Add to ORKGReconstructions in atom probe tomography (APT) are plagued by image distortions arising from changes in the specimen geometry throughout the experiment. The simplistic and inaccurate geometrical assumptions that underpin the conventional reconstruction approach account for much of this distortion. Here we extend our previous work of modelling APT experiments using level set methods to three dimensions (3D). This model is used to generate and subsequently reconstruct synthetic APT datasets from electron tomography (ET) of an $Al\textit{-}Mg\textit{-}Si$ multiphase specimen. Finally, we apply our model to the reconstruction of an experimental field-effect transistor (finFET) dataset. This model-driven reconstruction successfully reduces densi...
Progress in the reconstruction for atom probe tomography has been limited since the first implementa...
Atom probe tomography (APT) is an atomic scale materials characterisation technique. Utilising high-...
International audienceIn this review we present an overview of the current atom probe tomography spa...
Traditional reconstruction protocols in atom probe tomography frequently feature image distortions f...
Current imaging algorithms in atom probe tomography (APT) assume a simple geometric model for the tr...
International audienceAmong all the microscopy or tomographic instruments, atom probe tomography occ...
Modern wide field-of-view atom probes permit observation of a wide range of crystallographic feature...
Key to the integrity of atom probe microanalysis, the tomographic reconstruction is built atom by at...
The application of wide field-of-view detection systems to atom probe experiments emphasizes the imp...
International audienceAtom probe tomography (APT) has been successfully used in materials science fo...
International audienceAbstract Atom probe tomography (APT) is a powerful three-dimensional nanoanaly...
This work describes extensions to existing level-set algorithms developed for application within the...
Atom probe tomography is an accurate analytical and imaging technique which can reconstruct the comp...
Progress in the reconstruction for atom probe tomography has been limited since the first implementa...
Atom probe tomography (APT) is an atomic scale materials characterisation technique. Utilising high-...
International audienceIn this review we present an overview of the current atom probe tomography spa...
Traditional reconstruction protocols in atom probe tomography frequently feature image distortions f...
Current imaging algorithms in atom probe tomography (APT) assume a simple geometric model for the tr...
International audienceAmong all the microscopy or tomographic instruments, atom probe tomography occ...
Modern wide field-of-view atom probes permit observation of a wide range of crystallographic feature...
Key to the integrity of atom probe microanalysis, the tomographic reconstruction is built atom by at...
The application of wide field-of-view detection systems to atom probe experiments emphasizes the imp...
International audienceAtom probe tomography (APT) has been successfully used in materials science fo...
International audienceAbstract Atom probe tomography (APT) is a powerful three-dimensional nanoanaly...
This work describes extensions to existing level-set algorithms developed for application within the...
Atom probe tomography is an accurate analytical and imaging technique which can reconstruct the comp...
Progress in the reconstruction for atom probe tomography has been limited since the first implementa...
Atom probe tomography (APT) is an atomic scale materials characterisation technique. Utilising high-...
International audienceIn this review we present an overview of the current atom probe tomography spa...