A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of point charges. This means that groups of point charges that are shifted away from nuclear coordinates can be used to achieve accurate electrostatics for molecular systems. We introduce a multipolar electrostatic model formulated in this way for use in computationally efficient multipolar molecular dynamics simulations with well-defined forces and energy conservation in NVE (constant number-volume-energy) simulations. A framework is introduced to distribute torques arising from multipole moments throughout a molecule, and a refined fitting approach is suggested to obtain atomic multipole moments that are optimized for accuracy and numerical stabil...
We develop here a new method to fit the molecular electrostatic potentials obtained in quantum mecha...
ABSTRACT: We present a simple damping scheme for point-charge electrostatics that could be used dire...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
In conventional force fields, the electrostatic potential is represented by atom-centred point charg...
Motivated by the Legendre expansion of the electrostatic potential (ESP), we propose a method for ob...
Permanent multipoles (MTPs) embody a natural extension to common point-charge (PC) representations i...
The performance of multipole (MTP) and point charge (PC) force fields in classical molecular dynamic...
Multipole (MTP) electrostatics provides the means to describe anisotropic interactions in a rigorous...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Molecular dynamics simulations of biomolecules have been widely adopted in biomedical studies. As cl...
Our previous article has established the theory of molecular dynamics (MD) simulations for systems m...
Abstract: An electrostatic model based on charge density is proposed as a model for future force fie...
This dissertation focuses on electrostatics in the computer modeling of biomacro-molecules. The comm...
Accounting for geometry-induced changes in the electronic distribution in molecular simulation is im...
We develop here a new method to fit the molecular electrostatic potentials obtained in quantum mecha...
ABSTRACT: We present a simple damping scheme for point-charge electrostatics that could be used dire...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
A truncated multipole expansion can be re-expressed exactly using an appropriate arrangement of poin...
In conventional force fields, the electrostatic potential is represented by atom-centred point charg...
Motivated by the Legendre expansion of the electrostatic potential (ESP), we propose a method for ob...
Permanent multipoles (MTPs) embody a natural extension to common point-charge (PC) representations i...
The performance of multipole (MTP) and point charge (PC) force fields in classical molecular dynamic...
Multipole (MTP) electrostatics provides the means to describe anisotropic interactions in a rigorous...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...
Molecular dynamics simulations of biomolecules have been widely adopted in biomedical studies. As cl...
Our previous article has established the theory of molecular dynamics (MD) simulations for systems m...
Abstract: An electrostatic model based on charge density is proposed as a model for future force fie...
This dissertation focuses on electrostatics in the computer modeling of biomacro-molecules. The comm...
Accounting for geometry-induced changes in the electronic distribution in molecular simulation is im...
We develop here a new method to fit the molecular electrostatic potentials obtained in quantum mecha...
ABSTRACT: We present a simple damping scheme for point-charge electrostatics that could be used dire...
Advanced potential energy surfaces are defined as theoretical models that explicitly include many-bo...