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FDTD analysis of magnetized ferrites: an approach based on the rotated Richtmyer difference scheme

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4 Author(s)
Pereda, J.A. ; Dept. de Electron., Cantabria Univ., Spain ; Vielva, L.A. ; Vegas, A. ; Prieto, A.

Electromagnetic wave propagation in magnetized ferrites is modeled by solving Maxwell's time-dependent curl equations coupled with the equation of motion of the magnetization vector. A discretization approach based on the rotated Richtmyer finite-difference scheme is proposed. The new approach has been used to calculate the phase constants of transversally magnetized ferrite-loaded waveguides. The numerical dispersion equation for TE/sub n0/ modes is derived. The results obtained with this approach for a ferrite-filled and a ferrite-slab loaded waveguide are compared with those obtained with Yee's scheme extended for the treatment of ferrites and with the exact results.<>

Published in:

Microwave and Guided Wave Letters, IEEE  (Volume:3 ,  Issue: 9 )

Date of Publication:

Sept. 1993

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