Title of article
Explicit local time-stepping methods for Maxwell’s equations
Author/Authors
Grote، نويسنده , , Marcus J. and Mitkova، نويسنده , , Teodora، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
20
From page
3283
To page
3302
Abstract
Explicit local time-stepping methods are derived for time dependent Maxwell equations in conducting and non-conducting media. By using smaller time steps precisely where smaller elements in the mesh are located, these methods overcome the bottleneck caused by local mesh refinement in explicit time integrators. When combined with a finite element discretisation in space with an essentially diagonal mass matrix, the resulting discrete time-marching schemes are fully explicit and thus inherently parallel. In a non-conducting source-free medium they also conserve a discrete energy, which provides a rigorous criterion for stability. Starting from the standard leap-frog scheme, local time-stepping methods of arbitrarily high accuracy are derived for non-conducting media. Numerical experiments with a discontinuous Galerkin discretisation in space validate the theory and illustrate the usefulness of the proposed time integration schemes.
Keywords
discontinuous Galerkin methods , electromagnetic waves , explicit time integration , finite element methods , Local time-stepping , Maxwell’s equations
Journal title
Journal of Computational and Applied Mathematics
Serial Year
2010
Journal title
Journal of Computational and Applied Mathematics
Record number
1555917
Link To Document