The characteristics of the seismic P-wave reflection coefficient can depend on the properties of the interface separating two dissimilar poroelastic half-spaces. This interface behavior can be characterized by an interfacial impedance which is associated with various petrophysical scenarios. We study the effects of the interfacial impedance on wave propagation across the interface between gas- and fluid-saturated media as well as a fluid/porous-medium contact. We obtain the reflection coefficient accounting for the interfacial impedance for all frequencies and angles by solving the corresponding boundary value problem. The interfacial impedance shows small influence on the P-wave reflection coefficient for the gas/water contact at seismic f...
Abstract The phenomenon of reflection and refraction is studied at the welded interface between two ...
The reflection and refraction of inhomogeneous waves at the boundary between two linear viscoelastic...
Analysis of compression wave propagation in a poroelastic medium predicts a peak of reflection from ...
The deformation of poroelastic saturated media due to passing seismic waves results in coupled solid...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
Abstract The seismic reflection and transmission characteristics of a single layer sandwiched betwee...
Wave propagation in saturated porous media involves complicated couplings between the solid skeleton...
Using Biot’s poroelasticity theory, we derive expressions for the reflection and transmission coeffi...
Using Biot’s poroelasticity theory, we derive expressions for the reflection and transmission coeffi...
Wave propagation in poroelastic media is a subject that finds applications in many fields of researc...
The underground rock is composed of rock skeleton and pore fluids. When seismic waves propagate in u...
We study the wave properties at a fluid/porous-medium interface by using newly derived closed-form e...
The dispersion relation for seismoelectric wave propagation in poroelastic media is formulated in te...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
A reliable estimate of the in?situ permeability of a porous layer in the subsurface is extremely dif...
Abstract The phenomenon of reflection and refraction is studied at the welded interface between two ...
The reflection and refraction of inhomogeneous waves at the boundary between two linear viscoelastic...
Analysis of compression wave propagation in a poroelastic medium predicts a peak of reflection from ...
The deformation of poroelastic saturated media due to passing seismic waves results in coupled solid...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
Abstract The seismic reflection and transmission characteristics of a single layer sandwiched betwee...
Wave propagation in saturated porous media involves complicated couplings between the solid skeleton...
Using Biot’s poroelasticity theory, we derive expressions for the reflection and transmission coeffi...
Using Biot’s poroelasticity theory, we derive expressions for the reflection and transmission coeffi...
Wave propagation in poroelastic media is a subject that finds applications in many fields of researc...
The underground rock is composed of rock skeleton and pore fluids. When seismic waves propagate in u...
We study the wave properties at a fluid/porous-medium interface by using newly derived closed-form e...
The dispersion relation for seismoelectric wave propagation in poroelastic media is formulated in te...
Seismic attenuation and dispersion in layered sedimentary structures are often interpreted in terms ...
A reliable estimate of the in?situ permeability of a porous layer in the subsurface is extremely dif...
Abstract The phenomenon of reflection and refraction is studied at the welded interface between two ...
The reflection and refraction of inhomogeneous waves at the boundary between two linear viscoelastic...
Analysis of compression wave propagation in a poroelastic medium predicts a peak of reflection from ...