The ability to model molecular systems on a computer has become a crucial tool for chemists. Molecular simulations have helped to understand and predict properties of nanoscopic world, and have had large impact on domains like biology, electronic or materials development. Unfortunately, inter-atomic interactions computation costs prevent large systems to be modeled in a reasonable time. In this context, our research team looks for new accurate and efficient molecular simulation models. One of our team's focus is the search and elimination of useless calculus in dynamical simulations, hence has proposed a new adaptively restrained dynamical model that freezes the slowest particles movement and several interaction models that benefit from a ...
This thesis is dedicated to the study of adaptive biasing algorithms for molecular dynamics simulati...
In the context of classical molecular dynamics applied to condensed matter physics, CEA researchers ...
Abstract: The interpretation of physico-chemical observables in terms of atomic motions is one of th...
The ability to model molecular systems on a computer has become a crucial tool for chemists. Molecul...
L'informatique est devenue un outil incontournable de la chimie. En effet la capacité de simuler des...
Particle simulations have become an essential tool in various fields such as physics, astrophysics, ...
Les méthodes de dynamique moléculaire (MD pour Molecular Dynamics en anglais) sont utilisées pour si...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
Molecular simulations have become an essential tool in biology, chemistry and physics. Unfortunately...
At the atomic scale, interactive physically-based modeling tools are more and more in demand. Unfort...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
A new algorithm for efficient and fully time-reversible integration of first-principles molecular dy...
International audienceInteraction potentials used in particle simulations are typically written as a...
First-principles molecular dynamics (FPMD) and its quantum mechanical-molecular mechanical (QM/MM) e...
This thesis is dedicated to the study of adaptive biasing algorithms for molecular dynamics simulati...
In the context of classical molecular dynamics applied to condensed matter physics, CEA researchers ...
Abstract: The interpretation of physico-chemical observables in terms of atomic motions is one of th...
The ability to model molecular systems on a computer has become a crucial tool for chemists. Molecul...
L'informatique est devenue un outil incontournable de la chimie. En effet la capacité de simuler des...
Particle simulations have become an essential tool in various fields such as physics, astrophysics, ...
Les méthodes de dynamique moléculaire (MD pour Molecular Dynamics en anglais) sont utilisées pour si...
Molecular Dynamics (MD) is often used to simulate large and complex systems. Although, simulating su...
Molecular simulations have become an essential tool in biology, chemistry and physics. Unfortunately...
At the atomic scale, interactive physically-based modeling tools are more and more in demand. Unfort...
International audienceThe computation of long-range potentials is one of the demanding tasks in Mole...
A new algorithm for efficient and fully time-reversible integration of first-principles molecular dy...
International audienceInteraction potentials used in particle simulations are typically written as a...
First-principles molecular dynamics (FPMD) and its quantum mechanical-molecular mechanical (QM/MM) e...
This thesis is dedicated to the study of adaptive biasing algorithms for molecular dynamics simulati...
In the context of classical molecular dynamics applied to condensed matter physics, CEA researchers ...
Abstract: The interpretation of physico-chemical observables in terms of atomic motions is one of th...