Numerical experiments of seismic wave propagation in a laterally homogeneous layered medium explore subsurface imaging at subwavelength distances for dense seismic arrays. We choose a time-reversal approach to simulate fundamental mode Rayleigh surface wavefields that are equivalent to the cross-correlation results of three-component ambient seismic field records. We demonstrate that the synthesized 2-D spatial autocorrelation fields in the time domain support local or so-called focal spot imaging. Systematic tests involving clean isotropic surface wavefields but also interfering body wave components and anisotropic incidence assess the accuracy of the phase velocity and dispersion estimates obtained from focal spot properties. The results ...
It is essential to understand the potential resolving power of surface wave data in interpreting inv...
In this thesis, a finite-frequency theory is developed to calculate Born sensitivity kernels for Ray...
Applying 3D-modeling and high-resolution dispersion analysis, surface waves were used in a seismic s...
Numerical experiments of seismic wave propagation in a laterally homogeneous layered medium explore ...
International audienceNumerical experiments of seismic wave propagation in a laterally homogeneous l...
Abstract Most techniques used in seismological practice have been performed under the assumption tha...
The deployment of USArray across the continental U.S. has prompted developments within surface wave ...
A new approach to the enhancement of regional-scale surface wave to- mography incorporating inter-st...
Seismic surface wave methods gained popularity during the last decade to retrieve the shallow subsur...
Surface waves propagating parallel to the ground surface can be used to effectively delineate sharp ...
Shear (S)-wave velocity is a key property of near-surface materials and is the fundamental parameter...
Surface waves are now being used by several groups to map lateral heterogeneity [Nakanishi and Ander...
International audienceWe present a new technique for deriving detailed information on seismic veloci...
It is essential to understand the potential resolving power of surface wave data in interpreting inv...
In this thesis, a finite-frequency theory is developed to calculate Born sensitivity kernels for Ray...
Applying 3D-modeling and high-resolution dispersion analysis, surface waves were used in a seismic s...
Numerical experiments of seismic wave propagation in a laterally homogeneous layered medium explore ...
International audienceNumerical experiments of seismic wave propagation in a laterally homogeneous l...
Abstract Most techniques used in seismological practice have been performed under the assumption tha...
The deployment of USArray across the continental U.S. has prompted developments within surface wave ...
A new approach to the enhancement of regional-scale surface wave to- mography incorporating inter-st...
Seismic surface wave methods gained popularity during the last decade to retrieve the shallow subsur...
Surface waves propagating parallel to the ground surface can be used to effectively delineate sharp ...
Shear (S)-wave velocity is a key property of near-surface materials and is the fundamental parameter...
Surface waves are now being used by several groups to map lateral heterogeneity [Nakanishi and Ander...
International audienceWe present a new technique for deriving detailed information on seismic veloci...
It is essential to understand the potential resolving power of surface wave data in interpreting inv...
In this thesis, a finite-frequency theory is developed to calculate Born sensitivity kernels for Ray...
Applying 3D-modeling and high-resolution dispersion analysis, surface waves were used in a seismic s...