Fluorine negative ion density measurement in a dual frequency capacitive plasma etch reactor by cavity ring-down spectroscopy

Jean Paul Booth; Cormac S. Corr; Garrett A. Curley; Jacques Jolly; Jean Guillon; Tomas Földes

doi:10.1063/1.2194823

Fluorine negative ion density measurement in a dual frequency capacitive plasma etch reactor by cavity ring-down spectroscopy

Jean Paul Booth^*, Cormac S. Corr, Garrett A. Curley, Jacques Jolly, Jean Guillon, Tomas Földes

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

35 Citations (Scopus)

Abstract

F- negative ions were detected by direct observation of the weak photodetachment absorption continuum below 364.5 nm by cavity ring-down spectroscopy. The negative ions were generated in a modified industrial dielectric plasma etch reactor, with 2+27 MHz dual frequency capacitive excitation in ArC F4 O2 and Ar C4 F8 O2 gas mixtures. The F- signal was superimposed on an unidentified absorption continuum, which was diminished by O2 addition. The F- densities were in the range of (0.5-3) × 1011 cm-3, and were not significantly different for single (27 MHz) or dual (2+27 MHz) frequency excitation, not confirming recent modeling predictions.

Original language	English
Article number	151502
Journal	Applied Physics Letters
Volume	88
Issue number	15
DOIs	https://doi.org/10.1063/1.2194823
Publication status	Published - 10 Apr 2006
Externally published	Yes

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title = "Fluorine negative ion density measurement in a dual frequency capacitive plasma etch reactor by cavity ring-down spectroscopy",

abstract = "F- negative ions were detected by direct observation of the weak photodetachment absorption continuum below 364.5 nm by cavity ring-down spectroscopy. The negative ions were generated in a modified industrial dielectric plasma etch reactor, with 2+27 MHz dual frequency capacitive excitation in ArC F4 O2 and Ar C4 F8 O2 gas mixtures. The F- signal was superimposed on an unidentified absorption continuum, which was diminished by O2 addition. The F- densities were in the range of (0.5-3) × 1011 cm-3, and were not significantly different for single (27 MHz) or dual (2+27 MHz) frequency excitation, not confirming recent modeling predictions.",

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T1 - Fluorine negative ion density measurement in a dual frequency capacitive plasma etch reactor by cavity ring-down spectroscopy

AU - Booth, Jean Paul

AU - Corr, Cormac S.

AU - Curley, Garrett A.

AU - Jolly, Jacques

AU - Guillon, Jean

AU - Földes, Tomas

PY - 2006/4/10

Y1 - 2006/4/10

N2 - F- negative ions were detected by direct observation of the weak photodetachment absorption continuum below 364.5 nm by cavity ring-down spectroscopy. The negative ions were generated in a modified industrial dielectric plasma etch reactor, with 2+27 MHz dual frequency capacitive excitation in ArC F4 O2 and Ar C4 F8 O2 gas mixtures. The F- signal was superimposed on an unidentified absorption continuum, which was diminished by O2 addition. The F- densities were in the range of (0.5-3) × 1011 cm-3, and were not significantly different for single (27 MHz) or dual (2+27 MHz) frequency excitation, not confirming recent modeling predictions.

AB - F- negative ions were detected by direct observation of the weak photodetachment absorption continuum below 364.5 nm by cavity ring-down spectroscopy. The negative ions were generated in a modified industrial dielectric plasma etch reactor, with 2+27 MHz dual frequency capacitive excitation in ArC F4 O2 and Ar C4 F8 O2 gas mixtures. The F- signal was superimposed on an unidentified absorption continuum, which was diminished by O2 addition. The F- densities were in the range of (0.5-3) × 1011 cm-3, and were not significantly different for single (27 MHz) or dual (2+27 MHz) frequency excitation, not confirming recent modeling predictions.

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M3 - Article

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VL - 88

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 15

M1 - 151502

ER -

Fluorine negative ion density measurement in a dual frequency capacitive plasma etch reactor by cavity ring-down spectroscopy

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