International audienceDispersion curves of surface waves, i.e., the wave velocity as a function of frequency, are largely used in seismology to invert for the soil structure, i.e., the shear (and pressure) wave velocity profile as a function of depth. In addition to the dispersion curve, Rayleigh waves (one of the two most important types of seismic surface waves) exhibit a second property that is directly linked to the soil structure: ellipticity. This parameter indicates the ratio between the horizontal and vertical axes of the elliptical wave motion of Rayleigh waves and is also a function of frequency. Although some early applications of ellipticity measurements date back to the 1960s, it is only recently that this parameter has gained ...
Shear wave velocity profile and bedrock depth are key parameters for seismic site response estimatio...
The variation of Rayleigh ellipticity versus frequency is gaining popularity in site characterizatio...
The ellipticity of the Rayleigh wave at the surface depends on the seismic structure beneath and in ...
International audienceDispersion curves of surface waves, i.e., the wave velocity as a function of f...
The knowledge of the local soil structure is important for the assessment of seismic hazards. A wide...
The local soil structure (i.e. shear and pressure wave velocities) can be obtained by inversion of d...
Passive seismic surveying methods represent a valuable tool in local seismic hazard assessment, oil ...
Several methods have been proposed in the past years to extract the Rayleigh wave ellipticity from h...
The joint inversion of surface-wave measurements and Rayleigh-wave ellipticity has gained popularity...
We develop a new method for measuring ellipticity of Rayleigh waves from ambient noise records by de...
International audienceRayleigh wave ellipticity as a function of frequency is closely linked to unde...
Spectral amplitude ratios between horizontal and vertical components (H/V ratios) from seismic recor...
The seismic hazard of a given site can be largely influenced by site effects. In order to estimate t...
The use of Rayleigh wave ellipticity has gained increasing popularity in recent years for investigat...
We develop a new method for measuring ellipticity of Rayleigh waves from ambient noise records by de...
Shear wave velocity profile and bedrock depth are key parameters for seismic site response estimatio...
The variation of Rayleigh ellipticity versus frequency is gaining popularity in site characterizatio...
The ellipticity of the Rayleigh wave at the surface depends on the seismic structure beneath and in ...
International audienceDispersion curves of surface waves, i.e., the wave velocity as a function of f...
The knowledge of the local soil structure is important for the assessment of seismic hazards. A wide...
The local soil structure (i.e. shear and pressure wave velocities) can be obtained by inversion of d...
Passive seismic surveying methods represent a valuable tool in local seismic hazard assessment, oil ...
Several methods have been proposed in the past years to extract the Rayleigh wave ellipticity from h...
The joint inversion of surface-wave measurements and Rayleigh-wave ellipticity has gained popularity...
We develop a new method for measuring ellipticity of Rayleigh waves from ambient noise records by de...
International audienceRayleigh wave ellipticity as a function of frequency is closely linked to unde...
Spectral amplitude ratios between horizontal and vertical components (H/V ratios) from seismic recor...
The seismic hazard of a given site can be largely influenced by site effects. In order to estimate t...
The use of Rayleigh wave ellipticity has gained increasing popularity in recent years for investigat...
We develop a new method for measuring ellipticity of Rayleigh waves from ambient noise records by de...
Shear wave velocity profile and bedrock depth are key parameters for seismic site response estimatio...
The variation of Rayleigh ellipticity versus frequency is gaining popularity in site characterizatio...
The ellipticity of the Rayleigh wave at the surface depends on the seismic structure beneath and in ...