Real sedimentary media can usually be characterized as transverse isotropy. To reveal wave propagation in the true models and improve the accuracy of migrations and evaluations, we investigated the algorithm of wavefield simulations in an anisotropic viscoelastic medium. The finite difference in the frequency domain (FDFD) has several advantages compared with that in the time domain, e.g., implementing multiple sources, multi-scaled inversion, and introducing attenuation. However, medium anisotropy will lead to the complexity of the wavefield in the calculation. The damping profile of the conventional absorption boundary is only defined in one single direction, which produces instability when the wavefields of strong anisotropy are reflecte...
International audienceWe assess the kinematic and dynamic accuracies of a finite-difference frequenc...
Forward modelling of seismic waves is an essential tool in the determination of the underlying struc...
Abstract We address the basic theoretical and algorithmic aspects of memory-efficient implementation...
A 2D finite-difference, frequency-domain method was developed for modeling viscoacoustic seismic wav...
Accurate seismic exploration demands sophisticated seismic techniques that can be applied to any com...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
Real Earth media is anelastic, which affects both kinematics and dynamics of propagating waves. Wave...
The purpose of this study is to verify the numerical simulation of the finite difference method of t...
Real earth media disperse and attenuate propagating mechanical waves. This anelastic behavior can be...
We propose a very efficient scheme for modeling three-component seismic plane waves in vertically he...
Real Earth media are anelastic, which affects both the kinematics and dynamics of propagating waves:...
Real Earth media are not perfectly elastic. Instead, they attenuate propagating mechanical waves. Th...
International audienceWe have derived a system of equations for seismic-while-drilling viscoelastic ...
Real earth media disperse and attenuate propagating waves. This anelastic behavior can be well descr...
International audienceWe assess the kinematic and dynamic accuracies of a finite-difference frequenc...
Forward modelling of seismic waves is an essential tool in the determination of the underlying struc...
Abstract We address the basic theoretical and algorithmic aspects of memory-efficient implementation...
A 2D finite-difference, frequency-domain method was developed for modeling viscoacoustic seismic wav...
Accurate seismic exploration demands sophisticated seismic techniques that can be applied to any com...
Summarization: When treating the forward full waveform case, a fast and accurate algorithm for model...
Real Earth media is anelastic, which affects both kinematics and dynamics of propagating waves. Wave...
The purpose of this study is to verify the numerical simulation of the finite difference method of t...
Real earth media disperse and attenuate propagating mechanical waves. This anelastic behavior can be...
We propose a very efficient scheme for modeling three-component seismic plane waves in vertically he...
Real Earth media are anelastic, which affects both the kinematics and dynamics of propagating waves:...
Real Earth media are not perfectly elastic. Instead, they attenuate propagating mechanical waves. Th...
International audienceWe have derived a system of equations for seismic-while-drilling viscoelastic ...
Real earth media disperse and attenuate propagating waves. This anelastic behavior can be well descr...
International audienceWe assess the kinematic and dynamic accuracies of a finite-difference frequenc...
Forward modelling of seismic waves is an essential tool in the determination of the underlying struc...
Abstract We address the basic theoretical and algorithmic aspects of memory-efficient implementation...