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Narrow-band anisotropic magnetized ferrite material simulation by approximate Crank–Nicolson procedure with improved nearly absorbing condition

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  • Peiyu Wu
  • Xin Wang
  • Yongjun Xie
  • Haolin Jiang
  • Toshiaki Natsuki

Abstract

To simulate magnetized ferrite with unique anisotropic property, unconditionally stable implementation is proposed with improved absorbing condition. To be more particular, unconditionally stable scheme is based on the Crank-Nicolson (CN) procedure with approximatefactorization-splitting (AFS) scheme, higher-order nearly perfectly matched layer (NPML) formulation and complex envelope (CE) method. Simulation formulation of anisotropic ferrite material is modified according to both CN procedure and CE method. The accuracy, efficiency and absorption can be demonstrated through numerical examples. Compared with the theory resolution and simulation results, the proposed scheme can receive considerable performance with larger CFLNs from the aspects of decreased error and enhanced accuracy. By employing the higher-order formulation, absorption can be improved significantly especially in the low-frequency band. It can also maintain the unconditional stability when the time step surpasses the stability condition. Most importantly, it can solve time increment problem among the implicit algorithms with lower CFLNs in narrow-band simulation.

Suggested Citation

  • Peiyu Wu & Xin Wang & Yongjun Xie & Haolin Jiang & Toshiaki Natsuki, 2022. "Narrow-band anisotropic magnetized ferrite material simulation by approximate Crank–Nicolson procedure with improved nearly absorbing condition," Journal of Electromagnetic Waves and Applications, Taylor & Francis Journals, vol. 36(13), pages 1813-1837, September.
  • Handle: RePEc:taf:tewaxx:v:36:y:2022:i:13:p:1813-1837
    DOI: 10.1080/09205071.2022.2043782
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