Gaussian beam depth migration for anisotropic media
- Colorado School of Mines, Golden, CO (United States). Center for Wave Phenomena
Gaussian beam migration (GBM), as it is implemented today, efficiently handles isotropic inhomogeneous media. The approach is based o the solution of the wave equation in ray-centered coordinates. Here the author extends the method to work for 2-D migration in generally anisotropic inhomogeneous media. Extension of the Gaussian-beam method from isotropic to anisotropic media involves modification of the kinematics and dynamics in the required ray tracing. While the accuracy of the paraxial expansion for anisotropic media is comparable to that for isotropic media, ray tracing is anisotropic media is much slower than that in isotropic media. However, because ray tracing is just a small portion of the computation in GBM, the increased computational effort in general anisotropic GBM is typically only about 40%. Application of this method to synthetic examples shows successful migration in inhomogeneous, transversely isotropic media for reflector dips up to and beyond 90{degree}. Further applications to synthetic data of layered anisotropic media show the importance of applying the proper smoothing to the velocity field used in the migration. Also, tests with synthetic data show that the quality of anisotropic migration of steep events in a medium with velocity increasing with depth is much more sensitive to the Thomsen anisotropy parameter {epsilon} than to the parameter {delta}. Thus, a good estimate of {epsilon} is needed to apply anisotropic migration with confidence.
- OSTI ID:
- 118788
- Journal Information:
- Geophysics, Journal Name: Geophysics Journal Issue: 5 Vol. 60; ISSN 0016-8033; ISSN GPYSA7
- Country of Publication:
- United States
- Language:
- English
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