Characterisation of nitride thin films by electron backscatter diffraction and electron channelling contrast imaging

C. Trager-Cowan; F. Sweeney; A. Winkelmann; Angus J. Wilkinson; P. W. Trimby; Austin Day; A. Gholinia; N. H. Schmidt; P. J. Parbrook; I. M. Watson

doi:10.1179/174328406X130957

Characterisation of nitride thin films by electron backscatter diffraction and electron channelling contrast imaging

C. Trager-Cowan^*, F. Sweeney, A. Winkelmann, Angus J. Wilkinson, P. W. Trimby, Austin Day, A. Gholinia, N. H. Schmidt, P. J. Parbrook, I. M. Watson

^*Corresponding author for this work

Materials Engineering

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

Abstract

In the present paper the authors describe the use of electron backscatter diffraction (EBSD) mapping and electron channelling contrast imaging (in the scanning electron microscope) to study tilt, strain, atomic steps and dislocations in epitaxial GaN thin films. Results from epitaxial GaN thin films and from a just coalesced epitaxial laterally overgrown GaN thin film are shown. From the results it is deduced that EBSD may be used to measure orientation changes of the order of 0-02° and strain changes of order 2 × 10 ^-4 in GaN thin films. It is also demonstrated that channelling contrast in electron channelling contrast images may be used to image tilt, atomic steps and threading dislocations in GaN thin films. In addition the authors will consider the results of the first many-beam dynamical simulations of EBSD patterns from GaN thin films, in which the intensity distributions in the experimental patterns are accurately reproduced.

Original language	English
Pages (from-to)	1352-1358
Number of pages	7
Journal	Materials Science and Technology
Volume	22
Issue number	11
DOIs	https://doi.org/10.1179/174328406X130957
Publication status	Published - 1 Nov 2006

Keywords

Channelling
Diffraction
Dislocations
EBSD
Forescatter
Nitrides
SEM
Tilt

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Trager-Cowan, C., Sweeney, F., Winkelmann, A., Wilkinson, A. J., Trimby, P. W., Day, A., Gholinia, A., Schmidt, N. H., Parbrook, P. J., & Watson, I. M. (2006). Characterisation of nitride thin films by electron backscatter diffraction and electron channelling contrast imaging. Materials Science and Technology, 22(11), 1352-1358. https://doi.org/10.1179/174328406X130957

@article{8a914ed42b0e4cac84d54b31eee11c28,

title = "Characterisation of nitride thin films by electron backscatter diffraction and electron channelling contrast imaging",

abstract = "In the present paper the authors describe the use of electron backscatter diffraction (EBSD) mapping and electron channelling contrast imaging (in the scanning electron microscope) to study tilt, strain, atomic steps and dislocations in epitaxial GaN thin films. Results from epitaxial GaN thin films and from a just coalesced epitaxial laterally overgrown GaN thin film are shown. From the results it is deduced that EBSD may be used to measure orientation changes of the order of 0-02° and strain changes of order 2 × 10 -4 in GaN thin films. It is also demonstrated that channelling contrast in electron channelling contrast images may be used to image tilt, atomic steps and threading dislocations in GaN thin films. In addition the authors will consider the results of the first many-beam dynamical simulations of EBSD patterns from GaN thin films, in which the intensity distributions in the experimental patterns are accurately reproduced.",

keywords = "Channelling, Diffraction, Dislocations, EBSD, Forescatter, Nitrides, SEM, Tilt",

author = "C. Trager-Cowan and F. Sweeney and A. Winkelmann and Wilkinson, {Angus J.} and Trimby, {P. W.} and Austin Day and A. Gholinia and Schmidt, {N. H.} and Parbrook, {P. J.} and Watson, {I. M.}",

year = "2006",

month = nov,

day = "1",

doi = "10.1179/174328406X130957",

language = "English",

volume = "22",

pages = "1352--1358",

journal = "Materials Science and Technology",

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TY - JOUR

T1 - Characterisation of nitride thin films by electron backscatter diffraction and electron channelling contrast imaging

AU - Trager-Cowan, C.

AU - Sweeney, F.

AU - Winkelmann, A.

AU - Wilkinson, Angus J.

AU - Trimby, P. W.

AU - Day, Austin

AU - Gholinia, A.

AU - Schmidt, N. H.

AU - Parbrook, P. J.

AU - Watson, I. M.

PY - 2006/11/1

Y1 - 2006/11/1

N2 - In the present paper the authors describe the use of electron backscatter diffraction (EBSD) mapping and electron channelling contrast imaging (in the scanning electron microscope) to study tilt, strain, atomic steps and dislocations in epitaxial GaN thin films. Results from epitaxial GaN thin films and from a just coalesced epitaxial laterally overgrown GaN thin film are shown. From the results it is deduced that EBSD may be used to measure orientation changes of the order of 0-02° and strain changes of order 2 × 10 -4 in GaN thin films. It is also demonstrated that channelling contrast in electron channelling contrast images may be used to image tilt, atomic steps and threading dislocations in GaN thin films. In addition the authors will consider the results of the first many-beam dynamical simulations of EBSD patterns from GaN thin films, in which the intensity distributions in the experimental patterns are accurately reproduced.

AB - In the present paper the authors describe the use of electron backscatter diffraction (EBSD) mapping and electron channelling contrast imaging (in the scanning electron microscope) to study tilt, strain, atomic steps and dislocations in epitaxial GaN thin films. Results from epitaxial GaN thin films and from a just coalesced epitaxial laterally overgrown GaN thin film are shown. From the results it is deduced that EBSD may be used to measure orientation changes of the order of 0-02° and strain changes of order 2 × 10 -4 in GaN thin films. It is also demonstrated that channelling contrast in electron channelling contrast images may be used to image tilt, atomic steps and threading dislocations in GaN thin films. In addition the authors will consider the results of the first many-beam dynamical simulations of EBSD patterns from GaN thin films, in which the intensity distributions in the experimental patterns are accurately reproduced.

KW - Channelling

KW - Diffraction

KW - Dislocations

KW - EBSD

KW - Forescatter

KW - Nitrides

KW - SEM

KW - Tilt

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DO - 10.1179/174328406X130957

M3 - Article

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SN - 0267-0836

VL - 22

SP - 1352

EP - 1358

JO - Materials Science and Technology

JF - Materials Science and Technology

IS - 11

ER -

Characterisation of nitride thin films by electron backscatter diffraction and electron channelling contrast imaging

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