Engineering, Korea Advanced Institute of Science and Technology
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Lee Jung-yong
Department Of Materials Engineering Korea Advanced Institute Of Science And Technology
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