Hybrid particle–field molecular dynamics combines standard molecular potentials with density-field models into a computationally efficient methodology that is well-adapted for the study of mesoscale soft matter systems. Here, we introduce a new formulation based on filtered densities and a particle–mesh formalism that allows for Hamiltonian dynamics and alias-free force computation. This is achieved by introducing a length scale for the particle–field interactions independent of the numerical grid used to represent the density fields, enabling systematic convergence of the forces upon grid refinement. Our scheme generalizes the original particle–field molecular dynamics implementations presented in the literature, finding them as limit cond...
In the framework of a recently developed scheme for a hybrid particle-field simulation technique whe...
In this work, we present a general route to hybrid Quantum Mechanics/Molecular Mechanics (QM/MM) Mol...
Iterative energy minimization with the aim of achieving self-consistency is a common feature of Born...
Hybrid particle–field methods couple coarse-grained particles through a density field-based intermol...
We propose a theoretical scheme for a hybrid simulation technique where self-consistent field theory...
The parallel implementation of a recently developed hybrid scheme for molecular dynamics (MD) simula...
We show how an existing concurrent multi-scale method named hybrid particle field-molecular dynamics...
Hybrid particle-field methods are computationally efficient approaches for modeling soft matter syst...
The hybrid particle-field molecular dynamics method is an efficient alternative to standard particle...
This paper gives an overview of the coarse-grained models of phospholipids recently developed by the...
Understanding mesoscopic phenomena in terms of the fundamental motions of atoms and electrons poses ...
We develop a multiscale hybrid scheme for simulations of soft condensed matter systems, which allows...
We present the implementation of a Born-Oppenheimer (BO) hybrid quantum mechanics/molecular mechanic...
We describe and test a novel molecular dynamics method which combines quantum-mechanical embedding a...
Hybrid all-atom (AA) and coarse-grained (CG) simulation has the possibility of overcoming the limita...
In the framework of a recently developed scheme for a hybrid particle-field simulation technique whe...
In this work, we present a general route to hybrid Quantum Mechanics/Molecular Mechanics (QM/MM) Mol...
Iterative energy minimization with the aim of achieving self-consistency is a common feature of Born...
Hybrid particle–field methods couple coarse-grained particles through a density field-based intermol...
We propose a theoretical scheme for a hybrid simulation technique where self-consistent field theory...
The parallel implementation of a recently developed hybrid scheme for molecular dynamics (MD) simula...
We show how an existing concurrent multi-scale method named hybrid particle field-molecular dynamics...
Hybrid particle-field methods are computationally efficient approaches for modeling soft matter syst...
The hybrid particle-field molecular dynamics method is an efficient alternative to standard particle...
This paper gives an overview of the coarse-grained models of phospholipids recently developed by the...
Understanding mesoscopic phenomena in terms of the fundamental motions of atoms and electrons poses ...
We develop a multiscale hybrid scheme for simulations of soft condensed matter systems, which allows...
We present the implementation of a Born-Oppenheimer (BO) hybrid quantum mechanics/molecular mechanic...
We describe and test a novel molecular dynamics method which combines quantum-mechanical embedding a...
Hybrid all-atom (AA) and coarse-grained (CG) simulation has the possibility of overcoming the limita...
In the framework of a recently developed scheme for a hybrid particle-field simulation technique whe...
In this work, we present a general route to hybrid Quantum Mechanics/Molecular Mechanics (QM/MM) Mol...
Iterative energy minimization with the aim of achieving self-consistency is a common feature of Born...