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Preferential Evaporation in Atom Probe Tomography: An Analytical Approach

Constantinos Hatzoglou, Solène Rouland, Bertrand Radiguet, Auriane Etienne, Gérald Da Costa, Xavier Sauvage, Philippe Pareige, François Vurpillot

2020Microscopy and Microanalysis21 citationsDOIOpen Access PDF

Abstract

Atom probe tomography (APT) analysis conditions play a major role in the composition measurement accuracy. Preferential evaporation (PE), which significantly biases the apparent composition, more than other well-known phenomena in APT, is strongly connected to those analysis conditions. One way to optimize them, in order to have the most accurate measurement, is therefore to be able to predict and then to estimate their influence on the apparent composition. An analytical model is proposed to quantify the PE. This model is applied to three different alloys such as NiCu, FeCrNi, and FeCu. The model explains not only the analysis temperature dependence, as in an already existing model, but also the dependence to the pulse fraction and the pulse frequency. Moreover, the model can also provide an energetic constant directly linked to the energy barrier required to field evaporate atom from the sample surface.

Topics & Concepts

Atom probeEvaporationAtom (system on chip)Materials sciencePulse (music)Constant (computer programming)Field (mathematics)Fraction (chemistry)Atomic physicsAnalytical Chemistry (journal)Energy (signal processing)ThermodynamicsSample (material)Time constantMolecular physicsComputational physicsCharacterization (materials science)Order (exchange)ChemistryAdvanced Materials Characterization TechniquesTitanium Alloys Microstructure and PropertiesHydrogen embrittlement and corrosion behaviors in metals
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