Add to ORKGWe report density-functional based molecular-dynamics simulations, which show that, with increasing pressure, liquid carbon undergoes a gradual transformation from a liquid with local threefold coordination to a "diamondlike" liquid. We demonstrate that this unusual structural change is well reproduced by an empirical bond-order potential with isotropic long-range interactions, supplemented by torsional terms. In contrast, state-of-the-art short-range bond-order potentials do not reproduce this diamond structure. This suggests that a correct description of long-range interactions is crucial for a unified description of the solid and liquid phases of carbon
The structure of the fluid carbon phase in the pressure region of the graphite, diamond, and BC8 sol...
A first order phase transition is found in liquid carbon using atomistic simulation methods and Bren...
Data from recent laser\u2010shock experiments or from simulations using density functional theory (D...
We report density-functional based molecular-dynamics simulations, which show that, with increasing ...
We report density-functional based molecular-dynamics simulations, which show that, with increasing ...
We report density-functional based molecular-dynamics simulations, which show that, with increasing ...
Contains fulltext : 60494.pdf ( ) (Open Access)We report density-functional based ...
The phase diagram of carbon is not experimentally well known at high pressure and/or high temperatur...
We have performed systematic molecular dynamics simulations to study the structures of liquid carbon...
In this thesis, I report on the properties of carbon in the pressure and temperature range of 15 to ...
The phase diagram of carbon is mapped to high pressure using a computationally-tractable potential m...
We determined the phase diagram involving diamond, graphite, and liquid carbon using a recently deve...
The phase diagram of carbon is mapped to high pressure using a computationally-tractable potential m...
High-pressure structural transformations of carbon at terapascal pressures are studied using metadyn...
We determined the phase diagram involving diamond, graphite, and liquid carbon using a recently deve...
The structure of the fluid carbon phase in the pressure region of the graphite, diamond, and BC8 sol...
A first order phase transition is found in liquid carbon using atomistic simulation methods and Bren...
Data from recent laser\u2010shock experiments or from simulations using density functional theory (D...
We report density-functional based molecular-dynamics simulations, which show that, with increasing ...
We report density-functional based molecular-dynamics simulations, which show that, with increasing ...
We report density-functional based molecular-dynamics simulations, which show that, with increasing ...
Contains fulltext : 60494.pdf ( ) (Open Access)We report density-functional based ...
The phase diagram of carbon is not experimentally well known at high pressure and/or high temperatur...
We have performed systematic molecular dynamics simulations to study the structures of liquid carbon...
In this thesis, I report on the properties of carbon in the pressure and temperature range of 15 to ...
The phase diagram of carbon is mapped to high pressure using a computationally-tractable potential m...
We determined the phase diagram involving diamond, graphite, and liquid carbon using a recently deve...
The phase diagram of carbon is mapped to high pressure using a computationally-tractable potential m...
High-pressure structural transformations of carbon at terapascal pressures are studied using metadyn...
We determined the phase diagram involving diamond, graphite, and liquid carbon using a recently deve...
The structure of the fluid carbon phase in the pressure region of the graphite, diamond, and BC8 sol...
A first order phase transition is found in liquid carbon using atomistic simulation methods and Bren...
Data from recent laser\u2010shock experiments or from simulations using density functional theory (D...