Add to ORKGThis paper considers the numerical solution of a transmission boundary-value problem for the time-harmonic Maxwell equations with the help of a special finite volume discretization. Applying this technique to several three-dimensional test problems, we obtain large, sparse, complex linear systems, which are solved by using BiCG, CGS, BiCGSTAB resp., GMRES. We combine these methods with suitably chosen preconditioning matrices and compare the speed of convergence
In this paper we discuss the properties of the finite dimensional nonlinear systems relative to the ...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
We consider solving three-dimensional electromagnetic problems in parameter regimes where the quasi-...
A computational method is given for solving the forward modeling problem for transient electromagnet...
Time-harmonic problems arise in many important applications, such as eddy current optimally controll...
We present a solution method for solving electromagnetic problems in three dimensions in parameter r...
The speed of iterative solvers for discretizations of partial differential equations (PDEs) is a sig...
A novel 3-D hybrid formulation for time-harmonic eddy current problems in multiply connected domains...
We present a novel a, v -q hybrid method for solving large-scale time-harmonic eddy-current problems...
A novel h-φ approach for solving 3-D time-harmonic eddy current problems is presented. It makes it p...
We present a massively parallel finite-element method for 3D electromagnetic forward modelling using...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
International audienceThe consideration of an integral representation as an exact boundary condition...
In computational magnetodynamics, surface impedance boundary conditions allow to accurately account ...
In computational magnetodynamics, surface impedance boundary conditions allow to accurately account ...
In this paper we discuss the properties of the finite dimensional nonlinear systems relative to the ...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
We consider solving three-dimensional electromagnetic problems in parameter regimes where the quasi-...
A computational method is given for solving the forward modeling problem for transient electromagnet...
Time-harmonic problems arise in many important applications, such as eddy current optimally controll...
We present a solution method for solving electromagnetic problems in three dimensions in parameter r...
The speed of iterative solvers for discretizations of partial differential equations (PDEs) is a sig...
A novel 3-D hybrid formulation for time-harmonic eddy current problems in multiply connected domains...
We present a novel a, v -q hybrid method for solving large-scale time-harmonic eddy-current problems...
A novel h-φ approach for solving 3-D time-harmonic eddy current problems is presented. It makes it p...
We present a massively parallel finite-element method for 3D electromagnetic forward modelling using...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
International audienceThe consideration of an integral representation as an exact boundary condition...
In computational magnetodynamics, surface impedance boundary conditions allow to accurately account ...
In computational magnetodynamics, surface impedance boundary conditions allow to accurately account ...
In this paper we discuss the properties of the finite dimensional nonlinear systems relative to the ...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
We consider solving three-dimensional electromagnetic problems in parameter regimes where the quasi-...