Add to ORKGSeismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms of the classical White model for wave-induced pressure diffusion across the layers. However, this interlayer flow is severely dependent on the properties of the interface separating two layers. This interface behaviour can be described by a pressure jump boundary condition involving a non-vanishing interfacial impedance. In this paper, we incorporate the interfacial impedance into the White model by solving a boundary value problem in the framework of quasi-static poroelasticity. We show that the White model predictions for attenuation and dispersion substantially change. These changes can be attributed to petrophysically plausible scenarios ...
International audience[1] In porous rocks saturated in patches by two immiscible fluids, seismic com...
In this work, we have used numerical oscillatory compressibility simulations based on the quasi-stat...
In inhomogeneous porous media, the mechanism of wave-induced fluid flow causes significant attenuati...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
The characteristics of the seismic P-wave reflection coefficient can depend on the properties of the...
We analyze compressional wave attenuation in fluid saturated porous material with porous inclusions ...
In this work, we have used numerical oscillatory compressibility simulations based on the quasi-stat...
Waves in patchy-saturated rocks are attenuated through the mechanism of wave-induced pressure diffus...
Capillarity is known to control the fluid distribution in partially saturated rocks. This thesis exp...
The low-frequency theory of the White model to predict the dispersion and intrinsic attenuation in a...
Seismic waves propagating in porous rocks saturated with two immiscible fluids can be strongly atten...
According to existing experiments on fine-grained polycrystalline mantle materials, in the seismic f...
Seismic waves propagating in porous rocks saturated with two immiscible fluids can be strongly atten...
The deformation of poroelastic saturated media due to passing seismic waves results in coupled solid...
International audience[1] In porous rocks saturated in patches by two immiscible fluids, seismic com...
In this work, we have used numerical oscillatory compressibility simulations based on the quasi-stat...
In inhomogeneous porous media, the mechanism of wave-induced fluid flow causes significant attenuati...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
The characteristics of the seismic P-wave reflection coefficient can depend on the properties of the...
We analyze compressional wave attenuation in fluid saturated porous material with porous inclusions ...
In this work, we have used numerical oscillatory compressibility simulations based on the quasi-stat...
Waves in patchy-saturated rocks are attenuated through the mechanism of wave-induced pressure diffus...
Capillarity is known to control the fluid distribution in partially saturated rocks. This thesis exp...
The low-frequency theory of the White model to predict the dispersion and intrinsic attenuation in a...
Seismic waves propagating in porous rocks saturated with two immiscible fluids can be strongly atten...
According to existing experiments on fine-grained polycrystalline mantle materials, in the seismic f...
Seismic waves propagating in porous rocks saturated with two immiscible fluids can be strongly atten...
The deformation of poroelastic saturated media due to passing seismic waves results in coupled solid...
International audience[1] In porous rocks saturated in patches by two immiscible fluids, seismic com...
In this work, we have used numerical oscillatory compressibility simulations based on the quasi-stat...
In inhomogeneous porous media, the mechanism of wave-induced fluid flow causes significant attenuati...