Fluid saturated rocks exhibit a dependence of acoustic velocities on frequency, which is called velocity dispersion. For some rocks, e.g., shales, velocity dispersion is rather strong and has to be taken into account when interpreting and comparing data from seismic surveys, sonic logs, and ultrasonic measurements on core plugs in the laboratory. In this work, a new laboratory technique has been developed that allows the direct measurement of the P-wave modulus at seismic frequencies from which the P-wave velocities can be derived. Together with ultrasonic velocity measurements that are carried out simultaneously, the P-wave velocity dispersion between seismic and ultrasonic frequencies is obtained
In the Earth there is no such perfectly elastic medium. In an elastic medium, wave particles that t...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
Fluid saturated rocks exhibit a dependence of acoustic velocities on frequency, which is called velo...
Fluid saturated rocks exhibit a dependence of acoustic velocities on frequency, which is called ve...
The pioneering work of Mike Batzle and his colleagues has provided a fundamental understanding of me...
My dissertation focuses on establishing a link between the rock heterogeneities and the fluid flow-r...
The elasticity of subsurface structures is a key assumption of seismic exploration. However, there i...
A better understanding of seismic dispersion and attenuation of acoustic waves in rocks is important...
The aim of this paper is to develop empirical models based on laboratory experimental works using a ...
In porous, fluid-filled rock formations, compressional seismic wave velocities show a strong depende...
The influence of fluid mobility on seismic velocity dispersion is directly observed in laboratory me...
In order to understand the characteristics of acoustic wave propagation in rocks within seismic freq...
Compression wave sonic velocity (Vp) is routinely measured in rock testing laboratories. Shear wave ...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
In the Earth there is no such perfectly elastic medium. In an elastic medium, wave particles that t...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
Fluid saturated rocks exhibit a dependence of acoustic velocities on frequency, which is called velo...
Fluid saturated rocks exhibit a dependence of acoustic velocities on frequency, which is called ve...
The pioneering work of Mike Batzle and his colleagues has provided a fundamental understanding of me...
My dissertation focuses on establishing a link between the rock heterogeneities and the fluid flow-r...
The elasticity of subsurface structures is a key assumption of seismic exploration. However, there i...
A better understanding of seismic dispersion and attenuation of acoustic waves in rocks is important...
The aim of this paper is to develop empirical models based on laboratory experimental works using a ...
In porous, fluid-filled rock formations, compressional seismic wave velocities show a strong depende...
The influence of fluid mobility on seismic velocity dispersion is directly observed in laboratory me...
In order to understand the characteristics of acoustic wave propagation in rocks within seismic freq...
Compression wave sonic velocity (Vp) is routinely measured in rock testing laboratories. Shear wave ...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
In the Earth there is no such perfectly elastic medium. In an elastic medium, wave particles that t...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
Laboratory measurements of the attenuation and velocity dispersion of compressional and shear waves ...
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