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Literature DB >> 26094205

Artefacts in geometric phase analysis of compound materials.

Jonathan J P Peters¹, Richard Beanland², Marin Alexe², John W Cockburn³, Dmitry G Revin³, Shiyong Y Zhang³, Ana M Sanchez⁴.

Abstract

The geometric phase analysis (GPA) algorithm is known as a robust and straightforward technique that can be used to measure lattice strains in high resolution transmission electron microscope (TEM) images. It is also attractive for analysis of aberration-corrected scanning TEM (ac-STEM) images that resolve every atom column, since it uses Fourier transforms and does not require real-space peak detection and assignment to appropriate sublattices. Here it is demonstrated that, in ac-STEM images of compound materials with compositionally distinct atom columns, an additional geometric phase is present in the Fourier transform. If the structure changes from one area to another in the image (e.g. across an interface), the change in this additional phase will appear as a strain in conventional GPA, even if there is no lattice strain. Strategies to avoid this pitfall are outlined.

Keywords: Geometric phase analysis (GPA); Interfaces; Scanning transmission electron microscopy (STEM); Strain

Year: 2015 PMID： 26094205 DOI： 10.1016/j.ultramic.2015.05.020

Source DB: PubMed Journal: Ultramicroscopy ISSN： 0304-3991 Impact factor: 2.689

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Cited

6 in total

1. Direct investigation of the atomic structure and decreased magnetism of antiphase boundaries in garnet.

Authors: Kun Xu; Ting Lin; Yiheng Rao; Ziqiang Wang; Qinghui Yang; Huaiwu Zhang; Jing Zhu
Journal: Nat Commun Date: 2022-06-09 Impact factor: 17.694

2. Atomap: a new software tool for the automated analysis of atomic resolution images using two-dimensional Gaussian fitting.

Authors: Magnus Nord; Per Erik Vullum; Ian MacLaren; Thomas Tybell; Randi Holmestad
Journal: Adv Struct Chem Imaging Date: 2017-02-13

Artefacts in geometric phase analysis of compound materials.

1. Direct investigation of the atomic structure and decreased magnetism of antiphase boundaries in garnet.

2. Atomap: a new software tool for the automated analysis of atomic resolution images using two-dimensional Gaussian fitting.

3. Quantitative strain analysis of InAs/GaAs quantum dot materials.

4. A new method to reliably determine elastic strain of various crystal structures from atomic-resolution images.

5. Massive transformation in FeNi nanopowders with nanotwin-assisted nitridation.

6. Double-Bilayer polar nanoregions and Mn antisites in (Ca, Sr)₃Mn₂O₇.

Artefacts in geometric phase analysis of compound materials.

1. Direct investigation of the atomic structure and decreased magnetism of antiphase boundaries in garnet.

2. Atomap: a new software tool for the automated analysis of atomic resolution images using two-dimensional Gaussian fitting.

3. Quantitative strain analysis of InAs/GaAs quantum dot materials.

4. A new method to reliably determine elastic strain of various crystal structures from atomic-resolution images.

5. Massive transformation in FeNi nanopowders with nanotwin-assisted nitridation.

6. Double-Bilayer polar nanoregions and Mn antisites in (Ca, Sr)3Mn2O7.

6. Double-Bilayer polar nanoregions and Mn antisites in (Ca, Sr)₃Mn₂O₇.