DocumentCode
1289084
Title
A mechanism of gate oxide deterioration during As+ ion implantation
Author
Muto, Hirotaka ; Fujii, Haruhisa ; Nakanishi, Koichiro ; Ikeda, Shingo
Author_Institution
Mitsubishi Electr. Corp., Amagasaki, Japan
Volume
38
Issue
6
fYear
1991
fDate
6/1/1991 12:00:00 AM
Firstpage
1296
Lastpage
1302
Abstract
The deterioration or catastrophic breakdown of thin gate oxides during ion implantation is studied. The effect of ion beam density, the distribution of the gate oxide deterioration over a wafer, and the effect of photoresist coverage are shown quantitatively by measuring the number of interface states generated in MOS capacitors. It is shown that the four charge sources contribute to the deterioration of gate oxide: the irradiated ion beam, the secondary electrons emitted from the gate electrode, the charges accumulated on the photoresist surface around the gate electrode, and the secondary electrons emitted from a wafer holder. The first three charges accelerate the deterioration of the gate oxide and the last one reduces it. A model of the gate oxide deterioration in ion implantation that is very useful for finding methods of reducing the charging damage is presented
Keywords
arsenic; capacitors; insulated gate field effect transistors; ion implantation; metal-insulator-semiconductor structures; silicon compounds; As+; MOS capacitors; catastrophic breakdown; charge sources; charges accumulated; charging damage; effect of photoresist coverage; gate oxide deterioration; ion beam density; ion implantation; irradiated ion beam; mechanism; model; number of interface states; secondary electrons; thin gate oxides; Density measurement; Electric breakdown; Electrodes; Electron beams; Electron emission; Interface states; Ion beams; Ion implantation; MOS capacitors; Resists;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/16.81620
Filename
81620
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