In this work, we make an attempt to answer the question of what a multiscale problem is in Molecular Dynamics (MD), or, more in general, in Molecular Simulation (MS). By introducing the criterion of separability of scales, we identify three major (reference) categories of multiscale problems and discuss their corresponding computational strategies by making explicit examples of applications. View Full-Tex
Multiscale and multiphysics approaches have become an integral part of the molecular modeling and si...
This is an arXiv preprint which has not been certified by peer review. 21 pages, 8 figures perspecti...
Nature is intrinsically multiscale, with physical length scales ranging from the Planck length to pl...
In this work, we make an attempt to answer the question of what a multiscale problem is in Molecular...
In this work, we make an attempt to answer the question of what a multiscale problem is in Molecular...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale techniques are becoming increasingly important for molecular simulation as a result of in...
Introduction Molecular dynamics is a general and basic approach for performing atomisticlevel simul...
Multiscale modeling and computation is a rapidly evolving area of research that will have a fundamen...
Multiscale and multiphysics approaches have become an integral part of the molecular modeling and si...
Multiscale and multiphysics approaches have become an integral part of the molecular modeling and si...
This is an arXiv preprint which has not been certified by peer review. 21 pages, 8 figures perspecti...
Nature is intrinsically multiscale, with physical length scales ranging from the Planck length to pl...
In this work, we make an attempt to answer the question of what a multiscale problem is in Molecular...
In this work, we make an attempt to answer the question of what a multiscale problem is in Molecular...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale systems that are characterized by a great range of spatial–temporal scales arise widely i...
Multiscale techniques are becoming increasingly important for molecular simulation as a result of in...
Introduction Molecular dynamics is a general and basic approach for performing atomisticlevel simul...
Multiscale modeling and computation is a rapidly evolving area of research that will have a fundamen...
Multiscale and multiphysics approaches have become an integral part of the molecular modeling and si...
Multiscale and multiphysics approaches have become an integral part of the molecular modeling and si...
This is an arXiv preprint which has not been certified by peer review. 21 pages, 8 figures perspecti...
Nature is intrinsically multiscale, with physical length scales ranging from the Planck length to pl...
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