This paper examines the seismic signatures of discrete, finite-length fractures, and outlines an approach for elastic, prestack reverse-time imaging of discrete fractures. The results of this study highlight the importance of incorporating fracture-generated P-S converted waves into the imaging method, and presents an alternate imaging condition that can be used in elastic reverse-time imaging when a direct wave is recorded (e.g., for crosswell and VSP acquisition geometries)
Fluid flow through a fractured reservoir is often controlled by the large fractures. Seismically ima...
Single-well reflection imaging using sonic logging data successfully locates fine-scale structures a...
Source–receiver interferometric imaging can be used to synthesize a subsurface acoustic or elastic i...
A modified reverse time migration (RTM) method for dispersed flexural waves is proposed to detect an...
Hydraulic fracturing has been implemented in enhanced geothermal systems and in developing unconvent...
This study formally adapts the time-domain linear sampling method (TLSM) for ultrasonic imaging of s...
To quantitatively image fractures with high resolution, we have developed an elastic least-squares m...
A recent variant of time reversal imaging is employed for reconstructing images of a closed crack, b...
Advances in locating and characterizes fractures in oil and gas reservoirs, and at waste isolation s...
Characterizing the mechanical and hydraulic properties of fractures is crucial in hydrocarbon and ge...
Hydraulic properties of a fractured reservoir are often controlled by large fractures. In order to s...
We develop a comprehensive theory and microlocal analysis of reverse-time imaging—also referred to a...
For the past several years LBL has been carrying out experiments at various fractured rock sites to ...
A majority of the research in Structural Health Monitoring focuses on detection of damage. This pape...
Current methodologies to characterize fractures at the reservoir scale have serious limitations in s...
Fluid flow through a fractured reservoir is often controlled by the large fractures. Seismically ima...
Single-well reflection imaging using sonic logging data successfully locates fine-scale structures a...
Source–receiver interferometric imaging can be used to synthesize a subsurface acoustic or elastic i...
A modified reverse time migration (RTM) method for dispersed flexural waves is proposed to detect an...
Hydraulic fracturing has been implemented in enhanced geothermal systems and in developing unconvent...
This study formally adapts the time-domain linear sampling method (TLSM) for ultrasonic imaging of s...
To quantitatively image fractures with high resolution, we have developed an elastic least-squares m...
A recent variant of time reversal imaging is employed for reconstructing images of a closed crack, b...
Advances in locating and characterizes fractures in oil and gas reservoirs, and at waste isolation s...
Characterizing the mechanical and hydraulic properties of fractures is crucial in hydrocarbon and ge...
Hydraulic properties of a fractured reservoir are often controlled by large fractures. In order to s...
We develop a comprehensive theory and microlocal analysis of reverse-time imaging—also referred to a...
For the past several years LBL has been carrying out experiments at various fractured rock sites to ...
A majority of the research in Structural Health Monitoring focuses on detection of damage. This pape...
Current methodologies to characterize fractures at the reservoir scale have serious limitations in s...
Fluid flow through a fractured reservoir is often controlled by the large fractures. Seismically ima...
Single-well reflection imaging using sonic logging data successfully locates fine-scale structures a...
Source–receiver interferometric imaging can be used to synthesize a subsurface acoustic or elastic i...