Add to ORKGCaMgSi2O6 and CaSiO3 liquids have been investigated over the entire mantle pressure regime using first principles molecular dynamics simulations with density functional theory in the local density approximation and the ultra-soft plane-wave pseudopotential method. The equilibrated liquid structure is much more densely packed at high pressure. The average Si-O coordination number increases nearly linearly from 4 to 6 with compression. The results are well fitted by Mie-Grüneisen equation of state, , with a Grüneisen parameter that linearly increases and heat capacity that linearly decreases with compression. The total and self diffusion coefficients of diopside liquid exhibit an unusual pressure dependence, first decreasing with increasing ...
Using a multicomponent ion dynamics computer simulation program we have investigated the pressure de...
With ab initio molecular dynamics simulations on pyrolite melt, we examine the detailed changes in e...
Understanding the chemical and thermal evolution of Earth requires knowledge of transport properties...
We use first principles molecular dynamics simulations based on density functional theory in the loc...
As the primary medium through which planetary differentiation occurs, silicate liquids are key in th...
Constant-pressure constant-temperature {\it ab initio} molecular dynamics simulations at high temper...
Shock compression experiments achieving ≥ 100 GPa pressures are available for seven silicate liquid ...
The structure and physical properties of hydrous silicate melts and the solubility of water in melts...
We develop a self-consistent thermodynamic description of silicate liquids applicable across the ent...
The convection or settling of matter in the deep Earth’s interior is mostly constrained by density v...
Modelling of processes involving deep Earth liquids requires information on their structures and com...
Objectives: Our aims were (1) Large particle-number Molecular Dynamics (MD) simulations of molten si...
We develop a new model to understand and predict the behavior of oxide and silicate melts at extreme...
We performed shock compression experiments on preheated forsterite liquid (Mg_2SiO_4) at an initial ...
We present first principles predictions of the absolute entropy of a silicate liquid (CaSiO3) over a...
Using a multicomponent ion dynamics computer simulation program we have investigated the pressure de...
With ab initio molecular dynamics simulations on pyrolite melt, we examine the detailed changes in e...
Understanding the chemical and thermal evolution of Earth requires knowledge of transport properties...
We use first principles molecular dynamics simulations based on density functional theory in the loc...
As the primary medium through which planetary differentiation occurs, silicate liquids are key in th...
Constant-pressure constant-temperature {\it ab initio} molecular dynamics simulations at high temper...
Shock compression experiments achieving ≥ 100 GPa pressures are available for seven silicate liquid ...
The structure and physical properties of hydrous silicate melts and the solubility of water in melts...
We develop a self-consistent thermodynamic description of silicate liquids applicable across the ent...
The convection or settling of matter in the deep Earth’s interior is mostly constrained by density v...
Modelling of processes involving deep Earth liquids requires information on their structures and com...
Objectives: Our aims were (1) Large particle-number Molecular Dynamics (MD) simulations of molten si...
We develop a new model to understand and predict the behavior of oxide and silicate melts at extreme...
We performed shock compression experiments on preheated forsterite liquid (Mg_2SiO_4) at an initial ...
We present first principles predictions of the absolute entropy of a silicate liquid (CaSiO3) over a...
Using a multicomponent ion dynamics computer simulation program we have investigated the pressure de...
With ab initio molecular dynamics simulations on pyrolite melt, we examine the detailed changes in e...
Understanding the chemical and thermal evolution of Earth requires knowledge of transport properties...