A domain decomposition method for solving the three-dimensional time-harmonic Maxwell equations discretized by discontinuous Galerkin methods

Dolean Maini, Victorita and Lanteri, Stephane and Perrussel, Ronan (2008) A domain decomposition method for solving the three-dimensional time-harmonic Maxwell equations discretized by discontinuous Galerkin methods. Journal of Computational Physics, 227 (3). pp. 2044-2072. ISSN 0021-9991 (https://doi.org/10.1016/j.jcp.2007.10.004)

[thumbnail of preprint_ddm_ieee.pdf]
Preview
PDF. Filename: preprint_ddm_ieee.pdf
Preprint

Download (571kB)| Preview

Abstract

We present here a domain decomposition method for solving the three-dimensional time-harmonic Maxwell equations discretized by a discontinuous Galerkin method. In order to allow the treatment of irregularly shaped geometries, the discontinuous Galerkin method is formulated on unstructured tetrahedral meshes. The domain decomposition strategy takes the form of a Schwarz-type algorithm where a continuity condition on the incoming characteristic variables is imposed at the interfaces between neighboring subdomains. A multifrontal sparse direct solver is used at the subdomain level. The resulting domain decomposition strategy can be viewed as a hybrid iterative/direct solution method for the large, sparse and complex coefficients algebraic system resulting from the discretization of the time-harmonic Maxwell equations by a discontinuous Galerkin method.

ORCID iDs

Dolean Maini, Victorita ORCID logoORCID: https://orcid.org/0000-0002-5885-1903, Lanteri, Stephane and Perrussel, Ronan;