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Does the embedded atom model have predictive power?

Д. К. Белащенко

2020Physics-Uspekhi16 citationsDOI

Abstract

Abstract Potassium, rubidium, aluminum, iron, nickel, and tin embedded atom models (EAMs) have been used as examples to ascertain how well the properties of a metal are described by EAM potentials calculated from the shape of shock adiabats and/or static compression data (from a function of cold pressure). Verification of the EAM potential implies an evaluation of its predictive power and an analysis of the agreement with experiment both at 0 or 298 K and under shock compression. To obtain consistent results, all contributions of collectivized electrons to energy and pressure need to be taken into consideration, especially in transition metals. Taking account of or ignoring electron contributions has little effect on the calculated melting lines of the models, self-diffusion coefficients, and viscosity. The shape of the melting line is sensitive to the behavior of the repulsive branch of the pair contribution to the EAM potential at small distances.

Topics & Concepts

Embedded atom modelRubidiumAtom (system on chip)Shock (circulatory)ChemistryThermodynamicsCompression (physics)ViscosityElectronDiffusionAtomic physicsMaterials sciencePhysicsComputational chemistryPotassiumMolecular dynamicsQuantum mechanicsInternal medicineEmbedded systemMedicineOrganic chemistryComputer scienceHigh-pressure geophysics and materialsBoron and Carbon Nanomaterials ResearchEnergetic Materials and Combustion
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