3D eddy current computation in the frequency domain regarding the displacement current

3D eddy current computation in the frequency domain regarding the displacement current. Hahne, P. & Weiland, T. IEEE Transactions on Magnetics, 28(2):1801–1804, IEEE, March, 1992.
doi abstract bibtex

The application of the FIT (finite integration theory) method to the problem of 3D eddy current computation is presented. Fields are treated in terms of E and B the excitation is represented by time harmonic currents. Materials can be anisotropic with real ∈, μ, and κ. The displacement current is taken into account, and thus high-frequency eddy current problems can be treated as well as the case where there are no conductive regions (e.g. air coils). For nonconductive regions the additional condition div D=0 is imposed

@Article{         Hahne_1992aa,
  abstract      = {The application of the FIT (finite integration theory) method to the problem of 3D eddy current computation is presented. Fields are treated in terms of E and B the excitation is represented by time harmonic currents. Materials can be anisotropic with real ∈, μ, and κ. The displacement current is taken into account, and thus high-frequency eddy current problems can be treated as well as the case where there are no conductive regions (e.g. air coils). For nonconductive regions the additional condition div D=0 is imposed},
  author        = {Hahne, Peter and Weiland, Thomas},
  doi           = {10.1109/20.124056},
  file          = {Hahne_1992aa.pdf},
  issn          = {0018-9464},
  journal       = {IEEE Transactions on Magnetics},
  keywords      = {fit,eddy-currents,displacement-current},
  langid        = {english},
  month         = mar,
  number        = {2},
  pages         = {1801--1804},
  publisher     = {IEEE},
  title         = {3D eddy current computation in the frequency domain regarding the displacement current},
  volume        = {28},
  year          = {1992},
  shortjournal  = {IEEE Trans. Magn.}
}

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