Complex soft matter systems can be efficiently studied with the help of adaptive resolution simulation methods, concurrently employing two levels of resolution in different regions of the simulation domain. The nonmatching properties of high- and low-resolution models, however, lead to thermodynamic imbalances between the system's subdomains. Such inhomogeneities can be healed by appropriate compensation forces, whose calculation requires nontrivial iterative procedures. In this work we employ the recently developed Hamiltonian adaptive resolution simulation method to perform Monte Carlo simulations of a binary mixture, and propose an efficient scheme, based on Kirkwood thermodynamic integration, to regulate the thermodynamic balance o...
We employ the adaptive resolution approach AdResS, in its recently developed Grand Canonical-like ve...
Adaptive quantum mechanical (QM)/molecular mechanical (MM) methods enable efficient molecular simula...
We investigate the role of the thermodynamic (TD) force, as an essential and sufficient technical in...
Complex soft matter systems can be efficiently studied with the help of adaptive resolution simulati...
Complex soft matter systems can be efficiently studied with the help of adaptive resolution simulati...
Artículo escrito por un elevado número de autores, solo se referencian el que aparece en primer luga...
Abstract: We derive a Hamiltonian and present a simula-tion protocol for mixed-resolution systems th...
The Adaptive Resolution Scheme (AdResS) is a hybrid scheme that allows to treat a molecular system w...
Adaptive molecular resolution approaches in molecular dynamics are becoming relevant tools for the a...
We employ the adaptive resolution approach AdResS, in its recently developed Grand Canonical-like ve...
For simulation studies of (macro) molecular liquids it would be of significant interest to be able t...
For simulation studies of (macro) molecular liquids it would be of significant interest to be able t...
Adaptive Molecular Resolution approaches in Molecular Dynamics are becoming relevant tools for the a...
Using the adaptive resolution (AdResS) molecular dynamics scheme, we present a new approach to calcu...
We investigate the role of the thermodynamic (TD) force as an essential and sufficient technical ing...
We employ the adaptive resolution approach AdResS, in its recently developed Grand Canonical-like ve...
Adaptive quantum mechanical (QM)/molecular mechanical (MM) methods enable efficient molecular simula...
We investigate the role of the thermodynamic (TD) force, as an essential and sufficient technical in...
Complex soft matter systems can be efficiently studied with the help of adaptive resolution simulati...
Complex soft matter systems can be efficiently studied with the help of adaptive resolution simulati...
Artículo escrito por un elevado número de autores, solo se referencian el que aparece en primer luga...
Abstract: We derive a Hamiltonian and present a simula-tion protocol for mixed-resolution systems th...
The Adaptive Resolution Scheme (AdResS) is a hybrid scheme that allows to treat a molecular system w...
Adaptive molecular resolution approaches in molecular dynamics are becoming relevant tools for the a...
We employ the adaptive resolution approach AdResS, in its recently developed Grand Canonical-like ve...
For simulation studies of (macro) molecular liquids it would be of significant interest to be able t...
For simulation studies of (macro) molecular liquids it would be of significant interest to be able t...
Adaptive Molecular Resolution approaches in Molecular Dynamics are becoming relevant tools for the a...
Using the adaptive resolution (AdResS) molecular dynamics scheme, we present a new approach to calcu...
We investigate the role of the thermodynamic (TD) force as an essential and sufficient technical ing...
We employ the adaptive resolution approach AdResS, in its recently developed Grand Canonical-like ve...
Adaptive quantum mechanical (QM)/molecular mechanical (MM) methods enable efficient molecular simula...
We investigate the role of the thermodynamic (TD) force, as an essential and sufficient technical in...