78 / 2017-05-12 11:39:57
Optimized ADE-FDTD Method in Unmagnetized Plasma
3339,1239,9532,14068
Draft Accepted
Jin-Chao Ding / University of Electronic Science and Technology of China
Yue Yang / University of Electronic Science and Technology of China
An optimized auxiliary differential equation (ADE) finite difference time domain (FDTD) method which induces amplitude-phase factors is developed to consummate the amplitude and phase information of the conventional finite difference approximation. The least-square fitting (LSF) method is applied to determine the optimized amplitude-phase factors. Compared with the ADE-FDTD method, the proposed optimized ADE-FDTD method can reduce the dispersion error and dissipation error significantly. Numerical example demonstrate that the proposed method provides result with higher accuracy than ADE-FDTD for modelling of electromagnetic wave propagation in un-magnetized plasma.
Important Date
  • Conference Date

    Dec 15

    2017

    to

    Dec 17

    2017

  • Sep 10 2017

    Draft paper submission deadline

  • Sep 20 2017

    Draft Paper Acceptance Notification

  • Sep 30 2017

    Final Paper Deadline

  • Dec 17 2017

    Registration deadline

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