Equation of state of a dense plasma by orbital-free and quantum molecular dynamics: Examination of two isothermal-isobaric mixing rules

Properties of warm dense polystyrene plasmas along the principal Hugoniot

(2014) S. X. Hu et al.   PHYSICAL REVIEW E

Equation of state of dense plasmas: Orbital-free molecular dynamics as the limit of quantum molecular dynamics for high-Z elements

(2014) J.-F. Danel et al.   PHYSICS OF PLASMAS

Equation of state of dense plasmas by ab initio simulations: Bridging the gap between quantum molecular dynamics and orbital-free molecular dynamics at high temperature

(2013) J.-F. Danel et al.   PHYSICS OF PLASMAS

Mixing of equations of state for xenon-deuterium using density functional theory

(2013) Rudolph J. Magyar et al.   PHYSICS OF PLASMAS

Plastic ablator and hydrodynamic instabilities: A first-principles set of microscopic coefficients

(2012) Flavien Lambert et al.   PHYSICAL REVIEW E

Thermophysical properties for shock compressed polystyrene

(2011) Cong Wang et al.   PHYSICS OF PLASMAS

First-principles and classical molecular dynamics simulation of shocked polymers

(2010) Thomas R. Mattsson et al.   PHYSICAL REVIEW B

ABINIT: First-principles approach to material and nanosystem properties

(2009) X. Gonze et al.   COMPUTER PHYSICS COMMUNICATIONS

Orbital-free molecular dynamics simulations of a warm dense mixture: Examination of the excess-pressure matching rule

(2009) J-F. Danel et al.   PHYSICAL REVIEW E

Quantum molecular dynamics simulations of warm dense lithium hydride: Examination of mixing rules

(2008) D. A. Horner et al.   PHYSICAL REVIEW B

Direct verification of mixing rules in the hot and dense regime

(2008) F. Lambert et al.   PHYSICAL REVIEW E

Large-scale ab initio calculations based on three levels of parallelization

(2007) François Bottin et al.   COMPUTATIONAL MATERIALS SCIENCE

Implementation of the projector augmented-wave method in the ABINIT code: Application to the study of iron under pressure

(2007) Marc Torrent et al.   COMPUTATIONAL MATERIALS SCIENCE