A conformal finite difference time domain technique for modeling curved dielectric surfaces. Yu, W. & Mittra, R. IEEE Microwave and Wireless Components Letters, 11(1):25–27, IEEE, January, 2001.
doi  abstract   bibtex   
In this paper, we present a simple yet accurate conformal Finite Difference Time Domain (FDTD) technique, which can be used to analyze curved dielectric surfaces. Unlike the existing conformal techniques for handling dielectrics, the present approach utilizes the individual electric field component along the edges of the cell, rather than requiring the calculation of its area or volume, which is partially filled with a dielectric material. The new technique shows good agreement with the results derived by mode matching and analytical methods.
@Article{         Yu_2001aa,
  abstract      = {In this paper, we present a simple yet accurate conformal Finite Difference Time Domain (FDTD) technique, which can be used to analyze curved dielectric surfaces. Unlike the existing conformal techniques for handling dielectrics, the present approach utilizes the individual electric field component along the edges of the cell, rather than requiring the calculation of its area or volume, which is partially filled with a dielectric material. The new technique shows good agreement with the results derived by mode matching and analytical methods.},
  author        = {Yu, Wenhua and Mittra, Raj},
  doi           = {10.1109/7260.905957},
  file          = {Yu_2001aa.pdf},
  issn          = {1531-1309},
  journal       = {IEEE Microwave and Wireless Components Letters},
  keywords      = {fdtd,curved,maxwell,conformal},
  langid        = {english},
  month         = jan,
  number        = {1},
  pages         = {25--27},
  publisher     = {IEEE},
  title         = {A conformal finite difference time domain technique for modeling curved dielectric surfaces},
  volume        = {11},
  year          = {2001},
  shortjournal  = {IEEE Microw. Wireless Compon. Lett.}
}

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