A finite difference for elastic waves is introduced. The model is based on the first order system of equations for the velocities and stresses. The differencing is fourth order accurate on the spatial derivatives and second order accurate in time. The model is tested on a series of examples including the Lamb problem, scattering from plane interf aces and scattering from a fluid-elastic interface. The scheme is shown to be effective for these problems. The accuracy and stability is insensitive to the Poisson ratio. For the class of problems considered here it is found that the fourth order scheme requires for two-thirds to one-half the resolution of a typical second order scheme to give comparable accuracy
The solution of the acoustic wave equation in one space dimension is studied. The PDE is discretized...
Two of the persistent problems in finite-difference solutions of the elastic wave equation are the l...
Surface topography and the weathered zone (i.e., heterogeneity near the earth’s surface) have great ...
A family of numerical schemes, based on finite difference operators is introduced for the computatio...
Author Posting. © Acoustical Society of America, 1990. This article is posted here by permission of...
Simulation of elastic wave propagation is an important method for oil and gas exploration. Accuracy...
This paper presents a review of high-order and optimized finite-difference methods for numerically s...
accepted and to be published in Geophys. J. Int.International audienceA method is proposed for accur...
Finite difference methods for solving problems of time-harmonic acoustics are developed and analyzed...
Summarization: Two finite-difference schemes for solving the elastic wave equation in heterogeneous ...
The stability of the finite-difference approximation of elastic wave propagation in orthotropic homo...
In this paper, we present an improvement to our previously published nearly analytic discrete method...
A stable and explicit second order accurate finite difference method for the elastic wave equation i...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
Motivated by seismological problems we have studied a 4th order split scheme for the elastic wave eq...
The solution of the acoustic wave equation in one space dimension is studied. The PDE is discretized...
Two of the persistent problems in finite-difference solutions of the elastic wave equation are the l...
Surface topography and the weathered zone (i.e., heterogeneity near the earth’s surface) have great ...
A family of numerical schemes, based on finite difference operators is introduced for the computatio...
Author Posting. © Acoustical Society of America, 1990. This article is posted here by permission of...
Simulation of elastic wave propagation is an important method for oil and gas exploration. Accuracy...
This paper presents a review of high-order and optimized finite-difference methods for numerically s...
accepted and to be published in Geophys. J. Int.International audienceA method is proposed for accur...
Finite difference methods for solving problems of time-harmonic acoustics are developed and analyzed...
Summarization: Two finite-difference schemes for solving the elastic wave equation in heterogeneous ...
The stability of the finite-difference approximation of elastic wave propagation in orthotropic homo...
In this paper, we present an improvement to our previously published nearly analytic discrete method...
A stable and explicit second order accurate finite difference method for the elastic wave equation i...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
Motivated by seismological problems we have studied a 4th order split scheme for the elastic wave eq...
The solution of the acoustic wave equation in one space dimension is studied. The PDE is discretized...
Two of the persistent problems in finite-difference solutions of the elastic wave equation are the l...
Surface topography and the weathered zone (i.e., heterogeneity near the earth’s surface) have great ...