Title :
Calculation of magnetic vector potential jump on edges in a reduced-total formulations
Author :
Simkin, J. ; Taylor, S.C. ; Xu, E.
Author_Institution :
Vector Fields Ltd., Oxford, UK
Abstract :
Methods are described to calculate a magnetic vector potential that represents imposed source fields, required in total and reduced vector potential formulations for the quasistatic limit of Maxwell´s equations. The methods are based on either a step-by-step approach using a tree-cotree graph, or a minimisation procedure. The application of the discontinuous potential jump values on the edges of the finite-element mesh, at the interface surface between total and reduced vector potential volumes, is demonstrated through its successful application to a simple analytic problem. It is also successfully applied to a more complex topological problem, where comparison with a validated numerical solution can be made.
Keywords :
Maxwell equations; coils; computational electromagnetics; electric current; electromagnetic fields; magnetic flux; mesh generation; minimisation; trees (mathematics); Maxwell equations; coils; complex topological problem; computational electromagnetics; discontinuous potential jump; electric current; finite element mesh; magnetic vector potential jump; minimisation procedure; quasistatic limit; reduced vector potential formulations; step-by-step approach; total potential formulation; tree-cotree graph;
Journal_Title :
Science, Measurement and Technology, IEE Proceedings -
DOI :
10.1049/ip-smt:20040724
