We present a new method to accurately calculate the electrostatic energy and forces on charges being distributed in a two-dimensional periodic array of finite thickness. We transform the Coulomb sum via a convergence factor into a series of fast decaying functions which can be easily evaluated. Rigorous error bounds for the energies and the forces are derived and numerically verified. Already for small systems our method is much faster than the traditional 2D-Ewald methods, but for large systems it is clearly superior because its time demand scales like C(N-5/3) with the number N of charges considered. Moreover it shows a rapid convergence, is very precise and easy to handle. (C) 2002 Elsevier Science B.V. All rights reserved
This work presents algorithms for the calculation of the electrostatic interaction in partially peri...
International audienceWe address periodic-image errors arising from the use of periodic boundary con...
An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is pre...
We present a new method to accurately calculate the electrostatic energy and forces on charges being...
We propose a new method to sum up electrostatic interactions in two-dimensional (2D) slab geometries...
Abstract: Plane wave density functional theory codes generally assume periodicity in all three dimen...
International audienceWe present a new method for calculating electrostatic interactions in periodic...
A fast algorithm for dealing with electrostatic interactions in partially periodic systems that are ...
In our preceeding Paper I [Ref. 16] a method was developed to subtract the interactions due to perio...
Coarse-grained models of soft matter are usually combined with implicit solvent models that take the...
This paper describes the implementation of a method for computing the Coulombic interaction in a per...
We address periodic-image errors arising from the use of periodic boundary conditions to describe sy...
The two-dimensional N-body potential problem is rigorously solved with emphasis on electrostatics. B...
This thesis deals with fast and efficient methods for electrostatic calculations with application in...
The appropriate treatment of long-range Coulombic forces is an area of great interest in the biomole...
This work presents algorithms for the calculation of the electrostatic interaction in partially peri...
International audienceWe address periodic-image errors arising from the use of periodic boundary con...
An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is pre...
We present a new method to accurately calculate the electrostatic energy and forces on charges being...
We propose a new method to sum up electrostatic interactions in two-dimensional (2D) slab geometries...
Abstract: Plane wave density functional theory codes generally assume periodicity in all three dimen...
International audienceWe present a new method for calculating electrostatic interactions in periodic...
A fast algorithm for dealing with electrostatic interactions in partially periodic systems that are ...
In our preceeding Paper I [Ref. 16] a method was developed to subtract the interactions due to perio...
Coarse-grained models of soft matter are usually combined with implicit solvent models that take the...
This paper describes the implementation of a method for computing the Coulombic interaction in a per...
We address periodic-image errors arising from the use of periodic boundary conditions to describe sy...
The two-dimensional N-body potential problem is rigorously solved with emphasis on electrostatics. B...
This thesis deals with fast and efficient methods for electrostatic calculations with application in...
The appropriate treatment of long-range Coulombic forces is an area of great interest in the biomole...
This work presents algorithms for the calculation of the electrostatic interaction in partially peri...
International audienceWe address periodic-image errors arising from the use of periodic boundary con...
An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is pre...