English

Morphological analysis of 3d atom probe data using Minkowski functionals

Materials Science 2020-01-30 v1 Computational Physics

Abstract

We present a morphological analysis of atom probe data of nanoscale microstructural features, using methods developed by the astrophysics community to describe the shape of superclusters of galaxies. We describe second-phase regions using Minkowski functionals, representing the regions' volume, surface area, mean curvature and Euler characteristic. The alloy data in this work show microstructures that can be described as sponge-like, filament-like, plate-like, and sphere-like at different concentration levels, and we find quantitative measurements of these features. To reduce user decision-making in constructing isosurfaces and to enhance the accuracy of the analysis a maximum likelihood based denoising filter was developed. We show that this filter performs significantly better than a simple Gaussian smoothing filter. We also interpolate the data using natural cubic splines, to refine voxel sizes and to refine the surface. We demonstrate that it is possible to find a mathematically well-defined, quantitative description of microstructure from atomistic datasets, to sub-voxel resolution, without user-tuneable parameters.

Keywords

Cite

@article{arxiv.2001.10762,
  title  = {Morphological analysis of 3d atom probe data using Minkowski functionals},
  author = {Daniel R Mason and Andrew J London},
  journal= {arXiv preprint arXiv:2001.10762},
  year   = {2020}
}

Comments

Author Accepted Manuscript Paper Accepted for publication in Ultramicroscopy

R2 v1 2026-06-23T13:23:48.792Z