Per Harald Ninive scite author profile

Annular dark-field scanning transmission electron microscopy is a powerful tool to study crystal defects at the atomic scale but historically single slow-scanned frames have been plagued by low-frequency scanning-distortions prohibiting accurate strain mapping at atomic resolution. Recently, multi-frame acquisition approaches combined with post-processing have demonstrated significant improvements in strain precision, but the optimum number of frames to record has not been explored. Here we use a non-rigid image registration procedure before applying established strain mapping methods. We determine how, for a fixed total electron-budget, the available dose should be fractionated for maximum strain mapping precision. We find that reductions in scanning-artefacts of more than 70% are achievable with image series of 20-30 frames in length. For our setup, series longer than 30 frames showed little further improvement. As an application, the strain field around an aluminium alloy precipitate was studied, from which our optimised approach yields data whos strain accuracy is verified using density functional theory.

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Density Functional Study of the β″ Phase in Al-Mg-Si Alloys

Ninive

Løvvik

Strandlie

2014

Metall Mater Trans A

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First-principles study of tensile and shear strength of Fe-Al andα-AlFeSi intermetallic compound interfaces

Friis

Ninive

Marthinsen

et al. 2021

Computational Materials Science

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DFT calculations based insight into bonding character and strength of Fe2Al5 and Fe4Al13 intermetallics at Al-Fe joints

Friis

Ninive

Marthinsen

et al. 2018

Procedia Manufacturing

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