Rayleigh wave scattering by a wedge II

In our recent paper [1], it was acknowledged that computations of Rayleigh wave reflection and transmission coefficients reported in our previous paper [2] were inaccurate for wedges larger than 180 • . Here we would like to disclose the technical cause of that error. Errors in [2] were introduced

The method of Sommerfeld integrals is used to study propagation of Rayleigh and Stoneley waves in a system of two bonded solid wedges with a common vertex. Numerical results are obtained for configurations with a wide range of angles of steel and aluminum wedges.

The steady-state problem of scattering of an incident Rayleigh wave by an elastic wedge whose angle is less than 180 • is considered. The problem is reduced to the numerical solution of a pair of Fredholm integral equations of the second kind whose kernels are continuous functions. Numerical results

Fields scattered by a lossy dielectric wedge for a plane-wa¨e incidence are calculated. Reflected and refracted fields are obtained by inhomogeneous plane-wa¨e tracing in a lossy medium, while the edgediffracted fields of the physical-optics approximation are accurately corrected by adding the multi

## Abstract We outline specific features of numerical simulations of metamaterial wedges and interfaces. We study the effect of different positioning of a grid in the Yee method, which is necessary to obtain consistent convergence in modelling of interfaces with metamaterials characterized by negat