Ultra-fast etching of photoresist by reactive atmospheric-pressure thermal plasma jet with surface temperature measurement

Ultra-fast etching of photoresist by reactive atmospheric-pressure thermal plasma jet with surface temperature measurement

Atmospheric-pressure reactive thermal plasma jet (R-TPJ) with Ar and O _2 gas mixture was applied to the etching of photoresist (PR) on a silicon wafer. Optical interference contactless thermometry (OICT) and optical emission spectroscopy were carried out to clarify the relationship between the etch...

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Bibliographic Details
Main Authors: Kyohei Matsumoto, Hibiki Kato, Jiawen Yu, Hiroaki Hanafusa, Seiichiro Higashi
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:Applied Physics Express
Subjects:
plasma
etching
temperature measurement
organic film
edge bead
Online Access:https://doi.org/10.35848/1882-0786/ada374
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Summary:Atmospheric-pressure reactive thermal plasma jet (R-TPJ) with Ar and O _2 gas mixture was applied to the etching of photoresist (PR) on a silicon wafer. Optical interference contactless thermometry (OICT) and optical emission spectroscopy were carried out to clarify the relationship between the etching rate, amount of atomic oxygen radicals, and PR surface temperature. The results show that the O _2 flow rate and surface temperature are obviously related to the etching rate of the PR. The R-TPJ irradiation with input current at 60 A reaches surface temperature of 720 K within 7 ms and achieved an etching rate of 84 μ m s ^−1 .
ISSN:1882-0786

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