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First-Principles Calculation of the Evaporation Field and Roll-up Effect of M (M = Fe, Cu, Si, and Mn) on the Fe (001) and Fe Step Structure

Toshiharu Ohnuma

2021Microscopy and Microanalysis10 citationsDOI

Abstract

First-principles calculations were performed on the evaporation field of Fe, Cu, Mn, and Si in Fe (001) and on the evaporation field and roll-up effect of Fe, Cu, and Mn in the Fe (001) step structure. The larger the evaporation barrier energy tendency, at an electric field of 0 V/nm (absorption energy), the larger was the evaporation field. Electric field evaporation calculation results indicate that the order in which the electric field is easily evaporated is Mn > Cu > Fe > Si. The tendency that Mn and Cu evaporate more easily than does Fe and that the evaporation of Si is less probable is consistent with the experiment of a dilute element in steel. In the Fe (001) step structure, when the electric field is low, the roll-up effect where the evaporated atoms move on the step is large, and when the electric field is large, the roll-up effect is small. The roll-up effect of Cu was almost the same as that of Fe, and the roll-up effect of Mn was small because the chemical bond between Mn and Fe was weak.

Topics & Concepts

EvaporationElectric fieldMaterials scienceField (mathematics)Analytical Chemistry (journal)Absorption (acoustics)Condensed matter physicsMetallurgyChemistryThermodynamicsComposite materialPhysicsQuantum mechanicsMathematicsChromatographyPure mathematicsAdvanced Materials Characterization TechniquesDiamond and Carbon-based Materials ResearchMetal and Thin Film Mechanics
First-Principles Calculation of the Evaporation Field and Roll-up Effect of M (M = Fe, Cu, Si, and Mn) on the Fe (001) and Fe Step Structure | Litcius