https://doi.org/10.1051/epjap:2004167
Analytical and discrete approaches for 3D magnetic field profiling
1
L2ES-UTBM, bâtiment F, rue Thierry Mieg, 90018 Belfort Cedex, France
2
ALSTOM, 3 avenue des Trois Chênes, 90018 Belfort Cedex, France
Corresponding author: abdesslem.djerdir@utbm.fr
Received:
11
February
2002
Revised:
2
April
2004
Accepted:
6
May
2004
Published online:
30
August
2004
Two methodologies are presented allowing to find the current density on a revolution surface to obtain a given 3D magnetic field distribution. The combination of the Biot-Savart law and the superposition theory is used to establish an algebraic relationship between the predefined magnetic field and the searched current density. Basically, two approaches are used: the continuous approach, in which the current density is modeled by an analytical function and the discrete method where the searched current density is given by a list of values that match a mesh of the magnet support. Furthermore, the use of the spherical harmonic development of the predefined magnetic field leads to a compact formulation of the inverse problem. The proposed matrix methodology has been developed for any magnet having a revolution axis (revolution magnets). A computer code which uses both approaches has been developed and gives good simulation results, which show an interesting prospects for new magnet design.
PACS: 41.20.Gz – Magnetostatics; magnetic shielding, magnetic induction, boundary-value problems
© EDP Sciences, 2004
