Title :
Low-frequency image theory for a current dipole in front of a permeable sphere
Author_Institution :
Electromagn. Lab., Helsinki Univ. of Technol., Espoo, Finland
fDate :
3/1/1995 12:00:00 AM
Abstract :
Image theory, previously developed for an electric low-frequency dipole in front of a dielectric sphere, is formulated for the magnetically permeable sphere. The low-frequency image source corresponding to an electric dipole outside the sphere arises only in the case when the orientation of the dipole is perpendicular to the radial direction. Two alternative image representations are developed. One is a combination of a magnetic strip current and a bifilar magnetic line current, both flowing between the center of the sphere and the Kelvin inversion point on the axis connecting the sphere and the dipole. The other is a combination of a magnetic strip current and an electric strip current Bowing in orthogonal directions between the center and the inversion point of the sphere. A simple approximation for the image source is also derived.<>
Keywords :
electric current; electrostatics; magnetic permeability; Kelvin inversion point; bifilar magnetic line current; current dipole; dipole orientation; electrostatics; image representations; image source approximation; low-frequency image theory; magnetic strip current; magnetically permeable sphere; radial direction; Books; Dielectrics; Electrostatics; Image representation; Joining processes; Kelvin; Magnetic fields; Magnetostatic waves; Strips;
Journal_Title :
Magnetics, IEEE Transactions on
