The three dimensional magnetic vector potential (m.v.p.) variational formulation for magnetostatic field problems, with ideal current carrying conductors is given. An appropriate functional was chosen for this class of problems. Variational techniques were used to prove that the chosen functional is stationary whenever the partial differential equations, the Neumann, and the specified Dirichlet boundary conditions are satisfied, within and on the boundary of the volume under investigation, respectively. The finite element method is used to obtain a numerical approximation of the stationary point of the functional. A three dimensional discretization scheme involving first order tetrahedral elements was used to implement the method. The m. v....
An iterative technique, based on magnetic vector potential formulation and the Newton-Raphson method...
Three-dimensional computations of electromagnetic fields are presented with the aid of the method of...
The use of algebraic formulation for the solution of electromagnetic fields is becoming more and mor...
The results of the application of three well-known 3-D magnetic vector potential (MVP)-based finite-...
A three-dimensional magnetostatic field computation method is presented. It uses the vector potentia...
This paper describes the role and meaning of the gauge condition of magnetic vector potential, and a...
A three-dimensional finite element (FE) MVP (magnetic vector potential) formulation for electromagne...
A method of combined use of magnetic vector potential based finite-element (FE) formulations and mag...
A mixed variational formulation for the solution of three dimensional magnetostatic problems, based ...
The three dimensional magnetic field surrounding an 861 turn coil as well as that surrounding and wi...
Abstract. The aim of this paper is to analyze a numerical method for solving the magneto-static prob...
The boundary element method using electric field and magnetic flux density has been applied to three...
Purpose – Numerical three-dimensional formulations using vector potential A have been examined for m...
The three dimensional finite element formulation of eddy current problems with ac sinusoidally time ...
A three dimensional finite element formulation and algorithm for the solution of 3-d magnetic fields...
An iterative technique, based on magnetic vector potential formulation and the Newton-Raphson method...
Three-dimensional computations of electromagnetic fields are presented with the aid of the method of...
The use of algebraic formulation for the solution of electromagnetic fields is becoming more and mor...
The results of the application of three well-known 3-D magnetic vector potential (MVP)-based finite-...
A three-dimensional magnetostatic field computation method is presented. It uses the vector potentia...
This paper describes the role and meaning of the gauge condition of magnetic vector potential, and a...
A three-dimensional finite element (FE) MVP (magnetic vector potential) formulation for electromagne...
A method of combined use of magnetic vector potential based finite-element (FE) formulations and mag...
A mixed variational formulation for the solution of three dimensional magnetostatic problems, based ...
The three dimensional magnetic field surrounding an 861 turn coil as well as that surrounding and wi...
Abstract. The aim of this paper is to analyze a numerical method for solving the magneto-static prob...
The boundary element method using electric field and magnetic flux density has been applied to three...
Purpose – Numerical three-dimensional formulations using vector potential A have been examined for m...
The three dimensional finite element formulation of eddy current problems with ac sinusoidally time ...
A three dimensional finite element formulation and algorithm for the solution of 3-d magnetic fields...
An iterative technique, based on magnetic vector potential formulation and the Newton-Raphson method...
Three-dimensional computations of electromagnetic fields are presented with the aid of the method of...
The use of algebraic formulation for the solution of electromagnetic fields is becoming more and mor...