S33F-04
Computing the Dynamic Response of a Stratified Elastic Half Space Using Diffuse Field Theory
Wednesday, 16 December 2015: 14:25
307 (Moscone South)
Francisco J Sanchez-Sesma, UNAM National Autonomous University of Mexico, Mexico City, Mexico
Abstract:
The analytical solution for the dynamic response of an elastic half-space for a normal point load at the free surface is due to Lamb (1904). For a tangential force, we have Chao´s (1960) formulae. For an arbitrary load at any depth within a stratified elastic half space, the resulting elastic field can be given in the same fashion, by using an integral representation in the radial wavenumber domain. Typically, computations use discrete wave number (DWN) formalism and Fourier analysis allows for solution in space and time domain. Experimentally, these elastic Green´s functions might be retrieved from ambient vibrations correlations when assuming a diffuse field. In fact, the field could not be totally diffuse and only parts of the Green’s functions, associated to surface or body waves, are retrieved. In this communication, we explore the computation of Green functions for a layered media on top of a half-space using a set of equipartitioned elastic plane waves. Our formalism includes body and surface waves (Rayleigh and Love waves). These latter waves correspond to the classical representations in terms of normal modes in the asymptotic case of large separation distance between source and receiver. This approach allows computing Green’s functions faster than DWN and separating the surface and body wave contributions in order to better represent Green’s function experimentally retrieved.