Comparison and evaluation of boundary conditions in an FDTD-1D Simulation

Authors

  • Mohammed chaker AKALY NOUINOU Department of Physics, Abdelmalek Essaadi University, Faculty of Sciences Tetouan Tetouan, 93000, Morocco
  • Asmaa ZUGARI Department of Physics, Intelligent system designe, Faculty of Sciences Tetouan Tetouan, 93000, Morocco
  • Ahmed BOUTTA Department of Physics, Intelligent system designe, Faculty of Sciences Tetouan Tetouan, 93000, Morocco

DOI:

https://doi.org/10.5281/zenodo.10397311

Keywords:

Electromagnetic, FDTD, PML, Boundary Condition

Abstract

The FDTD is derived by discretizing Maxwell's equation using the fi-nite difference (FD) method, it is commonly used in solving differential equations. One fundamental challenge faced during implementing FDTD method is the application of boundary conditions, it can be employed to enhance the perfor-mance of the simulation. To evaluate the effectiveness of different boundary con-ditions, a one-dimensional FDTD simulation is carried out in this work. The im-pact of various boundary conditions such as PEC, PMC, 1st order Mur Bounda-ry and PML and CPML, on the plane wave propagation along the z axis are explored. The choice of each boundary depends on the specific problem being solved

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Published

2023-10-30

How to Cite

AKALY NOUINOU, M. chaker, ZUGARI, A., & BOUTTA, A. (2023). Comparison and evaluation of boundary conditions in an FDTD-1D Simulation. Progress in Electrical Engineering and Applied Physics, 1(3), 19–29. https://doi.org/10.5281/zenodo.10397311

Issue

Vol. 1 No. 3 (2023): October 2023

Section

Articles