Add to ORKGUnderstanding oxide-metal interfaces is crucial to the advancement of materials and components for many industries, most notably for semiconductor devices and power generation. Atom probe tomography provides three-dimensional, atomic scale information about chemical composition, making it an excellent technique for interface analysis. However, difficulties arise when analyzing interfacial regions due to trajectory aberrations, such as local magnification, and reconstruction artifacts. Correlative microscopy and field simulation techniques have revealed that nonuniform evolution of the tip geometry, caused by heterogeneous field evaporation, is partly responsible for these artifacts. Here we attempt to understand these trajectory artifacts t...
Atom Probe Tomography (APT) analysis of specimens embedded with metal oxide/metal leads to nonintuit...
The ideal picture of a near-perfect 3D microscope often presented regarding Atom Probe Tomography fa...
International audienceThe ideal picture of a near-perfect 3D microscope often presented regarding At...
In general, atom probe reconstruction algorithms assume a constant evaporation field across the surf...
Atom probe is a nanoscale technique for creating three-dimensional spatially and chemically resolved...
International audienceAtom Probe Tomography (APT) analysis of specimens embedded with metal oxide/me...
International audienceAn analytical model describing the field evaporation dynamics of a tip made of...
Precise interpretation of three-dimensional atom probe tomography (3D-APT) data is necessary to reco...
The rapid growth of the semiconductor industry over the past several decades was enabled by scaling ...
International audienceAtom probe tomography (APT) has been successfully used in materials science fo...
Since Atom Probe Tomography reconstruction is based on ion back projection onto the emitter surface,...
Owing to their giant magnetoresistance properties, multilayer thin-film materials are widely used in...
Atom Probe Tomography (APT) analysis of specimens embedded with metal oxide/metal leads to nonintuit...
The ideal picture of a near-perfect 3D microscope often presented regarding Atom Probe Tomography fa...
International audienceThe ideal picture of a near-perfect 3D microscope often presented regarding At...
In general, atom probe reconstruction algorithms assume a constant evaporation field across the surf...
Atom probe is a nanoscale technique for creating three-dimensional spatially and chemically resolved...
International audienceAtom Probe Tomography (APT) analysis of specimens embedded with metal oxide/me...
International audienceAn analytical model describing the field evaporation dynamics of a tip made of...
Precise interpretation of three-dimensional atom probe tomography (3D-APT) data is necessary to reco...
The rapid growth of the semiconductor industry over the past several decades was enabled by scaling ...
International audienceAtom probe tomography (APT) has been successfully used in materials science fo...
Since Atom Probe Tomography reconstruction is based on ion back projection onto the emitter surface,...
Owing to their giant magnetoresistance properties, multilayer thin-film materials are widely used in...
Atom Probe Tomography (APT) analysis of specimens embedded with metal oxide/metal leads to nonintuit...
The ideal picture of a near-perfect 3D microscope often presented regarding Atom Probe Tomography fa...
International audienceThe ideal picture of a near-perfect 3D microscope often presented regarding At...