Relation between Auger enhancements and wave field of high energy electrons for planar surface bilayer of InP(111)A-(1 1)

Yoshimi Horio; Junji Yuhara; Yuji Takakuwa

doi:10.35848/1347-4065/ab9c74

Relation between Auger enhancements and wave field of high energy electrons for planar surface bilayer of InP(111)A-(1 1)

Yoshimi Horio, Junji Yuhara, Yuji Takakuwa

Micro System Integration Center (μSIC)

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

Abstract

The wave field of reflection high energy electron diffraction has been calculated for the compressed surface bilayer of InP(111)A-(11). At azimuth, the wave field behavior on In and P atoms in the first bilayer is similar because both atomic positions are close to each other. Depending on the glancing angle, wave field intensities have two prominent peaks under the surface wave resonance condition. Similarly, Auger electron intensities of In-MNN and P-LMM increase with wave field behavior. It has been observed for the first time that the correlation between Auger intensity and wave field intensity exists for such a planar surface bilayer.

Original language	English
Article number	070905
Journal	Japanese journal of applied physics
Volume	59
Issue number	7
DOIs	https://doi.org/10.35848/1347-4065/ab9c74
Publication status	Published - 2020 Jul 1

ASJC Scopus subject areas

Engineering(all)
Physics and Astronomy(all)

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title = "Relation between Auger enhancements and wave field of high energy electrons for planar surface bilayer of InP(111)A-(1 1)",

abstract = "The wave field of reflection high energy electron diffraction has been calculated for the compressed surface bilayer of InP(111)A-(11). At azimuth, the wave field behavior on In and P atoms in the first bilayer is similar because both atomic positions are close to each other. Depending on the glancing angle, wave field intensities have two prominent peaks under the surface wave resonance condition. Similarly, Auger electron intensities of In-MNN and P-LMM increase with wave field behavior. It has been observed for the first time that the correlation between Auger intensity and wave field intensity exists for such a planar surface bilayer.",

author = "Yoshimi Horio and Junji Yuhara and Yuji Takakuwa",

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AU - Takakuwa, Yuji

PY - 2020/7/1

Y1 - 2020/7/1

N2 - The wave field of reflection high energy electron diffraction has been calculated for the compressed surface bilayer of InP(111)A-(11). At azimuth, the wave field behavior on In and P atoms in the first bilayer is similar because both atomic positions are close to each other. Depending on the glancing angle, wave field intensities have two prominent peaks under the surface wave resonance condition. Similarly, Auger electron intensities of In-MNN and P-LMM increase with wave field behavior. It has been observed for the first time that the correlation between Auger intensity and wave field intensity exists for such a planar surface bilayer.

AB - The wave field of reflection high energy electron diffraction has been calculated for the compressed surface bilayer of InP(111)A-(11). At azimuth, the wave field behavior on In and P atoms in the first bilayer is similar because both atomic positions are close to each other. Depending on the glancing angle, wave field intensities have two prominent peaks under the surface wave resonance condition. Similarly, Auger electron intensities of In-MNN and P-LMM increase with wave field behavior. It has been observed for the first time that the correlation between Auger intensity and wave field intensity exists for such a planar surface bilayer.

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Relation between Auger enhancements and wave field of high energy electrons for planar surface bilayer of InP(111)A-(1 1)

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