Add to ORKG© 2017, Pleiades Publishing, Ltd.Structural properties and microscopic dynamics of water and amorphous ice have been studied by the molecular dynamics method. It has been found that the distribution function of the tetrahedricity parameter exhibits two ranges, which correspond to local molecular formations with low and high degrees of tetrahedricity. The number of molecular clusters with a high degree of tetrahedricity grows as temperature decreases. It has been shown that the vibrational density of states comprises two vibrational modes. A low-frequency vibrational mode strongly depends on pressure and is almost independent of temperature, while a high-frequency mode is relevant to the pressure-independent heat motion of molecules. The geo...
Water is an extraordinary substance. It owes its characteristic anomalous properties to a network of...
Mixed ices play a central role in characterizing the origin, evolution, stability and chemistry of p...
The hydrogen-disordered structure of ice III makes it difficult to analyze its vibrational spectrum ...
© 2017, Pleiades Publishing, Ltd.Structural properties and microscopic dynamics of water and amorpho...
© 2017, Pleiades Publishing, Ltd.Structural properties and microscopic dynamics of water and amorpho...
The structure and vibrational properties of high- and low-density amorphous (HDA and LDA, respective...
In this work we study through computer simulations the three known forms of amorphous ice, namely, t...
We investigated the structural and dynamical properties of a tetrahedrally coordinated crystalline i...
The structures of the high and low-density amorphous phases of ice are studied using several techniq...
Water is believed to be a heterogeneous liquid comprising of multiple density regions that arise due...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
The microscopic dynamics of an excess proton in water and in low-density amorphous ices has been stu...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
We model, via classical molecular dynamics simulations, the plastic phase of ice VII across a wide r...
Water is an extraordinary substance. It owes its characteristic anomalous properties to a network of...
Mixed ices play a central role in characterizing the origin, evolution, stability and chemistry of p...
The hydrogen-disordered structure of ice III makes it difficult to analyze its vibrational spectrum ...
© 2017, Pleiades Publishing, Ltd.Structural properties and microscopic dynamics of water and amorpho...
© 2017, Pleiades Publishing, Ltd.Structural properties and microscopic dynamics of water and amorpho...
The structure and vibrational properties of high- and low-density amorphous (HDA and LDA, respective...
In this work we study through computer simulations the three known forms of amorphous ice, namely, t...
We investigated the structural and dynamical properties of a tetrahedrally coordinated crystalline i...
The structures of the high and low-density amorphous phases of ice are studied using several techniq...
Water is believed to be a heterogeneous liquid comprising of multiple density regions that arise due...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
The microscopic dynamics of an excess proton in water and in low-density amorphous ices has been stu...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
All the different phases of water ice between 2 GPa and several megabars are based on a single body-...
We model, via classical molecular dynamics simulations, the plastic phase of ice VII across a wide r...
Water is an extraordinary substance. It owes its characteristic anomalous properties to a network of...
Mixed ices play a central role in characterizing the origin, evolution, stability and chemistry of p...
The hydrogen-disordered structure of ice III makes it difficult to analyze its vibrational spectrum ...