An coarse-grained approach to thermocapillarity effects in binary fluid systems is discussed along with example numerical results
This thesis aims to examine the parametrisation of coarse-grained models for the simulation of soft ...
We review a few representative examples of granular experiments or models where phase separation, ac...
Coarse-grained (CG) models reduce the number of degrees of freedom in a system, allowing the dynamic...
When a system such as a binary liquid is cooled rapidly from a homogeneous phase into a two-phase r...
We study the evolution of binary mixtures far from equilibrium, and show that the interplay between ...
peer reviewedA general formulation of stochastic thermodynamics is presented for open systems exchan...
We study the phase separation of a binary mixture in uniform shear flow in the framework of the cont...
When a symmetric regular binary mixture, subjected to a constant shear, is quenched into the unstead...
The phase behavior of systems that are termed thermodynamically small has been the subject of intens...
In this thesis, we consider two models from physics, which are characterized by the interplay of the...
Computer simulations of molecules and atoms are useful tools in soft matter research. Physical chemi...
Results are presented from numerical experiments aiming at the computation of stochastic phase-field...
La thermodiffusion, également appelé effet Soret, décrit le couplage entre les gradients de températ...
We investigate the effect of coarse graining on the thermodynamic properties of a system, focusing o...
Coarse-graining modeling is a leading technique in multiscale simulations that has been continuously...
This thesis aims to examine the parametrisation of coarse-grained models for the simulation of soft ...
We review a few representative examples of granular experiments or models where phase separation, ac...
Coarse-grained (CG) models reduce the number of degrees of freedom in a system, allowing the dynamic...
When a system such as a binary liquid is cooled rapidly from a homogeneous phase into a two-phase r...
We study the evolution of binary mixtures far from equilibrium, and show that the interplay between ...
peer reviewedA general formulation of stochastic thermodynamics is presented for open systems exchan...
We study the phase separation of a binary mixture in uniform shear flow in the framework of the cont...
When a symmetric regular binary mixture, subjected to a constant shear, is quenched into the unstead...
The phase behavior of systems that are termed thermodynamically small has been the subject of intens...
In this thesis, we consider two models from physics, which are characterized by the interplay of the...
Computer simulations of molecules and atoms are useful tools in soft matter research. Physical chemi...
Results are presented from numerical experiments aiming at the computation of stochastic phase-field...
La thermodiffusion, également appelé effet Soret, décrit le couplage entre les gradients de températ...
We investigate the effect of coarse graining on the thermodynamic properties of a system, focusing o...
Coarse-graining modeling is a leading technique in multiscale simulations that has been continuously...
This thesis aims to examine the parametrisation of coarse-grained models for the simulation of soft ...
We review a few representative examples of granular experiments or models where phase separation, ac...
Coarse-grained (CG) models reduce the number of degrees of freedom in a system, allowing the dynamic...