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Optimizing experimental parameters for the projection requirement in HAADF-STEM tomography

•The extent to which HAADF-STEM meets the projection requirement has been studied.•Multislice simulations used to model beam propagation and study signal linearity.•Propagation in crystalline and amorphous materials considered.•Optimal experimental set-up for the projection requirement is discussed....

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Bibliographic Details
Published in:Ultramicroscopy 2017-06, Vol.177, p.84-90
Main Authors: Aveyard, R., Zhong, Z., Batenburg, K.J., Rieger, B.
Format: Article
Language:English
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Summary:•The extent to which HAADF-STEM meets the projection requirement has been studied.•Multislice simulations used to model beam propagation and study signal linearity.•Propagation in crystalline and amorphous materials considered.•Optimal experimental set-up for the projection requirement is discussed. Tomographic reconstruction algorithms offer a means by which a tilt-series of transmission images can be combined to yield a three dimensional model of the specimen. Conventional reconstruction algorithms assume that the measured signal is a linear projection of some property, typically the density, of the material. Here we report the use of multislice simulations to investigate the extent to which this assumption is met in HAADF-STEM imaging. The use of simulations allows for a systematic survey of a range of materials and microscope parameters to inform optimal experimental design. Using this approach it is demonstrated that the imaging of amorphous materials is in good agreement with the projection assumption in most cases. Images of crystalline specimens taken along zone-axes are found to be poorly suited for conventional linear reconstruction algorithms due to channelling effects which produce enhanced intensities compared with off-axis images, and poor compliance with the projection requirement. Off-axis images are found to be suitable for reconstruction, though they do not strictly meet the linearity requirement in most cases. It is demonstrated that microscope parameters can be selected to yield improved compliance with the projection requirement.
ISSN:0304-3991
1879-2723
DOI:10.1016/j.ultramic.2017.03.009