A High-Order Accurate Method for Frequency Domain Maxwell Equations with Discontinuous Coefficients

We consider fourth order accurate compact schemes for numerical solutions to the Maxwell equations. The same mesh stencil is used as in the standard Yee scheme. In particular extra information over a wider stencil is not required. This has several advantages. First, it is relatively easy to modify a

The Discontinuous Galerkin method is an accurate and efficient way to numerically solve the time-dependent Maxwell equations. In this paper, we extend the basic, two-dimensional formulation for isotropic materials to allow anisotropic permittivity tensors. Using a reference system with an analytical

In this paper we develop an OcTree discretization for Maxwell's equations in the quasi-static regime. We then use this discretization in order to develop a multigrid method for Maxwell's equations with highly discontinuous coefficients. We test our algorithms and compare it to other multilevel algor