Precise impurity analysis of Cu films by GDMS: Relation between negative substrate bias voltage and impurity ionization potentials

J. W. Lim; K. Mimura; M. Isshiki

doi:10.1007/s00339-003-2373-4

Precise impurity analysis of Cu films by GDMS: Relation between negative substrate bias voltage and impurity ionization potentials

J. W. Lim, K. Mimura, M. Isshiki

Division of Inorganic Material Research

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

2 Citations (Scopus)

Abstract

Cu films were deposited on Si(100) substrates by applying a negative substrate bias voltage using the non-mass-separated ion beam deposition method. Glow-discharge mass spectrometry was used to determine the impurity concentrations of the deposited Cu films and the 6N Cu target. It was found that the Cu film deposited at the substrate bias voltage of -50 V showed lower impurity contents than the Cu film deposited without the substrate bias voltage, although both the Cu films were contaminated during the deposition. The purification effect might result from the following reasons: (i) the Penning ionization and an ionization mechanism proposed in the present study, (ii) a difference in the kinetic energy of accelerated Cu⁺ ions toward the substrate with/without the negative substrate bias voltage.

Original language	English
Pages (from-to)	1105-1107
Number of pages	3
Journal	Applied Physics A: Materials Science and Processing
Volume	80
Issue number	5
DOIs	https://doi.org/10.1007/s00339-003-2373-4
Publication status	Published - 2005 Feb 1

ASJC Scopus subject areas

Chemistry(all)
Materials Science(all)

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abstract = "Cu films were deposited on Si(100) substrates by applying a negative substrate bias voltage using the non-mass-separated ion beam deposition method. Glow-discharge mass spectrometry was used to determine the impurity concentrations of the deposited Cu films and the 6N Cu target. It was found that the Cu film deposited at the substrate bias voltage of -50 V showed lower impurity contents than the Cu film deposited without the substrate bias voltage, although both the Cu films were contaminated during the deposition. The purification effect might result from the following reasons: (i) the Penning ionization and an ionization mechanism proposed in the present study, (ii) a difference in the kinetic energy of accelerated Cu+ ions toward the substrate with/without the negative substrate bias voltage.",

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T2 - Relation between negative substrate bias voltage and impurity ionization potentials

AU - Lim, J. W.

AU - Mimura, K.

AU - Isshiki, M.

PY - 2005/2/1

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N2 - Cu films were deposited on Si(100) substrates by applying a negative substrate bias voltage using the non-mass-separated ion beam deposition method. Glow-discharge mass spectrometry was used to determine the impurity concentrations of the deposited Cu films and the 6N Cu target. It was found that the Cu film deposited at the substrate bias voltage of -50 V showed lower impurity contents than the Cu film deposited without the substrate bias voltage, although both the Cu films were contaminated during the deposition. The purification effect might result from the following reasons: (i) the Penning ionization and an ionization mechanism proposed in the present study, (ii) a difference in the kinetic energy of accelerated Cu+ ions toward the substrate with/without the negative substrate bias voltage.

AB - Cu films were deposited on Si(100) substrates by applying a negative substrate bias voltage using the non-mass-separated ion beam deposition method. Glow-discharge mass spectrometry was used to determine the impurity concentrations of the deposited Cu films and the 6N Cu target. It was found that the Cu film deposited at the substrate bias voltage of -50 V showed lower impurity contents than the Cu film deposited without the substrate bias voltage, although both the Cu films were contaminated during the deposition. The purification effect might result from the following reasons: (i) the Penning ionization and an ionization mechanism proposed in the present study, (ii) a difference in the kinetic energy of accelerated Cu+ ions toward the substrate with/without the negative substrate bias voltage.

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Precise impurity analysis of Cu films by GDMS: Relation between negative substrate bias voltage and impurity ionization potentials

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