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@ARTICLE{e77-c_3_486,
author={Yoshimasa TAKII, Nobuo AOI, Yuichi HIROFUJI, },
journal={IEICE TRANSACTIONS on Electronics},
title={Identification of the Particle Source in LSI Manufacturing Process Equipment},
year={1994},
volume={E77-C},
number={3},
pages={486-491},
abstract={Today, defect sources of LSI device mainly lie in the process equipments. The particles generating in these equipments are introduced onto the wafer, and form the defects resulting in functional failures of LSI device. Thus, reducing these particles is acquired for increasing production yield and higher productivity, and it is important to identify the particle source in the equipment. In this study, we discussed new two methods to identify this source in the equipment used in the production line. The important point of identifing is to estimate the particle generation with short time and high accuracy, and to minimize long time stop of the equipment requiring disassembly. First, we illustrated "particle distribution analysis method." In this method, we showed the procedure to express the particle distribution mathematically. We applied this method to our etching equipment, and could identify the particle source without stopping this etching equipment. Secondly, we illustrated the method of "in-situ particle monitoring method," and applied this method to our AP-CVD equipment. As a result, it was clear the main particle source of this equipment and the procedure for decreasing these particles. By using this method, we could estimate the particle generation at real time in process without stopping this equipment. Thus, both methods shown in this study could estimate the particle generation and identify the particle source with short time and high accuracy. Furthermore, they do not require long time stop of the process equipment and interrupting the production line. Therefore, these methods are concluded to be very useful and effective in LSI manufacturing process.},
keywords={},
doi={},
ISSN={},
month={March},}

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TY - JOUR
TI - Identification of the Particle Source in LSI Manufacturing Process Equipment
T2 - IEICE TRANSACTIONS on Electronics
SP - 486
EP - 491
AU - Yoshimasa TAKII
AU - Nobuo AOI
AU - Yuichi HIROFUJI
PY - 1994
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E77-C
IS - 3
JA - IEICE TRANSACTIONS on Electronics
Y1 - March 1994
AB - Today, defect sources of LSI device mainly lie in the process equipments. The particles generating in these equipments are introduced onto the wafer, and form the defects resulting in functional failures of LSI device. Thus, reducing these particles is acquired for increasing production yield and higher productivity, and it is important to identify the particle source in the equipment. In this study, we discussed new two methods to identify this source in the equipment used in the production line. The important point of identifing is to estimate the particle generation with short time and high accuracy, and to minimize long time stop of the equipment requiring disassembly. First, we illustrated "particle distribution analysis method." In this method, we showed the procedure to express the particle distribution mathematically. We applied this method to our etching equipment, and could identify the particle source without stopping this etching equipment. Secondly, we illustrated the method of "in-situ particle monitoring method," and applied this method to our AP-CVD equipment. As a result, it was clear the main particle source of this equipment and the procedure for decreasing these particles. By using this method, we could estimate the particle generation at real time in process without stopping this equipment. Thus, both methods shown in this study could estimate the particle generation and identify the particle source with short time and high accuracy. Furthermore, they do not require long time stop of the process equipment and interrupting the production line. Therefore, these methods are concluded to be very useful and effective in LSI manufacturing process.
ER -