Convergence and superconvergence of staggered discontinuous Galerkin methods for the three-dimensional Maxwells equations on Cartesian grids

Tsz Shun Eric CHUNG Patrick Ciarlet Jr Tang Fei Yu

TBD mathscidoc:1910.43471

Journal of Computational Physics, 235, 14-31, 2013.2
In this paper, a new type of staggered discontinuous Galerkin methods for the three dimensional Maxwells equations is developed and analyzed. The spatial discretization is based on staggered Cartesian grids so that many good properties are obtained. First of all, our method has the advantages that the numerical solution preserves the electromagnetic energy and automatically fulfills a discrete version of the Gauss law. Moreover, the mass matrices are diagonal, thus time marching is explicit and is very efficient. Our method is high order accurate and the optimal order of convergence is rigorously proved. It is also very easy to implement due to its Cartesian structure and can be regarded as a generalization of the classical Yees scheme as well as the quadrilateral edge finite elements. Furthermore, a superconvergence result, that is the convergence rate is one order higher at interpolation nodes, is proved
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@inproceedings{tsz2013convergence,
  title={Convergence and superconvergence of staggered discontinuous Galerkin methods for the three-dimensional Maxwells equations on Cartesian grids},
  author={Tsz Shun Eric CHUNG, Patrick Ciarlet Jr, and Tang Fei Yu},
  url={http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20191020175957644856000},
  booktitle={Journal of Computational Physics},
  volume={235},
  pages={14-31},
  year={2013},
}
Tsz Shun Eric CHUNG, Patrick Ciarlet Jr, and Tang Fei Yu. Convergence and superconvergence of staggered discontinuous Galerkin methods for the three-dimensional Maxwells equations on Cartesian grids. 2013. Vol. 235. In Journal of Computational Physics. pp.14-31. http://archive.ymsc.tsinghua.edu.cn/pacm_paperurl/20191020175957644856000.
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