A principle of images for absorbing boundary conditions

## In this work, we present a new absorbing boundary condi-( ) tion for the finite-difference time-domain FDTD method. This boundary condition is based on the use of chiral absorbers, which are well suited for this application. Further, we present se¨eral numerical examples to illustrate the effica

## Abstract A new class of computational far‐field boundary conditions for hyperbolic partial differential equations was recently introduced by the authors. These boundary conditions combine properties of absorbing conditions for transient solutions and properties of far‐field conditions for steady

## Abstract This paper develops a finite element scheme to generate the spatial‐ and time‐dependent absorbing boundary conditions for unbounded elastic‐wave problems. This scheme first calculates the spatial‐ and time‐dependent wave speed over the cosine of the direction angle using the Higdon's on

A new absorbing boundary condition using an absorbing layer is presented for application to finite-difference time-domain (FDTD) calculation of the wave equation. This algorithm is by construction a hybrid between the Berenger perfectly matched layer (PML) algorithm and the one-way Sommerfeld algori