Modeling bianisotropic constitutive equations, i.e., magnetoelectric coupling, in electromagnetics simulation is increasingly important, in particular in metamaterials applications. This paper introduces for the first time such constitutive relationships in the framework of finite integration technique and, furthermore, does so by allowing full generality in the discretization through arbitrary polyhedral grids. The resulting formulation is consistent, stable, and preserves the thermodynamic properties of the bianisotropic constitutive equations because of the energetic approach used to construct the interpolating functions
International audienceThis study concerns the modeling of structures made of composite mater...
To model ferromagnetic material in finite element analysis a correct description of the constitutive...
In this paper, a coupled magnetoelastic model for isotropic ferromagnetic materialsis presented. The...
Modeling bianisotropic constitutive equations, i.e. magnetoelectric coupling, in electromagnetics si...
In the recent years, reformulating the mathematical description of physical laws in an algebraic for...
International audienceWe analyze the wave propagation in two-dimensional bianisotropic media with th...
This thesis introduces polyhedral cell shapes into the formalism of the Finite Integration Technique...
Recently, bianisotropic media again received increasing importance in electromagnetic theory because...
Finite Integration Technique (FIT) provides stable and consistent discretization schemes for electro...
To date, the mechanical models of magnetoelectric couplings at finite strains have mainly been limit...
In this paper a novel approach is proposed for constructing discrete counterparts of constitutive eq...
The perfectly matched layer (PML) constitutive tensors that match more general linear media presenti...
Residual stresses may exist in different finitely deformed soft multifunctional materials such as in...
This paper presents a method for modeling magnetoelastic material where magnetic and mechanical (ela...
International audienceThis study concerns the modeling of structures made of composite mater...
To model ferromagnetic material in finite element analysis a correct description of the constitutive...
In this paper, a coupled magnetoelastic model for isotropic ferromagnetic materialsis presented. The...
Modeling bianisotropic constitutive equations, i.e. magnetoelectric coupling, in electromagnetics si...
In the recent years, reformulating the mathematical description of physical laws in an algebraic for...
International audienceWe analyze the wave propagation in two-dimensional bianisotropic media with th...
This thesis introduces polyhedral cell shapes into the formalism of the Finite Integration Technique...
Recently, bianisotropic media again received increasing importance in electromagnetic theory because...
Finite Integration Technique (FIT) provides stable and consistent discretization schemes for electro...
To date, the mechanical models of magnetoelectric couplings at finite strains have mainly been limit...
In this paper a novel approach is proposed for constructing discrete counterparts of constitutive eq...
The perfectly matched layer (PML) constitutive tensors that match more general linear media presenti...
Residual stresses may exist in different finitely deformed soft multifunctional materials such as in...
This paper presents a method for modeling magnetoelastic material where magnetic and mechanical (ela...
International audienceThis study concerns the modeling of structures made of composite mater...
To model ferromagnetic material in finite element analysis a correct description of the constitutive...
In this paper, a coupled magnetoelastic model for isotropic ferromagnetic materialsis presented. The...