Al L core edge fine structure in Al, AlN and α-Al2O3: A comparison of microelectron energy loss spectra with theory

X. J. Fan; J. S. Bow; Ray Carpenter; S. H. Lin; Shu Fen Tian

Al L core edge fine structure in Al, AlN and α-Al₂O₃: A comparison of microelectron energy loss spectra with theory

X. J. Fan, J. S. Bow, Ray Carpenter, S. H. Lin, Shu Fen Tian

Chemical Engineering

Research output: Contribution to journal › Review article › peer-review

Abstract

The Al L near-edge fine structures of aluminum and its compounds with nitrogen and oxygen are studied using electron energy loss microspectroscopy in a transmission electron microscope. These edges are normalized to the same scattering cross section per Al atom per electronvolt. The cross section is calculated by using the Born approximation. The contributions to the cross section are from the valence shell crystal states obtained by using the extended Hückel band calculation and the ionization states obtained by using the electron gas model. The chemical effects in the ionization region are taken into account by including the contributions from the elastic backscattering of outgoing plane waves by the atoms that neighbor the excited atoms. The results by theoretical calculation agree semiquantitatively with experimental results.

Original language	English (US)
Pages (from-to)	214-226
Number of pages	13
Journal	Chinese Physics
Volume	7
Issue number	3
State	Published - Mar 1998

ASJC Scopus subject areas

Physics and Astronomy(all)

Cite this

@article{bbb61ef9621f474c8e3b2fa5ac9c3989,

title = "Al L core edge fine structure in Al, AlN and α-Al2O3: A comparison of microelectron energy loss spectra with theory",

abstract = "The Al L near-edge fine structures of aluminum and its compounds with nitrogen and oxygen are studied using electron energy loss microspectroscopy in a transmission electron microscope. These edges are normalized to the same scattering cross section per Al atom per electronvolt. The cross section is calculated by using the Born approximation. The contributions to the cross section are from the valence shell crystal states obtained by using the extended H{\"u}ckel band calculation and the ionization states obtained by using the electron gas model. The chemical effects in the ionization region are taken into account by including the contributions from the elastic backscattering of outgoing plane waves by the atoms that neighbor the excited atoms. The results by theoretical calculation agree semiquantitatively with experimental results.",

author = "Fan, {X. J.} and Bow, {J. S.} and Ray Carpenter and Lin, {S. H.} and Tian, {Shu Fen}",

year = "1998",

month = mar,

language = "English (US)",

volume = "7",

pages = "214--226",

journal = "Chinese Physics",

issn = "1009-1963",

publisher = "IOP Publishing Ltd.",

number = "3",

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TY - JOUR

T1 - Al L core edge fine structure in Al, AlN and α-Al2O3

T2 - A comparison of microelectron energy loss spectra with theory

AU - Fan, X. J.

AU - Bow, J. S.

AU - Carpenter, Ray

AU - Lin, S. H.

AU - Tian, Shu Fen

PY - 1998/3

Y1 - 1998/3

N2 - The Al L near-edge fine structures of aluminum and its compounds with nitrogen and oxygen are studied using electron energy loss microspectroscopy in a transmission electron microscope. These edges are normalized to the same scattering cross section per Al atom per electronvolt. The cross section is calculated by using the Born approximation. The contributions to the cross section are from the valence shell crystal states obtained by using the extended Hückel band calculation and the ionization states obtained by using the electron gas model. The chemical effects in the ionization region are taken into account by including the contributions from the elastic backscattering of outgoing plane waves by the atoms that neighbor the excited atoms. The results by theoretical calculation agree semiquantitatively with experimental results.

AB - The Al L near-edge fine structures of aluminum and its compounds with nitrogen and oxygen are studied using electron energy loss microspectroscopy in a transmission electron microscope. These edges are normalized to the same scattering cross section per Al atom per electronvolt. The cross section is calculated by using the Born approximation. The contributions to the cross section are from the valence shell crystal states obtained by using the extended Hückel band calculation and the ionization states obtained by using the electron gas model. The chemical effects in the ionization region are taken into account by including the contributions from the elastic backscattering of outgoing plane waves by the atoms that neighbor the excited atoms. The results by theoretical calculation agree semiquantitatively with experimental results.

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UR - http://www.scopus.com/inward/citedby.url?scp=11544338525&partnerID=8YFLogxK

M3 - Review article

AN - SCOPUS:11544338525

SN - 1009-1963

VL - 7

SP - 214

EP - 226

JO - Chinese Physics

JF - Chinese Physics

IS - 3

ER -

Al L core edge fine structure in Al, AlN and α-Al₂O₃: A comparison of microelectron energy loss spectra with theory

Abstract

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