A method of computing magnetostatic fields is described that is based on a numerical solution of the integral equation obtained from Green's Theorems. The magnetic scalar potential and its normal derivative on the surfaces of volumes are found by solving a set of linear equations. These are obtained from Green's Second Theorem and the continuity conditions at interfaces between volumes. Results from a two-dimensional computer program are presented and these show the method to be accurate and efficient
An enhanced version of a mixed field-based formulation for magnetostatics developed in previous pape...
In this paper the magnetic field is computed as the superposition of two contributions: B = B0 + ΔB....
Abstract. The aim of this paper is to analyze a numerical method for solving the magneto-static prob...
The paper deals with a procedure for the computation of the magnetostatic field in a vacuum. A very ...
International audienceAn integral method using the magnetic scalar potential to solve nonlinear magn...
A requirement currently exists in both mineral exploration and environmental or engineering geophysi...
A method of combined use of magnetic vector potential based finite-element (FE) formulations and mag...
This paper presents a procedure for using integrals to solve nonlinear magnetostatic field problems....
The subject of magnetostatics - the mathematical theory that describes the forces and fields resulti...
International audienceAn analytical method for the calculation of the magnetostatic scalar potential...
A three-dimensional magnetostatic field computation method is presented. It uses the vector potentia...
A new formulation of magnetostatics is given: it uses the magnetic field $h$ as variable and a pena...
The volume integral equation method is considered for magnetic systems. New modeling results are rep...
International audiencetreated straightforwardly, and the nonlinear problems convergence was easily r...
International audienceAn integral method is used to solve magnetostatic problems. In this method, th...
An enhanced version of a mixed field-based formulation for magnetostatics developed in previous pape...
In this paper the magnetic field is computed as the superposition of two contributions: B = B0 + ΔB....
Abstract. The aim of this paper is to analyze a numerical method for solving the magneto-static prob...
The paper deals with a procedure for the computation of the magnetostatic field in a vacuum. A very ...
International audienceAn integral method using the magnetic scalar potential to solve nonlinear magn...
A requirement currently exists in both mineral exploration and environmental or engineering geophysi...
A method of combined use of magnetic vector potential based finite-element (FE) formulations and mag...
This paper presents a procedure for using integrals to solve nonlinear magnetostatic field problems....
The subject of magnetostatics - the mathematical theory that describes the forces and fields resulti...
International audienceAn analytical method for the calculation of the magnetostatic scalar potential...
A three-dimensional magnetostatic field computation method is presented. It uses the vector potentia...
A new formulation of magnetostatics is given: it uses the magnetic field $h$ as variable and a pena...
The volume integral equation method is considered for magnetic systems. New modeling results are rep...
International audiencetreated straightforwardly, and the nonlinear problems convergence was easily r...
International audienceAn integral method is used to solve magnetostatic problems. In this method, th...
An enhanced version of a mixed field-based formulation for magnetostatics developed in previous pape...
In this paper the magnetic field is computed as the superposition of two contributions: B = B0 + ΔB....
Abstract. The aim of this paper is to analyze a numerical method for solving the magneto-static prob...