Nitrogen atom energy distributions in a hollow-cathode planar sputtering magnetron

Zhehui Wang; Samuel A. Cohen; David N. Ruzic; M. J. Goeckner

doi:10.1103/PhysRevE.61.1904

Nitrogen atom energy distributions in a hollow-cathode planar sputtering magnetron

Zhehui Wang, Samuel A. Cohen, David N. Ruzic, M. J. Goeckner

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Abstract

Energy distributions of nitrogen atoms (N) in a hollow-cathode planar sputtering magnetron were obtained by use of optical emission spectroscopy. A characteristic line, N I 8216.3 Å, well separated from molecular nitrogen emission bands, was identified. Jansson’s nonlinear spectral deconvolution method, refined by minimization of [Formula Presented] was used to obtain the optimal deconvolved spectra. These showed nitrogen atom energies from 1 eV to beyond 500 eV. Based on comparisons with VFTRIM computer code results, it is proposed that the energetic N’s are generated from [Formula Presented] ions after these ions are accelerated through the sheath and dissociatively reflect from the cathode.

Original language	English (US)
Pages (from-to)	1904-1911
Number of pages	8
Journal	Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics
Volume	61
Issue number	2
DOIs	https://doi.org/10.1103/PhysRevE.61.1904
State	Published - 2000

ASJC Scopus subject areas

Statistical and Nonlinear Physics
Statistics and Probability
Condensed Matter Physics

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title = "Nitrogen atom energy distributions in a hollow-cathode planar sputtering magnetron",

abstract = "Energy distributions of nitrogen atoms (N) in a hollow-cathode planar sputtering magnetron were obtained by use of optical emission spectroscopy. A characteristic line, N I 8216.3 {\AA}, well separated from molecular nitrogen emission bands, was identified. Jansson{\textquoteright}s nonlinear spectral deconvolution method, refined by minimization of [Formula Presented] was used to obtain the optimal deconvolved spectra. These showed nitrogen atom energies from 1 eV to beyond 500 eV. Based on comparisons with VFTRIM computer code results, it is proposed that the energetic N{\textquoteright}s are generated from [Formula Presented] ions after these ions are accelerated through the sheath and dissociatively reflect from the cathode.",

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T1 - Nitrogen atom energy distributions in a hollow-cathode planar sputtering magnetron

AU - Wang, Zhehui

AU - Cohen, Samuel A.

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AU - Goeckner, M. J.

PY - 2000

Y1 - 2000

N2 - Energy distributions of nitrogen atoms (N) in a hollow-cathode planar sputtering magnetron were obtained by use of optical emission spectroscopy. A characteristic line, N I 8216.3 Å, well separated from molecular nitrogen emission bands, was identified. Jansson’s nonlinear spectral deconvolution method, refined by minimization of [Formula Presented] was used to obtain the optimal deconvolved spectra. These showed nitrogen atom energies from 1 eV to beyond 500 eV. Based on comparisons with VFTRIM computer code results, it is proposed that the energetic N’s are generated from [Formula Presented] ions after these ions are accelerated through the sheath and dissociatively reflect from the cathode.

AB - Energy distributions of nitrogen atoms (N) in a hollow-cathode planar sputtering magnetron were obtained by use of optical emission spectroscopy. A characteristic line, N I 8216.3 Å, well separated from molecular nitrogen emission bands, was identified. Jansson’s nonlinear spectral deconvolution method, refined by minimization of [Formula Presented] was used to obtain the optimal deconvolved spectra. These showed nitrogen atom energies from 1 eV to beyond 500 eV. Based on comparisons with VFTRIM computer code results, it is proposed that the energetic N’s are generated from [Formula Presented] ions after these ions are accelerated through the sheath and dissociatively reflect from the cathode.

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Nitrogen atom energy distributions in a hollow-cathode planar sputtering magnetron

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