Add to ORKGBased on theoretical considerations an explanation for the temperature dependence of the thermal expansion and the bulk modulus is proposed. A new equation state is also derived. Additionally a physical explanation for the latent heat of fusion is presented. These theoretical predictions are tested against experiments on highly symmetrical monatomic structures. The volume is not an independent variable and must be broken down into its fundamental components when the relationships to the pressure and temperature are defined. Using zero pressure and temperature reference frame, the initial parameters, volume at zero pressure and temperature[V°], bulk modulus at zero temperature [K°] and volume coefficient of thermal expansion at zero pressure...
In order to predict the stable polymorph of iron under core conditions, calculations have been perfo...
Atomic-scale materials modelling based on first-principles quantum mechanics is playing an important...
The one-parameter equation of state (EoS), wherein the bulk modulus at ambient pressure is the only ...
Based on theoretical considerations an explanation for the temperature dependence of the thermal exp...
A simple theoretical method is developed to study the properties of solids under varying conditions ...
The isothermal bulk modulus, together with its temperature dependence, and the thermal expansion of ...
Direct observations of material properties at pressures in the megabar range have increased dramatic...
The induced atomic movement at melting has to overcome on a viscous drag resistance. It is suggested...
In this thesis, material properties have been examined under extreme conditions in computer-based ca...
Structure of iron in the pressure range of 40-100 GPa at temperatures of 1500-2400 K is controversia...
In this study a search for an equation of state (EOS) that accurately predicts solids behaviour at b...
We present a Hubbard-corrected density functional theory investigation of FeS polymorphs based on th...
International audienceThe high-pressure, high-temperature behavior of iron was investigated to 140 G...
The free energy and other thermodynamic properties of hexagonal-close-packed iron are calculated by ...
We have carried out electronic structure calculations for iron under high pressure using pseudopoten...
In order to predict the stable polymorph of iron under core conditions, calculations have been perfo...
Atomic-scale materials modelling based on first-principles quantum mechanics is playing an important...
The one-parameter equation of state (EoS), wherein the bulk modulus at ambient pressure is the only ...
Based on theoretical considerations an explanation for the temperature dependence of the thermal exp...
A simple theoretical method is developed to study the properties of solids under varying conditions ...
The isothermal bulk modulus, together with its temperature dependence, and the thermal expansion of ...
Direct observations of material properties at pressures in the megabar range have increased dramatic...
The induced atomic movement at melting has to overcome on a viscous drag resistance. It is suggested...
In this thesis, material properties have been examined under extreme conditions in computer-based ca...
Structure of iron in the pressure range of 40-100 GPa at temperatures of 1500-2400 K is controversia...
In this study a search for an equation of state (EOS) that accurately predicts solids behaviour at b...
We present a Hubbard-corrected density functional theory investigation of FeS polymorphs based on th...
International audienceThe high-pressure, high-temperature behavior of iron was investigated to 140 G...
The free energy and other thermodynamic properties of hexagonal-close-packed iron are calculated by ...
We have carried out electronic structure calculations for iron under high pressure using pseudopoten...
In order to predict the stable polymorph of iron under core conditions, calculations have been perfo...
Atomic-scale materials modelling based on first-principles quantum mechanics is playing an important...
The one-parameter equation of state (EoS), wherein the bulk modulus at ambient pressure is the only ...