Using Biot's poroelasticity theory, we derive expressions for the reflection and transmission coefficients for a plane shear wave incident on an interface separating two different poroelastic solids. The coefficients are formulated as a function of the wave incidence angle, frequency and rock properties. Specific cases calculated include the boundary between water-saturated sand and water-saturated sandstone and the gas-water interface in sand. The results show a very different interface response to that of an incident P wave. Plane SV wave incidence does not significantly excite the Biot slow P wave if the frequency of the wave is below the transition frequency. Above this frequency, an incident plane SV wave can generate a mode-converted ...
Wave propagation in saturated porous media involves complicated couplings between the solid skeleton...
The primary focus of this dissertation is to link the poroelastic model that couples rock’s elastic ...
Abstract The seismic reflection and transmission characteristics of a single layer sandwiched betwee...
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...
We study the wave properties at a fluid/porous-medium interface by using newly derived closed-form e...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
The Zoeppritz equations used in a typical reflection amplitude versus source-receiver offset (AVO) s...
The deformation of poroelastic saturated media due to passing seismic waves results in coupled solid...
I3.ASA (Manu2O The Biot theory of propagation in a porous medium provides a mathematical framwork fo...
The underground rock is composed of rock skeleton and pore fluids. When seismic waves propagate in u...
International audienceWe find a sufficient condition of hyperbolicity for a differential system gove...
Wave propagation in saturated porous media involves complicated couplings between the solid skeleton...
The primary focus of this dissertation is to link the poroelastic model that couples rock’s elastic ...
Abstract The seismic reflection and transmission characteristics of a single layer sandwiched betwee...
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...
We study the wave properties at a fluid/porous-medium interface by using newly derived closed-form e...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
The Zoeppritz equations used in a typical reflection amplitude versus source-receiver offset (AVO) s...
The deformation of poroelastic saturated media due to passing seismic waves results in coupled solid...
I3.ASA (Manu2O The Biot theory of propagation in a porous medium provides a mathematical framwork fo...
The underground rock is composed of rock skeleton and pore fluids. When seismic waves propagate in u...
International audienceWe find a sufficient condition of hyperbolicity for a differential system gove...
Wave propagation in saturated porous media involves complicated couplings between the solid skeleton...
The primary focus of this dissertation is to link the poroelastic model that couples rock’s elastic ...
Abstract The seismic reflection and transmission characteristics of a single layer sandwiched betwee...