Multiscale Modeling and Coarse Graining of Polymer Dynamics: Simulations Guided by Statistical Beyond-Equilibrium Thermodynamics Export

@article{citeulike:6079771, abstract = {We review some recent coarse-graining and multi-scale methods, but also put forward some new ideas for addressing such issues. We find that, if one is guided by nonequilibrium statistical mechanics and thermodynamics, it is possible to design well-founded multi-scale modeling tools that can link microscopic models with macroscopic constitutive equations. Such multi-scale modeling tools benefit from recently proposed approaches for static coarse graining which are mainly built on potentials of mean force. For dynamical properties, however, coarse-grained models need to account for dissipative effects that arise due to fast degrees of freedom that are eliminated in favor of the remaining slowly varying ones. The proper definition of the set of the state variables, effectively representing the nonequilibrium states is the first key to the success of such an approach. Linking the microscopic model with a macroscopic model built on these slowly relaxing variables is the second key. We illustrate the new approach for a flowing, low-molecular polymer melt.}, archivePrefix = {arXiv}, author = {Ilg, Patrick and Mavrantzas, Vlasis and \"{O}ttinger, Hans C.}, citeulike-article-id = {6079771}, citeulike-linkout-0 = {http://arxiv.org/abs/0911.1001}, citeulike-linkout-1 = {http://arxiv.org/pdf/0911.1001}, day = {5}, eprint = {0911.1001}, month = {Nov}, posted-at = {2009-11-06 02:16:42}, priority = {2}, title = {Multiscale Modeling and Coarse Graining of Polymer Dynamics: Simulations Guided by Statistical Beyond-Equilibrium Thermodynamics}, url = {http://arxiv.org/abs/0911.1001}, year = {2009} }

TY - JOUR ID - citeulike:6079771 L3 - citeulike-article-id:6079771 N2 - We review some recent coarse-graining and multi-scale methods, but also put forward some new ideas for addressing such issues. We find that, if one is guided by nonequilibrium statistical mechanics and thermodynamics, it is possible to design well-founded multi-scale modeling tools that can link microscopic models with macroscopic constitutive equations. Such multi-scale modeling tools benefit from recently proposed approaches for static coarse graining which are mainly built on potentials of mean force. For dynamical properties, however, coarse-grained models need to account for dissipative effects that arise due to fast degrees of freedom that are eliminated in favor of the remaining slowly varying ones. The proper definition of the set of the state variables, effectively representing the nonequilibrium states is the first key to the success of such an approach. Linking the microscopic model with a macroscopic model built on these slowly relaxing variables is the second key. We illustrate the new approach for a flowing, low-molecular polymer melt. TI - Multiscale Modeling and Coarse Graining of Polymer Dynamics: Simulations Guided by Statistical Beyond-Equilibrium Thermodynamics AU - Ilg, Patrick AU - Mavrantzas, Vlasis AU - Öttinger, Hans PY - 2009/Nov/05/ UR - http://arxiv.org/abs/0911.1001 ER -