Research Output
Computation of electromagnetic fields in dense biological cell structures using modified subgridding of quasi-static FDTD method
  This paper demonstrates the detailed electromagnetic modelling of biological cell structures by using modified subgridding FDTD techniques. This is done by incorporating a quasi-static FDTD solution, Floquet periodic boundary conditions and modified PML boundary conditions to achieve microdosimetric modelling of bioelectromagnetic interactions at cellular level. Particular attention is paid to exploration of the field distribution over the membrane layer of the biological cells. The method enables the analysis of a large structure of cells in a more computationally efficient way than the modelling of the entire structure. The total fields of the simulated structures are shown to give reasonable and stable results at 2450 MHz.

  • Date:

    07 April 2008

  • Publication Status:

    Published

  • Publisher

    IEEE

  • DOI:

    10.1049/cp:20080227

  • Library of Congress:

    TK Electrical engineering. Electronics Nuclear engineering

  • Dewey Decimal Classification:

    621.34 Electromagnetic engineering

  • Funders:

    Historic Funder (pre-Worktribe)

Citation

See, C., Abd-Alhameed, R., & Excell, P. (2008). Computation of electromagnetic fields in dense biological cell structures using modified subgridding of quasi-static FDTD method. In IET 7th International Conference on Computation in Electromagnetics (CEM 2008) (92-93). https://doi.org/10.1049/cp%3A20080227

Authors

Keywords

Finite Difference Time Domain (FDTD), Floquet periodic boundary conditions, Quasi-Static method, Subgridding

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