Quantitative Charge Build-Up Evaluation Technique by Using MOS Capacitors with Charge Collecting Electrodes in Wafer Processing (Special Issue on Microelectronic Test Structure)
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概要
- 論文の詳細を見る
A novel technique for evaluation of charge build-up in semiconductor wafer processing such as ion implantation, plasma etching and plasma enhanced chemical vapor deposition by using the breakdown of MOS capacitors with charge collecting electrodes (antenna) is proposed. The charge build-up during high beam current ion implantation is successfully evaluated by using this technique. The breakdown sensitivity of a MOS capacitor is improved by using a small area MOS capacitor with a large area antenna electrode. To estimate charge build-up on wafers quantitatively, the best combination of gate oxide thickness, substrate type, MOS capacitor area and antenna ratio should be carefully chosen for individual charge build-up situation. The optimum structured antenna MOS capacitors which relationship between Q_BD and stressing current density was well characterized give us very simple and quantitative charge build-up evaluation. This technique is very simple and useful to estimate charge build-up as compared with conventional technique by suing EEPROM devices or large area MOS capacitors.
- 社団法人電子情報通信学会の論文
- 1996-02-25
著者
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YONEDA Kenji
Research Reactor Institute, Kyoto University
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Yoneda K
Kyoto Research Laboratory Matsushita Electronics Corporation
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Yoneda Kenji
Kyoto Research Lab. Matsushita Electronics Corporation
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NAMURA Takashi
Kyoto Research Lab., Matsushita Electronics Corp.
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TODOKORO Yoshihiro
Kyoto Research Lab., Matsushita Electronics Corp.
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Namura T
Kyoto Research Laboratory Matsushita Electronics Corporation
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Ohishi Hiroshi
Kyoto Research Laboratory Matsushita Electronics Corporation
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Todokoro Y
Kyoto Research Laboratory Matsushita Electronics Corporation
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Todokoro Yoshihiro
Kyoto Research Lab. Matsushita Electronics Corporation
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KUBO Hiroko
Kyoto Research Laboratory, Matsushita Electronics Corporation
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Kubo Hiroko
Kyoto Research Laboratory Matsushita Electronics Corporation
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