AES observation of electron-beam-induced layer formation on ZnS in the presence of water vapor

Akira Okada; Takao Oka

doi:10.1063/1.325846

AES observation of electron-beam-induced layer formation on ZnS in the presence of water vapor

Akira Okada, Takao Oka

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

2 Citations (Scopus)

Abstract

Electron-beam-induced formation of a reacted layer was observed on a ZnS (110) cleaved surface. The layer was formed in the presence of 6.7×10 ^-6 Pa of water vapor. The layer was studied by Auger electron spectroscopy (AES) using an electron-beam energy and current density of 3 keV and 1.4×10^-2 A/cm², respectively. An approximately 200-Å-thick reacted layer was grown after 40 min exposure to the electron beam. Oxygen diffusion into the bulk during the formation was found. The oxygen diffused layer was twice as thick as the initially formed layer. The zinc concentration beneath the layer was 3% less than that of the original cleaved surface. The disappearance of characteristic energy loss structures indicated the reduction of ZnS bonds in the layer. The formed layer may play an important role in the surface degradation process of the ZnS phosphors.

Original language	English
Pages (from-to)	6934-6937
Number of pages	4
Journal	Journal of Applied Physics
Volume	50
Issue number	11
DOIs	https://doi.org/10.1063/1.325846
Publication status	Published - Dec 1 1979
Externally published	Yes

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1063/1.325846

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title = "AES observation of electron-beam-induced layer formation on ZnS in the presence of water vapor",

abstract = "Electron-beam-induced formation of a reacted layer was observed on a ZnS (110) cleaved surface. The layer was formed in the presence of 6.7×10 -6 Pa of water vapor. The layer was studied by Auger electron spectroscopy (AES) using an electron-beam energy and current density of 3 keV and 1.4×10-2 A/cm2, respectively. An approximately 200-{\AA}-thick reacted layer was grown after 40 min exposure to the electron beam. Oxygen diffusion into the bulk during the formation was found. The oxygen diffused layer was twice as thick as the initially formed layer. The zinc concentration beneath the layer was 3% less than that of the original cleaved surface. The disappearance of characteristic energy loss structures indicated the reduction of ZnS bonds in the layer. The formed layer may play an important role in the surface degradation process of the ZnS phosphors.",

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AU - Okada, Akira

AU - Oka, Takao

PY - 1979/12/1

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N2 - Electron-beam-induced formation of a reacted layer was observed on a ZnS (110) cleaved surface. The layer was formed in the presence of 6.7×10 -6 Pa of water vapor. The layer was studied by Auger electron spectroscopy (AES) using an electron-beam energy and current density of 3 keV and 1.4×10-2 A/cm2, respectively. An approximately 200-Å-thick reacted layer was grown after 40 min exposure to the electron beam. Oxygen diffusion into the bulk during the formation was found. The oxygen diffused layer was twice as thick as the initially formed layer. The zinc concentration beneath the layer was 3% less than that of the original cleaved surface. The disappearance of characteristic energy loss structures indicated the reduction of ZnS bonds in the layer. The formed layer may play an important role in the surface degradation process of the ZnS phosphors.

AB - Electron-beam-induced formation of a reacted layer was observed on a ZnS (110) cleaved surface. The layer was formed in the presence of 6.7×10 -6 Pa of water vapor. The layer was studied by Auger electron spectroscopy (AES) using an electron-beam energy and current density of 3 keV and 1.4×10-2 A/cm2, respectively. An approximately 200-Å-thick reacted layer was grown after 40 min exposure to the electron beam. Oxygen diffusion into the bulk during the formation was found. The oxygen diffused layer was twice as thick as the initially formed layer. The zinc concentration beneath the layer was 3% less than that of the original cleaved surface. The disappearance of characteristic energy loss structures indicated the reduction of ZnS bonds in the layer. The formed layer may play an important role in the surface degradation process of the ZnS phosphors.

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AES observation of electron-beam-induced layer formation on ZnS in the presence of water vapor

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