Curved perfectly matched layer in frequency domain

## Abstract The need for numerical schemes for wave problems in large and unbounded domains appears in various applications, including modeling of pressure waves in arteries and other problems in biomedical engineering. Two powerful methods to handle such problems via domain truncation are the use

A perfectly matched layer PML is terminated with lossy ( ) absorbing boundary conditions ABCs and used for truncating the FDTD computational domain. By terminating the PML with a lossy ( ) ABC rather than a perfect electric conductor PEC , a considerable reduction in the reflection errors is achie¨e

This letter presents the implementation of Berenger's perfectly matched layers and perfectly matched anisotropic absorbers in an electromagnetic field sol¨er streamlined for the rapid simulation of ¨ectorial electromagnetic interactions using Krylo¨space-based model order reduction algorithms. The p

## Abstract An unsplit‐field perfectly matched layer (UPML) medium is introduced for higher‐order alternating direction implicit (ADI) formulation of the FDTD Method. By applying the proposed formulation, no field splitting is required for implementing higher‐order ADI‐FDTD PML; thus, the unconditi

A modification to the Berenger perfectly matched layer (PML) absorbing boundary condition that allows it to be used in particle-in-cell applications where the primary power flow through the boundary is due to electromagnetic radiation is presented. Instead of modeling particles within the PML, a ter