Compressible and polarizable ion models parametrized by ab initio calculations represent a promising technique for simulating challenging materials such as oxides. We present a new form of such a model in which the compression and polarization effects are coupled, and the anion-anion interaction is not fixed but dependent on the ion size and polarization. These two effects provide a more physically realistic description of a system, and significantly improve the predictive power of the method. Calculations on magnesium oxide show the elastic constants and other properties to be in good agreement with experiment. The new functional form is part of an ongoing project to develop an empirical model of zirconia, an important oxide for which a sa...
The electron density of an ion is strongly influenced by its environment in a condensed phase. When ...
We present an analysis of the M-O chemical bonding in the binary oxides MgO, CaO, SrO, BaO, and Al2O...
The atomistic computer simulation of ionic materials has undergone massive changes over the last thr...
A representation of the short-range repulsion energy in an ionic system is described which allows fo...
We have studied the dependence of metal oxide properties in molecular dynamics (MD) simulations on t...
Tin(II) oxide has an unusual crystal structure (litharge) which exhibits numerous 'non-ionic' featur...
The predictions of an "extended" ionic interaction model for the phonons and other properties of cry...
The results of electronic structure calculations of the induced dipoles and quadrupoles on an anion ...
Large scale computer simulations (those involving explicit consideration of a large number of atoms ...
The results of ab initio calculations of in-crystal ionic polarizabilities, α, over a wide range of ...
A fully flexible ionic interaction model for alumina, Al2 O3, is developed. The model accounts for i...
Commonly accepted, the conventional ionic model has been used for almost one century to describe ino...
Compounds belonging to the matlockite family are ionic layered crystals. Some previous experimental...
Transferable potential models of the interactions in CaO, SrO, and BaO can be obtained by fitting to...
International audienceNa + ions play important roles on the physical and chemical properties of alum...
The electron density of an ion is strongly influenced by its environment in a condensed phase. When ...
We present an analysis of the M-O chemical bonding in the binary oxides MgO, CaO, SrO, BaO, and Al2O...
The atomistic computer simulation of ionic materials has undergone massive changes over the last thr...
A representation of the short-range repulsion energy in an ionic system is described which allows fo...
We have studied the dependence of metal oxide properties in molecular dynamics (MD) simulations on t...
Tin(II) oxide has an unusual crystal structure (litharge) which exhibits numerous 'non-ionic' featur...
The predictions of an "extended" ionic interaction model for the phonons and other properties of cry...
The results of electronic structure calculations of the induced dipoles and quadrupoles on an anion ...
Large scale computer simulations (those involving explicit consideration of a large number of atoms ...
The results of ab initio calculations of in-crystal ionic polarizabilities, α, over a wide range of ...
A fully flexible ionic interaction model for alumina, Al2 O3, is developed. The model accounts for i...
Commonly accepted, the conventional ionic model has been used for almost one century to describe ino...
Compounds belonging to the matlockite family are ionic layered crystals. Some previous experimental...
Transferable potential models of the interactions in CaO, SrO, and BaO can be obtained by fitting to...
International audienceNa + ions play important roles on the physical and chemical properties of alum...
The electron density of an ion is strongly influenced by its environment in a condensed phase. When ...
We present an analysis of the M-O chemical bonding in the binary oxides MgO, CaO, SrO, BaO, and Al2O...
The atomistic computer simulation of ionic materials has undergone massive changes over the last thr...