Ewald summation and physically equivalent methods such as particle-mesh Ewald, kubic-harmonic expansions, or Lekner sums are commonly used to calculate long-range electrostatic interactions in computer simulations of polar and charged substances. The calculation of pressures in such systems is investigated. We find that the virial and thermodynamic pressures differ because of the explicit volume dependence of the effective, resummed Ewald potential. The thermodynamic pressure, obtained from the volume derivative of the Helmholtz free energy, can be expressed easily for both ionic and rigid molecular systems. For a system of rigid molecules, the electrostatic energy and the forces at the atom positions are required, both of which are readily...
Recent developments in the classical theory of fully ionized gases and strong electrolyte solutions ...
A conceptually simple method to calculate local and average pressure tensors in simulations of molec...
We compare the electrostatic properties of individual water molecules in ab initio simulations and i...
In this work, we consider the pressure of Coulomb systems, in which particles interact via a volume-...
An accurate time evolution of charged species having exponentially smeared out charge density (Slate...
Recent developments in molecular theories and simulation of ions and polar molecules in water are re...
We present a detailed derivation of the complete set of expressions required for the implementation ...
Computer simulations by the molecular-dynamics method are used to study the physical properties of l...
We consider some fundamental aspects of the calculation of the pressure from simulations of systems ...
International audiencePartial molar volumes of ions in water solution are calculated through pressur...
Abstract: A method is presented for the efficient evaluation of long-range electrostatic forces in c...
International audienceFree energy simulations for electrostatic and charging processes in complex mo...
The pure water phase equilibrium is calculated over a wide temperature range using the Gibbs ensembl...
I report on the derivation, development and computer implementation of methods for computing the ene...
International audienceThe importance of calculating pressure profiles across liquid interfaces is in...
Recent developments in the classical theory of fully ionized gases and strong electrolyte solutions ...
A conceptually simple method to calculate local and average pressure tensors in simulations of molec...
We compare the electrostatic properties of individual water molecules in ab initio simulations and i...
In this work, we consider the pressure of Coulomb systems, in which particles interact via a volume-...
An accurate time evolution of charged species having exponentially smeared out charge density (Slate...
Recent developments in molecular theories and simulation of ions and polar molecules in water are re...
We present a detailed derivation of the complete set of expressions required for the implementation ...
Computer simulations by the molecular-dynamics method are used to study the physical properties of l...
We consider some fundamental aspects of the calculation of the pressure from simulations of systems ...
International audiencePartial molar volumes of ions in water solution are calculated through pressur...
Abstract: A method is presented for the efficient evaluation of long-range electrostatic forces in c...
International audienceFree energy simulations for electrostatic and charging processes in complex mo...
The pure water phase equilibrium is calculated over a wide temperature range using the Gibbs ensembl...
I report on the derivation, development and computer implementation of methods for computing the ene...
International audienceThe importance of calculating pressure profiles across liquid interfaces is in...
Recent developments in the classical theory of fully ionized gases and strong electrolyte solutions ...
A conceptually simple method to calculate local and average pressure tensors in simulations of molec...
We compare the electrostatic properties of individual water molecules in ab initio simulations and i...