Numerical implementation and performance of perfectly matched layer boundary condition for waveguide structures

The perfectly matched layer PML absorbing boundary condition has been used for a wide range of applications since its introduction in 1994. Most of these applications ha¨e used the PML in a uniform air-filled zone around a nonair scatterer. This paper describes the application of the PML to a geophy

The terms on the right sides of (5) 1 and (5) 2 are mutually exclusive. Whereas A គ ( x គ , ) and ( x គ , ) are some fields that are not necessarily electromagnetic, the six scalars ␣ Ϯ (), and so on, are uniform in the respective regions and may be considered as constitutive scalars. A blind appli

The perfectly matched layer boundary condition is incorporated into the beam propagation method based on a "nite element scheme for 3-D optical waveguides. Not only an approximate scalar formulation but a full-wave formulation is presented. Its e!ectiveness is veri"ed by way of numerical examples.