Add to ORKGWe report results of a simulation of the phase transitions in CsLiSO4. These are based on our previously developed method for calculating parameter-free potential-energy surface for ionic molecular crystals. Our lattice-dynamical and molecular-dynamics studies show that the roomtemperature (Pnam) phase is unstable and transforms to the observed low-temperature (P1121/n) phase over approximately 200–280 K. The unstable modes of the Pnam phase have maximum instability at the zone center, which indicates a possible phase transformation without a cell multiplication. The rotational ordering of tetrahedral SOM4 2- was found to be the driving mechanism of these phase transitions. The quality of the agreement between theoretical and experimental s...
Structural relaxations, molecular-dynamics simulations, and lattice-dynamics calculations were perfo...
We present a new approach to first-principles simulations of the statics and dynamics of ionic molec...
We report on the dynamic and structural characterization of lithium metasilicate Li2SiO3, a network-...
We report results of a simulation of the phase transitions in CsLiSO4. These are based on our previo...
Using our previously developed method for calculating parameter-free potential-energy surfaces for i...
Using our previously developed method for calculating parameter-free potential-energy surfaces for i...
We present a new approach to first-principles simulations of the statics and dynamics of ionic molec...
Using a newly developed first-principles approach to simulations of ionic molecular crystals, we per...
We present a new approach to first-principles simulations of the statics and dynamics of ionic molec...
An ab initio model is developed for the potentials in ionic molecular solids in which the electron c...
An ab initio model is developed for the potentials in ionic molecular solids in which the electron c...
We have made detailed lattice-dynamical studies of the origin of the incommensurate phase transition...
We have made detailed lattice-dynamical studies of the origin of the incommensurate phase transition...
An ab initio model is developed for the potentials in ionic molecular solids in which the electron c...
We have made detailed lattice-dynamical studies of the origin of the incommensurate phase transition...
Structural relaxations, molecular-dynamics simulations, and lattice-dynamics calculations were perfo...
We present a new approach to first-principles simulations of the statics and dynamics of ionic molec...
We report on the dynamic and structural characterization of lithium metasilicate Li2SiO3, a network-...
We report results of a simulation of the phase transitions in CsLiSO4. These are based on our previo...
Using our previously developed method for calculating parameter-free potential-energy surfaces for i...
Using our previously developed method for calculating parameter-free potential-energy surfaces for i...
We present a new approach to first-principles simulations of the statics and dynamics of ionic molec...
Using a newly developed first-principles approach to simulations of ionic molecular crystals, we per...
We present a new approach to first-principles simulations of the statics and dynamics of ionic molec...
An ab initio model is developed for the potentials in ionic molecular solids in which the electron c...
An ab initio model is developed for the potentials in ionic molecular solids in which the electron c...
We have made detailed lattice-dynamical studies of the origin of the incommensurate phase transition...
We have made detailed lattice-dynamical studies of the origin of the incommensurate phase transition...
An ab initio model is developed for the potentials in ionic molecular solids in which the electron c...
We have made detailed lattice-dynamical studies of the origin of the incommensurate phase transition...
Structural relaxations, molecular-dynamics simulations, and lattice-dynamics calculations were perfo...
We present a new approach to first-principles simulations of the statics and dynamics of ionic molec...
We report on the dynamic and structural characterization of lithium metasilicate Li2SiO3, a network-...