Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas: Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements

K. Niemi; D. O'Connell; N. De Oliveira; D. Joyeux; L. Nahon; J. P. Booth; T. Gans

doi:10.1063/1.4813817

Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas: Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements

K. Niemi
, D. O'Connell
, N. De Oliveira
, D. Joyeux
, L. Nahon
, J. P. Booth
, T. Gans

University of York
Synchrotron SOLEIL

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

Abstract

Reactive atomic species play a key role in emerging cold atmospheric pressure plasma applications, in particular, in plasma medicine. Absolute densities of atomic oxygen and atomic nitrogen were measured in a radio-frequency driven non-equilibrium plasma operated at atmospheric pressure using vacuum ultra-violet (VUV) absorption spectroscopy. The experiment was conducted on the DESIRS synchrotron beamline using a unique VUV Fourier-transform spectrometer. Measurements were carried out in plasmas operated in helium with air-like N 2 / O 2 (4:1) admixtures. A maximum in the O-atom concentration of (9.1 ± 0.7) × 10 20 m - 3 was found at admixtures of 0.35 vol. %, while the N-atom concentration exhibits a maximum of (5.7 ± 0.4) × 10 19 m - 3 at 0.1 vol. %.

Original language	English
Article number	034102
Journal	Applied Physics Letters
Volume	103
Issue number	3
DOIs	https://doi.org/10.1063/1.4813817
Publication status	Published - 15 Jul 2013

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Niemi, K., O'Connell, D., De Oliveira, N., Joyeux, D., Nahon, L., Booth, J. P., & Gans, T. (2013). Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas: Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements. Applied Physics Letters, 103(3), Article 034102. https://doi.org/10.1063/1.4813817

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title = "Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas: Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements",

abstract = "Reactive atomic species play a key role in emerging cold atmospheric pressure plasma applications, in particular, in plasma medicine. Absolute densities of atomic oxygen and atomic nitrogen were measured in a radio-frequency driven non-equilibrium plasma operated at atmospheric pressure using vacuum ultra-violet (VUV) absorption spectroscopy. The experiment was conducted on the DESIRS synchrotron beamline using a unique VUV Fourier-transform spectrometer. Measurements were carried out in plasmas operated in helium with air-like N 2 / O 2 (4:1) admixtures. A maximum in the O-atom concentration of (9.1 ± 0.7) × 10 20 m - 3 was found at admixtures of 0.35 vol. \%, while the N-atom concentration exhibits a maximum of (5.7 ± 0.4) × 10 19 m - 3 at 0.1 vol. \%.",

author = "K. Niemi and D. O'Connell and \{De Oliveira\}, N. and D. Joyeux and L. Nahon and Booth, \{J. P.\} and T. Gans",

year = "2013",

month = jul,

day = "15",

doi = "10.1063/1.4813817",

language = "English",

volume = "103",

journal = "Applied Physics Letters",

issn = "0003-6951",

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}

Niemi, K, O'Connell, D, De Oliveira, N, Joyeux, D, Nahon, L, Booth, JP & Gans, T 2013, 'Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas: Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements', Applied Physics Letters, vol. 103, no. 3, 034102. https://doi.org/10.1063/1.4813817

Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas: Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements. / Niemi, K.; O'Connell, D.; De Oliveira, N. et al.
In: Applied Physics Letters, Vol. 103, No. 3, 034102, 15.07.2013.

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

TY - JOUR

T1 - Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas

T2 - Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements

AU - Niemi, K.

AU - O'Connell, D.

AU - De Oliveira, N.

AU - Joyeux, D.

AU - Nahon, L.

AU - Booth, J. P.

AU - Gans, T.

PY - 2013/7/15

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N2 - Reactive atomic species play a key role in emerging cold atmospheric pressure plasma applications, in particular, in plasma medicine. Absolute densities of atomic oxygen and atomic nitrogen were measured in a radio-frequency driven non-equilibrium plasma operated at atmospheric pressure using vacuum ultra-violet (VUV) absorption spectroscopy. The experiment was conducted on the DESIRS synchrotron beamline using a unique VUV Fourier-transform spectrometer. Measurements were carried out in plasmas operated in helium with air-like N 2 / O 2 (4:1) admixtures. A maximum in the O-atom concentration of (9.1 ± 0.7) × 10 20 m - 3 was found at admixtures of 0.35 vol. %, while the N-atom concentration exhibits a maximum of (5.7 ± 0.4) × 10 19 m - 3 at 0.1 vol. %.

AB - Reactive atomic species play a key role in emerging cold atmospheric pressure plasma applications, in particular, in plasma medicine. Absolute densities of atomic oxygen and atomic nitrogen were measured in a radio-frequency driven non-equilibrium plasma operated at atmospheric pressure using vacuum ultra-violet (VUV) absorption spectroscopy. The experiment was conducted on the DESIRS synchrotron beamline using a unique VUV Fourier-transform spectrometer. Measurements were carried out in plasmas operated in helium with air-like N 2 / O 2 (4:1) admixtures. A maximum in the O-atom concentration of (9.1 ± 0.7) × 10 20 m - 3 was found at admixtures of 0.35 vol. %, while the N-atom concentration exhibits a maximum of (5.7 ± 0.4) × 10 19 m - 3 at 0.1 vol. %.

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DO - 10.1063/1.4813817

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JF - Applied Physics Letters

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Absolute atomic oxygen and nitrogen densities in radio-frequency driven atmospheric pressure cold plasmas: Synchrotron vacuum ultra-violet high-resolution Fourier-transform absorption measurements

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