In the last few decades, computer simulations have become a fundamental tool in the field of soft matter science, allowing researchers to investigate the properties of a large variety of systems. Nonetheless, even the most powerful computational resources presently available are, in general, sufficient to simulate complex biomolecules only for a few nanoseconds. This limitation is often circumvented by using coarse-grained models, in which only a subset of the system’s degrees of freedom is retained; for an effective and insightful use of these simplified models; however, an appropriate parametrization of the interactions is of fundamental importance. Additionally, in many cases the removal of fine-grained details in a specific, small regio...
Abstract: We derive a Hamiltonian and present a simula-tion protocol for mixed-resolution systems th...
The aim of molecular coarse-graining approaches is to recover relevant physical properties of the mo...
Molecular simulations of many phenomena related to biomolecular systems, soft matter and nanomateria...
In the last few decades, computer simulations have become a fundamental tool in the field of soft ma...
In the last few decades, computer simulations have become a fundamental tool in the field of soft ma...
One of the most challenging aspects in the computational study of soft matter is its intrinsic multi...
Computer simulations of soft matter require a compromise to be made between the computational effici...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
Molecular dynamics (MD) has become one of the most powerful tools of investigation in soft matter. D...
Computer simulations of molecules and atoms are useful tools in soft matter research. Physical chemi...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We develop here an adaptive multiresolution method for the simulation of complex heterogeneous syste...
We present a promising coarse-graining strategy for linking micro- and mesoscales of soft matter sys...
From the introduction: "... This thesis reports on simplified models (`coarse grained') of proteins ...
Abstract: We derive a Hamiltonian and present a simula-tion protocol for mixed-resolution systems th...
The aim of molecular coarse-graining approaches is to recover relevant physical properties of the mo...
Molecular simulations of many phenomena related to biomolecular systems, soft matter and nanomateria...
In the last few decades, computer simulations have become a fundamental tool in the field of soft ma...
In the last few decades, computer simulations have become a fundamental tool in the field of soft ma...
One of the most challenging aspects in the computational study of soft matter is its intrinsic multi...
Computer simulations of soft matter require a compromise to be made between the computational effici...
Multiscale techniques bridge what is often mutually excluding in computer models: accuracy and effic...
Molecular dynamics (MD) has become one of the most powerful tools of investigation in soft matter. D...
Computer simulations of molecules and atoms are useful tools in soft matter research. Physical chemi...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We provide an overview of the Adaptive Resolution Simulation method (AdResS) based on discussing its...
We develop here an adaptive multiresolution method for the simulation of complex heterogeneous syste...
We present a promising coarse-graining strategy for linking micro- and mesoscales of soft matter sys...
From the introduction: "... This thesis reports on simplified models (`coarse grained') of proteins ...
Abstract: We derive a Hamiltonian and present a simula-tion protocol for mixed-resolution systems th...
The aim of molecular coarse-graining approaches is to recover relevant physical properties of the mo...
Molecular simulations of many phenomena related to biomolecular systems, soft matter and nanomateria...