The development of strong-scaling computational tools for high-throughput methods with an open-source code and transparent metadata standards has successfully transformed many computational materials science communities. While such tools are mature already in the condensed-matter physics community, the situation is still very different for many experimentalists. Atom probe tomography (APT) is one example. This microscopy and microanalysis technique has matured into a versatile nano-analytical characterization tool with applications that range from materials science to geology and possibly beyond. Here, data science tools are required for extracting chemo-structural spatial correlations from the reconstructed point cloud. For APT and other h...
A large number of atom probe tomography (APT) datasets from past experiments were collected into a d...
The application of atom probe tomography (APT) within the Earth and planetary sciences has produced ...
International audienceAtom probe tomography (APT) is often introduced as providing "atomic-scale" ma...
This repository contains supplemental results to the paper "On Strong Scaling and Open Source Tools ...
Whilst atom probe tomography (APT) is a powerful technique with the capacity to gather information c...
Atom probe tomography, and related methods, probe the composition and the three-dimensional architec...
Atom Probe Tomography (APT) resolves atoms in real space and detects their chemical identity. In the...
Atom probe tomography (APT) is an atomic scale materials characterisation technique. Utilising high-...
Because atom probe tomography (APT) provides three-dimensional reconstructions of small volumes by r...
International audienceAtom probe tomography (APT) has been successfully used in materials science fo...
Nanoscale atomic clusters in atom probe tomographic data are not universally defined but instead are...
Much effort has been devoted to the development of computational techniques in atom probe microscopy...
International audienceWe present a review of spatial point processes as statistical models that we h...
One of the main capabilities of atom probe tomography (APT) is the ability to not only identify but ...
A large number of atom probe tomography (APT) datasets from past experiments were collected into a d...
The application of atom probe tomography (APT) within the Earth and planetary sciences has produced ...
International audienceAtom probe tomography (APT) is often introduced as providing "atomic-scale" ma...
This repository contains supplemental results to the paper "On Strong Scaling and Open Source Tools ...
Whilst atom probe tomography (APT) is a powerful technique with the capacity to gather information c...
Atom probe tomography, and related methods, probe the composition and the three-dimensional architec...
Atom Probe Tomography (APT) resolves atoms in real space and detects their chemical identity. In the...
Atom probe tomography (APT) is an atomic scale materials characterisation technique. Utilising high-...
Because atom probe tomography (APT) provides three-dimensional reconstructions of small volumes by r...
International audienceAtom probe tomography (APT) has been successfully used in materials science fo...
Nanoscale atomic clusters in atom probe tomographic data are not universally defined but instead are...
Much effort has been devoted to the development of computational techniques in atom probe microscopy...
International audienceWe present a review of spatial point processes as statistical models that we h...
One of the main capabilities of atom probe tomography (APT) is the ability to not only identify but ...
A large number of atom probe tomography (APT) datasets from past experiments were collected into a d...
The application of atom probe tomography (APT) within the Earth and planetary sciences has produced ...
International audienceAtom probe tomography (APT) is often introduced as providing "atomic-scale" ma...