E. S. Yakub scite author profile

Results of molecular dynamics (MD) simulation of UO2 in a wide temperature range are presented and discussed. A new approach to the calibration of a partly ionic Busing-Ida-type model is proposed. A potential parameter set is obtained reproducing the experimental density of solid UO2 in a wide range of temperatures. A conventional simulation of the high-temperature stoichiometric UO2 on large MD cells, based on a novel fast method of computation of Coulomb forces, reveals characteristic features of a premelting lambda transition at a temperature near to that experimentally observed (T(lambda)=2670 K). A strong deviation from the Arrhenius behavior of the oxygen self-diffusion coefficient was found in the vicinity of the transition point. Predictions for liquid UO2, based on the same potential parameter set, are in good agreement with existing experimental data and theoretical calculations.

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An efficient method for computation of long-ranged Coulomb forces in computer simulation of ionic fluids

Yakub

Ronchi

2003

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Computer simulation of defects formation and equilibrium in non-stoichiometric uranium dioxide

Yakub

Ronchi

Staicu

2009

Journal of Nuclear Materials

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Equation of State of Uranium Dioxide

Ronchi

Iosilevski

Yakub

2004

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Iosilevski

Hyland

Ronchi³

et al. 2001

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E. S. Yakub

Molecular dynamics simulation of premelting and melting phase transitions in stoichiometric uranium dioxide

An efficient method for computation of long-ranged Coulomb forces in computer simulation of ionic fluids

Computer simulation of defects formation and equilibrium in non-stoichiometric uranium dioxide

Equation of State of Uranium Dioxide

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