Torsional surface waves in inhomogeneous elastic media

The standard linear model for electroseismic waves is investigated in the presence of anisotropic, inhomogeneous, time-shift invariant media. In the framework of a comprehensive theory for a new class of evolutionary problems wellposedness of associated initial boundary value problems is shown.

Many wave propagation phenomena in classical physics are governed by equations that can be recast in Schrödinger form. In this approach the classical wave equation (e.g., Maxwell's equations, acoustic equation, elastic equation) is rewritten in Schrödinger form, leading to the study of the spectral

It is well known that an elastic homogeneous half-space does not allow torsional surface waves to propagate. The present paper attempts to find out the possibility of propagation of such waves in a viscoelastic half-space. The study reveals that although the homogeneous elastic half-space does not

## Abstract We propose a tensor product derivative matching (TPDM) method to restore the accuracy of high‐order finite difference time‐domain (FDTD) schemes of computational electromagnetics (CEM) with material interfaces in two spatial dimensions (2D). By making use of fictitious points, the TPDM