Convolution PML (CPML): An efficient FDTD implementation of the CFS–PML for arbitrary media

## Abstract An efficient implementation of the perfectly matched layer (PML) is presented for truncating lossy and lossless finite‐difference time‐domain (FDTD) computational domains. The implementation is based on the stretched coordinate PML formulations and on the derivation of the wave equation

## Abstract A novel implementation of the perfectly matched layer (PML) absorbing boundary condition (ABC) to terminate the finite‐difference time‐domain (FDTD) algorithm for general dispersive and negative index materials is presented. The proposed formulation also adopts the complex frequency‐shi

In this paper, a theoretical confirmation of the recently ( ) proposed generalized material-independent PML GMIPML absorbers, which was de¨oted to absorbing wa¨es propagating in arbitrary anisotropic dielectric and magnetic media, is carried out. The purpose of such a confirmation is not only to mak

## Abstract The aim of this communication is to correct potential misunderstandings about the PMLs (which are called the MIPMLs) based on __D__–__H__ (__E__–__B__ or __D__–__B__) fields. In fact, the motivation for developing the MIPMLs is to establish accurate and efficient PML absorbers for gener