We discuss a 3D model describing the time evolution of nematic liquid crystals in the framework of Landau-de Gennes theory, where the natural physical constraints are enforced by a singular free energy bulk potential proposed by J.M. Ball and A. Majumdar. The thermal effects are present through the component of the free energy that accounts for intermolecular interactions. The model is consistent with the general principles of thermodynamics and mathematically tractable. We identify the a priori estimates for the associated system of evolutionary partial differential equations and construct global-in-time weak solutions for arbitrary physically relevant initial data
We propose a dynamical model for (non-isothermal) phase transitions in liquid crystals. Macroscopic ...
We propose a Landau–de Gennes variational theory fit to simultaneously describe isotropic, nematic, ...
We study the dynamics of a nematic liquid crystal in a shear flow by employing the gradient of the L...
We discuss a 3D model describing the time evolution of nematic liquid crystals in the framework of L...
We discuss a 3D model describing the time evolution of nematic liquid crystals in the framework of L...
We discuss a 3D model describing the time evolution of nematic liquid crystals in the framework of L...
In this paper, we prove the existence of global-in-time weak solutions for an evolutionary PDE syste...
In this paper, we prove the existence of global-in-time weak solutions for an evolutionary PDE syste...
A model describing the evolution of a liquid crystal substance in the nematic phase is investigated ...
In this paper we prove the existence of global in time weak solutions for an evolutionary PDE syste...
We introduce a new class of non-isothermal models describing the evolution of nematic liquid crystal...
I The objective: include the temperature dependence in models describing the evolution of nematic li...
The Landau–de Gennes theory provides a successful macroscopic description of nematics. Cornerstone o...
In the present contribution, we study a PDE system describing the evolution of a nematic liquid crys...
We define a continuum energy functional that effectively interpolates between the mean-field Maier-S...
We propose a dynamical model for (non-isothermal) phase transitions in liquid crystals. Macroscopic ...
We propose a Landau–de Gennes variational theory fit to simultaneously describe isotropic, nematic, ...
We study the dynamics of a nematic liquid crystal in a shear flow by employing the gradient of the L...
We discuss a 3D model describing the time evolution of nematic liquid crystals in the framework of L...
We discuss a 3D model describing the time evolution of nematic liquid crystals in the framework of L...
We discuss a 3D model describing the time evolution of nematic liquid crystals in the framework of L...
In this paper, we prove the existence of global-in-time weak solutions for an evolutionary PDE syste...
In this paper, we prove the existence of global-in-time weak solutions for an evolutionary PDE syste...
A model describing the evolution of a liquid crystal substance in the nematic phase is investigated ...
In this paper we prove the existence of global in time weak solutions for an evolutionary PDE syste...
We introduce a new class of non-isothermal models describing the evolution of nematic liquid crystal...
I The objective: include the temperature dependence in models describing the evolution of nematic li...
The Landau–de Gennes theory provides a successful macroscopic description of nematics. Cornerstone o...
In the present contribution, we study a PDE system describing the evolution of a nematic liquid crys...
We define a continuum energy functional that effectively interpolates between the mean-field Maier-S...
We propose a dynamical model for (non-isothermal) phase transitions in liquid crystals. Macroscopic ...
We propose a Landau–de Gennes variational theory fit to simultaneously describe isotropic, nematic, ...
We study the dynamics of a nematic liquid crystal in a shear flow by employing the gradient of the L...