Absorbing boundary conditions for acoustic and elastic waves in stratified media

## 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

## Communicated by Y. Shibata We consider the self-adjoint operator governing the propagation of elastic waves in perturbed stratified media R3 with free boundary-interface conditions. In this paper we establish the limiting absorption principle for this self-adjoint operator in appropriate Hilber

A general method is de¨eloped which extends Berenger's ( ) ( ) perfect matching layer PML absorbing boundary conditions ABCs to achie¨e a perfect matching of wa¨es propagating in 3-D magnetic and r or dielectric anisotropic media. The method is ¨alidated with the finite-difference time-domain method

## Abstract We prove the existence of guided waves propagating with a velocity strictly larger than the __S__ (shear) wave velocity at infinity in the case of unbounded elastic media invariant under translation in one space direction and asymptotically homogeneous at infinity. These waves correspo

A set of non-homogeneous radiation and outflow boundary conditions which automatically generate prescribed incoming acoustic or vorticity waves and, at the same time, are almost transparent to outgoing sound waves produced internally in a finite computation domain is proposed. This type of boundary