Add to ORKGA new method for Ewald summation in planar/slablike geometry, i.e. systems where periodicity applies in two dimensions and the last dimension is “free ” (2P), is presented. We employ a spectral representation in terms of both Fourier series and integrals. This allows us to concisely derive both the 2P Ewald sum and a fast PME-type method suitable for large-scale computations. The primary results are: (i) close and illuminating connec-tions between the 2P problem and the standard Ewald sum and associated fast methods for full periodicity; (ii) a fast, O(N log N), and spectrally accurate PME-type method for the 2P k-space Ewald sum that uses vastly less memory than traditional PME methods; (iii) errors that decouple, such that parameter selec...
We present a new method to accurately calculate the electrostatic energy and forces on charges being...
Periodic boundary conditions (PBC) are well suited to describe repetitive structures in space, yet f...
In a number of problems in computational physics, a finite sum of kernel functions centered at N par...
A unified treatment for the fast and spectrally accurate evaluation of electrostatic potentials with...
We derive a Ewald decomposition for the Stokeslet in planar periodicity and a novel PME-type O(N log...
Ewald summation is widely used to calculate electrostatic interactions in computer simulations of co...
An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is pre...
This work contains two separate but related parts: one on spectrally accurate and fast Ewald meth...
We propose a new method to sum up electrostatic interactions in two-dimensional (2D) slab geometries...
This thesis deals with fast and efficient methods for electrostatic calculations with application in...
In our preceeding Paper I [Ref. 16] a method was developed to subtract the interactions due to perio...
Accurate and efficient computation of periodic free-space Green's functions using the Ewald method i...
The Ewald method is applied to accelerate the evaluation of the Green's function of an infinite peri...
In this thesis, we present a fast multipole algorithm (FMA) for solving a periodic scattering proble...
The efficient evaluation of Green’s functions is a crucial aspect in the numerical analysis of perio...
We present a new method to accurately calculate the electrostatic energy and forces on charges being...
Periodic boundary conditions (PBC) are well suited to describe repetitive structures in space, yet f...
In a number of problems in computational physics, a finite sum of kernel functions centered at N par...
A unified treatment for the fast and spectrally accurate evaluation of electrostatic potentials with...
We derive a Ewald decomposition for the Stokeslet in planar periodicity and a novel PME-type O(N log...
Ewald summation is widely used to calculate electrostatic interactions in computer simulations of co...
An N⋅log(N) method for evaluating electrostatic energies and forces of large periodic systems is pre...
This work contains two separate but related parts: one on spectrally accurate and fast Ewald meth...
We propose a new method to sum up electrostatic interactions in two-dimensional (2D) slab geometries...
This thesis deals with fast and efficient methods for electrostatic calculations with application in...
In our preceeding Paper I [Ref. 16] a method was developed to subtract the interactions due to perio...
Accurate and efficient computation of periodic free-space Green's functions using the Ewald method i...
The Ewald method is applied to accelerate the evaluation of the Green's function of an infinite peri...
In this thesis, we present a fast multipole algorithm (FMA) for solving a periodic scattering proble...
The efficient evaluation of Green’s functions is a crucial aspect in the numerical analysis of perio...
We present a new method to accurately calculate the electrostatic energy and forces on charges being...
Periodic boundary conditions (PBC) are well suited to describe repetitive structures in space, yet f...
In a number of problems in computational physics, a finite sum of kernel functions centered at N par...