Investigation into SiO2 Etching Characteristics Using Fluorocarbon Capacitively Coupled Plasmas: Etching with Radical/Ion Flux-Controlled

Investigation into SiO2 Etching Characteristics Using Fluorocarbon Capacitively Coupled Plasmas: Etching with Radical/Ion Flux-Controlled

SiO2 etching characteristics were investigated in detail. Patterned SiO2 was etched using radio-frequency capacitively coupled plasma with pulse modulation in a mixture of argon and fluorocarbon gases. Through plasma diagnostic techniques, plasma parameters (radical and electron density, self-bias v...

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2022-12, Vol.12 (24), p.4457
Hauptverfasser: Jeong, Won-nyoung, Lee, Young-seok, Cho, Chul-hee, Seong, In-ho, You, Shin-jae
Format: Artikel
Sprache:eng
Schlagworte:
Argon
capacitively coupled plasmas
Electrodes
Electron density
Etching
Experiments
Fluctuations
Gases
Generators
high aspect ratio etching
Ion flux
Perfluorocarbons
Plasma etching
Pulse modulation
pulsed plasma
Radicals
Silicon dioxide
SiO2 etching
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Zusammenfassung:SiO2 etching characteristics were investigated in detail. Patterned SiO2 was etched using radio-frequency capacitively coupled plasma with pulse modulation in a mixture of argon and fluorocarbon gases. Through plasma diagnostic techniques, plasma parameters (radical and electron density, self-bias voltage) were also measured. In this work, we identified an etching process window, where the etching depth is a function of the radical flux. Then, pulse-off time was varied in the two extreme cases: the lowest and the highest radical fluxes. It was observed that increasing pulse-off time resulted in an enhanced etching depth and the reduced etching depth respectively. This opposing trend was attributed to increasing neutral to ion flux ratio by extending pulse-off time within different etching regimes.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano12244457